KR102311141B1 - Smart gas and flame detection system - Google Patents

Abstract

The present invention relates to an intelligent gas and flame detection system. According to the present invention, a detection sensor for detecting the leakage of hydrogen gas and the occurrence of a fire is placed on a complex detector, which is one single detection means, and a gas leak, hydrogen flames and a dislocated hydrocarbon fire are classified stage by stage to be detected and situational responses can be differentially made in accordance with the detected situations by stage, and, moreover, a gas leak and flames are detected at an early stage and the detected fire information is transmitted to one integrated management server, and then, the management server determines the fire situation using the inputted information to transmit the same to a corresponding government office or person in charge through a mobile phone in accordance with the determined situations by stage such as a gas leak, a primary fire and a secondary fire, and, as a result, fire responses by stage can be quickly processed, and moreover, workers in the site can be aware of an accurate fire situation.

Description

Intelligent gas and flame detection system {SMART GAS AND FLAME DETECTION SYSTEM}

The present invention relates to an intelligent gas and flame detection system. In particular, a detection sensor for detecting hydrogen gas leakage and fire is disposed in a complex detector as a single detection device, and gas leakage and hydrogen flame detection and potential hydrocarbon fire are detected step by step. It detects separately and enables differential responses to each situation according to the detected step-by-step situation, detects gas leaks and flames early, and transmits the detected fire information to an integrated management server. By judging the fire situation using the information input from the server, and sending it to the relevant government office or person in charge according to the determined stage of gas leakage, primary fire, and secondary fire, it is possible to quickly handle fire phase response. In addition, it relates to an improved intelligent gas and flame detection system so that field workers can recognize an accurate fire situation.

In general, a gas sensor refers to a sensor that detects gas. The gas sensor detects a specific chemical contained in the gas, converts the concentration into an electrical signal, and outputs it. Various gas sensors exist depending on the type of gas.

Existing gas sensor detection methods largely use changes in solid properties due to gas adsorption or reaction (semiconductor sensor, ceramic sensor, piezoelectric sensor), combustion heat (contact combustion sensor), and electrochemical reaction. There are methods (solid electrolyte sensors, electrochemical sensors) and methods using physical property values (infrared absorption).

A conventional gas detection device detects a concentration of a specific gas using various types of gas sensors, and outputs a gas leak warning when the concentration of a specific gas is greater than or equal to a predetermined value.

On the other hand, in the gas piping facility, gas leakage occurs due to the wear and tear of the valve and the occurrence of cracks in the connection flange portion and the opening/closing valve portion according to long-term use.

Therefore, in order to prevent leakage of flammable or toxic gas, which is dangerous for fire and explosion, as well as to reduce cost and maintain an appropriate commercial pressure, it is necessary to check the gas pipe for gas leakage from time to time to maintain the normal state.

Conventionally, when checking for gas leakage in a gas pipe, soapy water is applied to the pipe part where gas leakage is expected, that is, the flange part, and then the gas leak can be visually inspected or a gas leak can be checked by a separate gas checker. However, in all of these inspections, there was the inconvenience of the operator having to check directly at the inspection site where gas leakage is expected. There was a problem that became a factor causing safety accidents for workers when checking whether or not there is.

As a prior art related to the existing gas detection device, as disclosed in Korean Patent Publication No. 10-2019723 "Gas detection device and detection method and operation method" (registration date: 2019.09.03), gas detection or oxygen concentration It relates to a sensing device for measuring, a gas sensing terminal for detecting gas and measuring oxygen concentration; A mobile phone having an application program for processing the data received from the gas detection terminal; includes, wherein the gas detection terminal includes: a sensor for detecting gas and measuring the concentration of oxygen; a first interface for transmitting a result measured by the sensor; a microcomputer for data processing as a signal for transmitting the received measurement result to a mobile phone; and a second interface for transmitting the signal transmitted from the microcomputer to the mobile phone.

On the other hand, the existing flame detection sensor has a function of detecting and alarming the presence of a fire, and a number of alarm means using the flame detection sensor are used so that the fire can be quickly extinguished.

As the alarm device, a heat detection alarm device capable of detecting and alarming heat and a smoke detection alarm device capable of detecting and alarming smoke are typically used alarm means.

However, when the alarm device as described above is used, the detection speed is slow and the fire is detected and an alarm is sounded only after the fire has progressed to a certain extent.

As another prior art for improving this, as disclosed in Korean Patent Publication No. 10-0350733 "An alarm device using a flame detection sensor" (registration date: August 17, 2002), ultraviolet or infrared radiation emitted from a flame is detected. When a flame is detected by the sensor, a high voltage is supplied to the sensor to operate the sensor and an amplifier for applying power to the counter, and a counter and counter that analyzes the detection value detected by the sensor with preset data A relay that applies power to the alarm in accordance with the command of , a Claire unit that returns the setpoint values of the sensor, amplifier and counter to the original state when there is a malfunction during comparative analysis of the counter, and a count setting that can set the data of the counter It is to provide an alarm device that can be configured as a switch to quickly alarm while minimizing malfunctions.

Recently, a technology for detecting both gas and flame is required, and as another prior art for solving this problem, Korean Patent Publication No. 10-1644157 "Gas and flame detection device" (Registration date: July 25, 2016) As disclosed in, a gas detection unit for detecting a gas leak; A flame detection unit for detecting the occurrence of a flame; a gas leak reproducing unit that reproduces a simulated situation that can be detected as a gas leak by the gas detecting unit to enable self-diagnosis of whether the gas detecting unit has a failure; a flame generation reproducing unit that reproduces a simulated situation that can be detected by the flame detection unit as a flame occurrence situation to enable self-diagnosis of the failure of the flame detection unit; and to determine whether the gas detection unit and the flame detection unit are faulty by checking whether the gas detection unit and the flame detection unit are detected for each simulated situation provided by the gas leakage reproduction unit and the flame generation reproduction unit. It will include; a control unit for controlling the operation of the gas leakage reproduction unit and the flame generation reproduction unit.

However, in the prior art, a gas detection sensor for detecting gas leakage and a flame detection sensor for detecting flame generation must each have a sensor housing, and there are limitations in cost and installation space.

In addition, in the case of gas, especially hydrogen gas, since it is a colorless, odorless, tasteless, and non-toxic combustible gas, there is a disadvantage that it is difficult for an operator to recognize, and there is a possibility that a large accident may occur when an explosion occurs due to a fire.

In addition, since it is not possible to distinguish stages by situation of gas leakage or primary and secondary fires (hydrogen and hydrocarbon fires), an improved system is required to improve the ability to cope with each situation.

Korean Patent Publication No. 10-2019723 "Gas detection device and detection method and operation method" (Registration date: 2019.09.03) Korean Patent Publication No. 10-0350733 "Alarm device using flame detection sensor" (Registration date: August 17, 2002) Korean Patent Publication No. 10-1644157 "Gas and flame detection device" (Registration date: 2016.07.25)

The present invention was created to solve the above problems in consideration of the above problems, and its purpose is to arrange a detection sensor for detecting gas leakage and fire occurrence in a single detection device, a complex detector, and detect gas leakage and hydrogen flame and perform electric potential. It is to provide an improved intelligent gas and flame detection system to classify and detect hydrocarbon fires by stage and to differentially respond to each situation according to the detected stage situation.

In addition, another object of the present invention is to detect gas leakage and flame generation early, transmit the detected fire information to one integrated management server side, and determine the fire situation using the information input from the management server. By transmitting to the relevant government office or person in charge according to the situation of gas leak, primary fire, and secondary fire by mobile, not only can respond quickly by stage of fire, but also improve so that field workers can recognize the exact fire situation It is to provide an intelligent gas and flame detection system.

The present invention for achieving the above object is a gas detection sensor that detects a gas leak on one side and outputs the detected gas leak information to the control unit is disposed on the other side, and separates hydrogen flame and hydrocarbon flame, respectively, detects the detected flame a sensing step of detecting gas leakage and flame information using a composite detector in which a flame detection sensor for outputting information to the control unit is disposed; Information transmission that determines the fire situation by stage based on the gas leakage information and flame information authorized by the composite detector, and transmits the gas leakage and fire stage information to the relevant government office or person in charge according to the manual program according to the determined stage fire situation step; a display step of displaying the leak concentration of the gas detected by the gas detection sensor and externally displaying the state transmitted from the control unit; and an alarm step of alarming to the outside using an alarm device when the gas leak, the primary fire in which the hydrogen flame is generated, and the secondary fire in which the hydrocarbon flame is generated.

In the information transmission step, when the gas leakage and flame information detected by the composite detector is applied to the control unit, the control unit transmits the gas leakage and flame information to the mobile or The alarm signal is wirelessly output to the mobile side of each person in charge.

The flame detection sensor detects a flame using infrared rays, and the control unit selects a primary fire or a secondary fire according to the difference in the wavelength band of the infrared frequency detected by the flame detection sensor.

When the gas concentration detected by the complex sensor is higher than a set value, the control unit outputs a wireless control signal to the ventilation device to forcibly drive the ventilation device to control the indoor gas concentration to be lowered.

The information transmission step is a fire detection app installed to be linked to the terminal of the manager registered in the integrated management server, so as to enable event inquiry and cycle-by-cycle management to the fire detection app side at regular intervals to transmit the value authorized by the complex detector will be.

In the case of the fire detection app, when a plurality of composite detectors are placed indoors, a unique identification number is written on each composite detector, and after distinguishing the composite detector in which a specific value higher than the reference value is detected, the image of the location where the composite detector is located The information was transmitted from CCTV installed indoors and confirmed.

The information transmission step further includes a post-processing transmission step of outputting the post-processing situation taken by the relevant government agency or the person in charge after recognizing the gas leak or fire situation to the integrated management server side to the wireless terminal, and storing it in the integrated management server. it will be equipped

In the display step, the gas concentration and detection state are displayed through the display unit provided on the front surface of the complex sensor, and the alarm operation is alerted through the alarm device according to the control signal of the control unit.

The present invention not only has the advantage of reducing costs and simplifying the system by applying a composite detector in which a gas detection sensor and a flame detection sensor are integrally provided, compared to the case in which each of the existing individual detection sensors is provided, It has the useful advantage of being able to detect hydrogen flames and hydrocarbon flames separately and take appropriate action at each stage of the fire.

In addition, in the present invention, when the gas concentration detected by the complex sensor is higher than a set value, by outputting a wireless control signal to the ventilation device to forcibly drive the ventilation device to lower the indoor gas concentration, the indoor working environment can be safely It has the advantage of being able to keep

And the present invention determines the fire situation by stage based on the gas leakage information and the flame information, and transmits the gas leakage and fire stage information to the relevant government office or person in charge according to the manual program according to the determined stage fire situation, so that the installation site and In a remote location, a person in charge can quickly recognize the fact of a gas leak and fire, allowing quick action. .

In addition, the present invention is a fire detection app installed to be linked to the terminal of the administrator registered in the integrated management server so that event inquiry and cycle-by-cycle management is possible by transmitting the numerical value approved by the complex detector at regular intervals to the fire detection app side, hydrogen It has the advantage of improving the convenience of gas safety management.

1 is a flowchart sequentially showing an intelligent gas and flame detection system according to the present invention.
Figure 2 is a block diagram schematically showing the configuration of the present invention intelligent gas and flame detection system.
3 is a view schematically showing the present invention complex sensor.

In describing the present invention, if it is determined that a detailed description of a related known technology or configuration may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted. And the terms to be described later are terms defined in consideration of functions in the present invention, and may vary according to the intention or custom of the user. Therefore, the definition should be made based on the content throughout this specification. In addition, 'including' a certain component means that other components may be further included, rather than excluding other components, unless otherwise stated.

The intelligent gas and flame detection system according to the present invention will be described with reference to FIGS. 1 to 3 , a gas detection sensor 110 that detects a gas leak on one side and outputs the detected gas leak information to the controller 200 side. Gas leakage and flame information using a composite detector 100 disposed on the other side, and a flame detection sensor 120 that separates and detects hydrogen flame and hydrocarbon flame, and outputs the detected flame information to the control unit 200 side a sensing step (S1) of detecting Based on the gas leak information and flame information authorized by the composite detector 100, the fire situation is determined by stage, and the gas leak and fire stage information is transmitted to the relevant government office or person in charge according to the manual program according to the determined stage fire situation. an information transmission step (S2); a display step (S3) of displaying the leak concentration of the gas detected by the gas detection sensor 110 and displaying the state transmitted from the control unit 200 to the outside; and an alarm step (S4) of alarming to the outside using the alarm device 600 when the gas leak, the primary fire in which the hydrogen flame is generated, and the secondary fire in which the hydrocarbon flame is generated.

1 and 2 , the composite detector 100 includes a gas detection sensor 110 and a plurality of flame detection sensors 120 integrally disposed to integrally detect gas leakage and flame generation and utilize space. sex can be increased.

The composite detector 100 detects the outflow of hydrogen gas by using the gas sensor 110, and uses a plurality of flame detection sensors 120 to generate a hydrogen flame, which is a primary fire, and a potential secondary fire. Each of the hydrocarbon flames that are generated are separately detected.

Accordingly, the sensing step (S1) detects the outflow of hydrogen gas from the composite sensor 100 and outputs it to the control unit 200 side, and detects the generation of a flame with infrared rays and outputs it to the control unit 200 side.

In addition, as shown in FIG. 3 , the composite detector 100 wirelessly outputs information detected by the gas detection sensor 110 and the flame detection sensor 120 to the control unit 200 side. have more

The flame detection sensor 120 may employ a plurality of infrared sensors.

The control unit 200 determines the gas leakage according to the gas concentration, determines the infrared frequency wavelength band generated when the flame is generated, and classifies the hydrogen flame as the primary fire or the hydrocarbon flame as the secondary fire, and a control signal suitable for each fire step. will output

In addition, when the gas concentration detected by the complex sensor 100 is higher than the set value, the control unit 200 outputs a wireless control signal to the ventilation device 600 to force the ventilation device 600 to drive the indoor gas concentration. can be controlled to lower it.

In the information transmission step (S2), when the gas leak and flame information detected by the composite sensor 100 is applied to the control unit 200 side, the control unit ( 200) outputs gas leak and flame information wirelessly to the mobile of the relevant office or to the mobile of each person in charge.

In addition, the information transmission step (S2) is a fire detection app (not shown) installed so as to be linked to the terminal of the manager registered in the integrated management server 300, a certain period to the fire detection app to enable event inquiry and management by cycle Each time, the value applied by the complex sensor 100 is transmitted.

In the event inquiry of the fire detection app, it is possible to inquire the history of the fact that the gas concentration exceeds the normal gas concentration or the occurrence of a flame is detected.

In the case of the fire detection app, when a plurality of the composite detectors 100 are disposed indoors, a unique identification number is written on each composite detector 100, and after distinguishing the composite detector 100 in which a specific value higher than the reference value is detected. It is possible to receive and check the image information of the location where the complex sensor 100 is located from the CCTV installed indoors.

The information transmission step (S2) outputs the post-processing situation in which measures such as fire extinguishing or ventilation are performed after the relevant government office or person in charge recognizes a gas leak or a fire situation to the integrated management server 300 side to the wireless terminal, and this It further includes a post-processing transmission step of storing in the integrated management server (300).

The post-processing information stored in the integrated management server 300 through the post-processing transmission step is inquired about the history through the fire detection app.

In the display step (S3), the gas concentration and the detection state are displayed through the display unit 150 provided on the front surface of the complex sensor 100, and in the alarm step (S4), according to the control signal of the control unit 200 It is intended to alert the alarm operation through the alarm device (500).

More preferably, the alarm step (S4) is classified according to the type of the gas leak, the primary fire in which the hydrogen flame is generated, and the secondary fire in which the hydrocarbon flame is generated, and operates a warning light of a different color, or By making an alarm to the outside using an alarm signal, the situation can be easily recognized in the field and has the advantage of being able to quickly perform follow-up measures.

When the control signal of the control unit 200 is applied, the alarm device 500 generates an alarm signal so that an operator can audibly check an emergency situation such as a gas leak or a fire in the field.

The intelligent gas and fire detection system (sensing method) of the present invention having such a configuration is applied to a place where hydrogen is stored, a laboratory, a factory, a university, a laboratory, etc., or to a hydrogen fuel cell production facility, transportation storage facility, and storage facility. It can be applied, and it can be applied to other sites for hydrogen leakage and hydrogen fire and hydrocarbon fire detection.

When a gas leak occurs indoors at the site to which the above-described system is applied, the gas detection sensor 110 provided in the composite detector 100 detects the gas leak and outputs a signal to the control unit 200 side, and in the control unit 200 The gas leak condition is displayed on the display unit 150 side and an alarm signal is generated through the alarm device 500 .

In addition, when a gas leak occurs, the control unit 200 transmits the gas leak situation to the relevant government office (fire department, etc.) stored on the integrated management server 300 side through the wireless transmitter 400 or the mobile contact side of the person in charge to a remote location far from the site. It also makes it possible to recognize a gas leak situation.

In addition, when it is determined that the gas concentration in the room where the gas (hydrogen gas) leak occurs is higher than the reference value, the control unit 200 outputs a control signal for forcibly driving the fan of the ventilation device 600 .

Accordingly, the ventilation device 600 discharges the indoor air to the outdoors, thereby reducing the gas concentration in the room.

On the other hand, in the field to which the above-described system is applied, flame generation is detected through infrared rays, and the control unit 200 classifies hydrogen flames or hydrocarbon flames according to the infrared wavelength and frequency band, so as to be suitable for each fire situation, each different control signal will be output.

Accordingly, in the case of a first fire with a hydrogen flame, it is determined whether the fire can be extinguished and extinguished at the site, and the hydrogen supply valve (not shown) is closed by itself to block the hydrogen supply or to evacuate field workers, etc. way to extinguish a fire.

In addition, as it is judged that it is difficult to extinguish a fire by itself in the case of a secondary fire in which hydrocarbon flames occur, field personnel may be evacuated and the fire department may be contacted to extinguish the fire.

Even in the above case, the fire is notified to the person in charge or the contact registered in the integrated management server 300 with the wireless transmitter 400, so that the person in charge can quickly recognize the fire even in a remote location away from the site, so that the person in charge can quickly find appropriate You have the advantage of being able to take action.

Therefore, in the present invention, by applying the composite detector 100 in which the gas detection sensor 110 and the flame detection sensor 120 are integrally provided, the cost can be reduced compared to the case in which each of the existing individual detection sensors is provided, and the system In addition to having the advantage of simplifying the fire, it has a useful advantage in that it can detect hydrogen flames and hydrocarbon flames separately and take appropriate actions for each stage of the fire.

In addition, in the present invention, when the gas concentration detected by the complex sensor 100 is higher than the set value, a wireless control signal is output to the ventilation device 600 side to force the ventilation device 600 to be driven to lower the indoor gas concentration. By doing so, it has the advantage of being able to safely maintain a working environment indoors.

And the present invention determines the fire situation by stage based on the gas leakage information and the flame information, and transmits the gas leakage and fire stage information to the relevant government office or person in charge according to the manual program according to the determined stage fire situation, so that the installation site and In a remote location, a person in charge can quickly recognize the fact of a gas leak and fire, allowing quick action. .

In addition, the present invention is a fire detection app installed so as to be linked to the terminal of the manager registered in the integrated management server 300, to enable event inquiry and cycle-by-cycle management in the fire detection app side at regular intervals from the compound detector 100. By transmitting the numerical value, it has the advantage of improving the convenience of hydrogen gas safety management.

As such, although specific embodiments have been described in the detailed description of the present invention, various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention is not limited to the above-described embodiment, but should be defined by the claims and equivalents as well as the claims to be described later.

That is, the present invention described as described above is not limited to the specific preferred embodiments described above, and anyone with ordinary skill in the art to which the invention pertains without departing from the gist of the present invention as claimed in the claims Of course, various modifications are possible, and such modifications are within the scope of the claims.

100: compound detector 110: gas detection sensor
120: flame detection sensor 130: Bluetooth transmitter
150: display unit 200: control unit
300: integrated management server 400: wireless transmitter
500: alarm device 600: ventilation device

Claims (9)

A gas detection sensor 110 that detects a gas leak on one side and outputs the detected gas leak information to the control unit 200 is disposed on one side, and separates hydrogen flame and hydrocarbon flame on the other side, and detects the detected flame information by the control unit (200) a detection step (S1) of detecting gas leakage and flame information using the composite detector 100 in which the flame detection sensor 120 is disposed;
Based on the gas leak information and flame information authorized by the composite detector 100, the fire situation is determined by stage, and the gas leak and fire stage information is transmitted to the relevant government office or person in charge according to the manual program according to the determined stage fire situation. an information transmission step (S2);
a display step (S3) of displaying the leak concentration of the gas detected by the gas detection sensor 110 and displaying the state transmitted from the control unit 200 to the outside; and
An alarm step (S4) of alarming to the outside using the alarm device 600 when the gas leak, the primary fire in which the hydrogen flame is generated, and the secondary fire in which the hydrocarbon flame is generated;
In the information transmission step (S2), when the gas leak and flame information detected by the complex sensor 100 is applied to the control unit 200 side, the control unit ( 200) outputs gas leak and flame information wirelessly to the mobile of the relevant office or to the mobile of each person in charge,
The information transmission step (S2) is a fire detection app installed to be linked to the terminal of the manager registered in the integrated management server 300, and the compound detector 100 at regular intervals to the fire detection app to enable event inquiry and management by cycle. ) transmits the authorized value,
The information transmission step (S2) outputs the post-processing situation taken by the relevant government agency or the person in charge after recognizing the gas leak or fire situation to the integrated management server 300 side to the wireless terminal, and this is the integrated management server 300 Further comprising a post-processing transmission step of storing in
Post-processing information stored in the integrated management server 300 through the post-processing transmission step can be viewed through the fire detection app,
An intelligent gas and flame detection system, characterized in that it cuts off the supply of hydrogen in the case of a first fire with a hydrogen flame, evacuates field personnel in a second fire with a hydrocarbon flame, and extinguishes the fire. delete The method according to claim 1,
The flame detection sensor 120 detects a flame using infrared rays, and the control unit 200 selects a primary fire or a secondary fire according to the difference in the wavelength band of the infrared frequency detected by the flame detection sensor 120 . Intelligent gas and flame detection system, characterized in that The method according to claim 1,
When the gas concentration detected by the complex sensor 100 is higher than a set value, the control unit 200 outputs a wireless control signal to the ventilation device 600 to forcibly drive the ventilation device 600 to lower the indoor gas concentration. Intelligent gas and flame detection system, characterized in that the control. delete The method according to claim 1,
In the case of the fire detection app, when a plurality of the composite detectors 100 are disposed indoors, a unique identification number is written on each composite detector 100, and after distinguishing the composite detector 100 in which a specific value higher than the reference value is detected. Intelligent gas and flame detection system, characterized in that the image information on the location where the complex detector 100 is located is transmitted from the CCTV placed in the room and checked. delete The method according to claim 1,
The display step (S3) is an intelligent gas and flame detection system, characterized in that the gas concentration and detection state are displayed through the display unit 150 provided on the front surface of the composite detector 100 . The method according to claim 1,
The alarm step (S4) is intelligent gas and flame detection, characterized in that the gas leak, the primary fire in which the hydrogen flame is generated, and the secondary fire in which the hydrocarbon flame is generated are classified according to the type and alerted to the outside system.

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