RU2777012C1 - Method for combating fire danger and an addressable module for the implementation of the method - Google Patents

Abstract

FIELD: fire protection.

SUBSTANCE: group of inventions relates to the means of multifactorial self-adjusting monitoring of the fire hazard of protected objects: premises, structures, autonomous inhabited enclosed environments, and in the event of a fire provides automatic extinguishing. The method for combating fire danger is characterized by the following steps: performing the addressable module to implement the method, which is based on the work with the controller (IPA) of the addressable module; performing three adjacent pipelines in the protected object, while the first two adjacent pipelines are connected through electrically driven air valves to the entrance of the IPA, having previously performed in each of them the same number of intake air holes; performing in the third pipeline a number of outlet openings for fire extinguishing agent (FEA), installing on each outlet opening an electrically driven tap with the nozzle of the FEA spray on each of them, the taps are electrically connected to the controller of the addressable module made in its composition; three pipelines are laid according to the specified three-dimensional coordinates, followed by fixing the values of the coordinates of the holes (intake air and exhaust) in the controller's memory; the third pipeline is retrofitted at the outlet of it with a sequentially installed FEA presence detector, an electric tap, an extractor, while the FEA presence detector and an electric tap are connected electrically to the addressable module controller, the pipeline inlet is connected hydraulically to the FEA source by means of sequentially installed: a pressure pump, an electric tap, electrically connected to the addressable module controller; all electric taps are closed in the initial state, both those located at the inlet of the third pipeline and those installed at the outlet openings; the following equipment is included in the address module intended for the implementation of the method: IPAs, two electrically driven air taps connected simultaneously to the input of the IPA and controlled by it, an addressable module controller connected to the IPA, which is made by means of a digital interface with the possibility of connecting it to an object fire control device and connected to a relay module, which is performed with “dry” contacts with the possibility of connecting them in the address system of the fire extinguishing installation, and the IPA, the addressable module controller, the digital interface and the relay module are powered from a common power supply.

EFFECT: expansion of the range of means to extinguish fires.

2 cl, 1 dwg

Description

The fire hazard control method and the addressable module for implementing the method relate to methods and devices for multi-factor self-adjusting monitoring of the fire hazard of protected objects (premises, structures, autonomous habitable closed environments), and in case of a fire, it provides automatic extinguishing.

Known detector fire aspiration IPA CJSC "PO" Spetsavtomatika", Biysk, Altai Territory.

Known patents RU 2344859, 2639050, considered as analogues, the use of which allows you to protect against fires, create different options for protecting people and property from fire danger.

The operation of known devices is based on:

- transportation using air pipes with intake holes from the protected object of the gas-air mixture to the sealed housing of the aspirating fire detector (APD), consisting of: a discharge section, an injection section, coarse and fine filters, a measurement chamber, a block of external electrical connections, an exhaust part;

- measurement of the factors of the controlled process, namely: changes in the temperature of the controlled medium, and changes in the optical density of the gas-air medium, and changes in the concentrations of hazardous gases, and changes in the speed of the gas-air flow;

- response to dangerous changes in the factors of the controlled process with the formation of notices and ranking according to the degree of fire danger.

The disadvantage of the known method, carried out by one IPA, is the inability to simultaneously determine the appearance of a fire and the coordinates of the place of its occurrence.

The lack of information about the coordinates of the place of fire, especially when protecting large objects, complicates the operational work of extinguishing, does not allow you to quickly, economically and with a low consumption of fire extinguishing agent OTV to automatically supply the substance to the place of ignition.

A fire detection method and an intelligent control station for implementing the method are known, as described in the patent RU 2344859, which is taken as a prototype.

The well-known prototype describes a method for detecting a fire, determining the moment of a fire in a protected object, assessing the degree of fire danger; indicates the possibility of choosing the type, mass of the fire extinguishing agent and directing it to the protected object.

However, in the prototype there is no way to determine the exact location (coordinates) of the emerging fire in the protected object. The lack of information about the coordinates of the emerging fire does not allow to effectively (quickly, cost-effectively and with minimal damage) to fight the fire.

The objective of the invention is to provide effective multi-factor control of the protected object for fire hazard, determine the coordinates of the place of fire, inform about the coordinates of the place and more accurate (address) direction of fire extinguishers to the source of fire at an early stage of its development.

The technical result should be to develop a more efficient method of combating fire hazard and to develop a device with extended functionality for implementing the method compared to the intelligent station of the prototype.

The method of combating fire danger is characterized by the following steps:

- perform an address module to implement the method, the operation of which is based on the operation of an aspiration fire detector (FPA) with an address module controller;

- three adjacent pipelines are performed in the protected object, while the first two are adjacent pipelines, which are connected through electric air valves to the IPA inlet, having previously made the same row of intake air holes in each of them;

- a number of outlets for a fire-extinguishing agent (OTS) is made in the third pipeline, installed on the outlets by an electrically driven valve with an OTV spray nozzle on each of them, the taps are electrically connected to the controller of the address module made in its composition;

- perform the laying of three pipelines according to the given three-dimensional coordinates, followed by fixing in the memory of the controller the values of the coordinates of the holes (intake air and outlet with spray nozzles);

- the third pipeline is retrofitted at its outlet with a sequentially installed OTS presence indicator, an electric drive valve, an exhauster, while the OTV presence indicator and an electric drive valve are electrically connected to the controller of the addressable module, the pipeline inlet is connected hydraulically to the source of OTV by means of the following installed in series: a pressure pump, an electric drive valve , electrically connected to the address module controller;

- close in the initial state all electric valves, both located at the inlet to the third pipeline, and those installed on the outlet openings with spray nozzles;

- include the following equipment in the addressable module intended for the implementation of the method: IFA, connected simultaneously to the input of the IFA, two electrically driven air cranes controlled by it, the controller of the addressable module connected to the IFA, which, through a digital interface, is configured to connect it to the on-site fire control device and connected to the relay module, which is made with "dry" contacts, with the possibility of connecting them in the address system of the fire extinguishing installation, moreover, the IPA, the controller of the address module, the digital interface and the relay module are powered from a common power supply;

- pre-configure by adjusting the speed of rotation of the IPA aspirator fan in each of the first two pipelines its own speed of transporting the gas-air medium;

- during the adjustment of the address module, the speed of transportation of the starting sample of the gas-air mixture (Vstart) is measured, which is determined by the program controller of the address module as a function of the time of delivery of the sample of the gas-air mixture with a fire hazardous level of fire factors from the intake air hole to the IPA, causing the first activation of the detector, in the first pipeline in the presence of a closed state of the electric valve in the second pipeline, and the speed is measured by the operation of the IPA, taking into account the supply of samples in turn through all intake air holes, fixing each value of the speed in the memory of the controller of the address module;

- during the adjustment of the address module, the speed of transportation of the control sample of the gas-air mixture (Vcounter) is measured, which is determined by the program controller of the address module as a function of the time of delivery of the sample of the gas-air mixture with a fire hazardous level of fire factors from the air intake to the IPA, causing the detector to be triggered again in the second pipeline when the presence of the closed state of the electric air valve in the first pipeline, and the speed is measured by the operation of the IPA, taking into account the supply of samples in turn through all the intake air holes, fixing each value of the speed in the memory of the address module;

- when the addressable module is placed in the standby mode, the electric air valve of the first pipeline is opened, the electric air valve of the second pipeline is closed;

- during the standby mode of operation of the IFA, the occurrence of a fire is fixed, as a result of the entry into the detector of the starting sample of the gas-air mixture with fire hazard factors exceeding the fire hazard level of the normal state of the controlled process, when the IFA is triggered, the signal "Fire 1" is generated;

- close the electric valve of the first pipeline by the signal "Fire 1", at the same time open the electric valve of the second pipeline and start the timer of the addressable module controller, simultaneously transmitting the signal "Fire 1" via the digital interface to the on-site fire control device and to the relay module with "dry" contacts;

- stop the timer operation during the receipt of a control sample of the air mixture with fire hazard factors exceeding the fire hazard level of the normal state of the controlled process, which led to the repeated operation of the IFA, forming the signal "Fire 2";

- stop the timer when the "Fire 2" signal is generated, simultaneously transmit the "Fire 2" signal via a digital interface to the on-site fire control device and to the relay module with "dry" contacts;

- determine by means of a timer the time interval between the signals "Fire 1" and "Fire 2";

- calculate by means of the software of the module controller the address distance from the IPA to the intake air hole closest to the place of ignition, determine the coordinates of the fire using the formula:

L(m)=Vcont (m/s)*t(s),

where L(m) is the distance from the IPA to the intake air hole closest to the place of ignition,

Vcontrol (m/s) - the speed value closest to the value of the gas-air mixture control sample transportation speed, measured at the setting stage and recorded in the controller's memory;

t(c) - time interval between the signals "Fire 1" and "Fire 2";

- close by means of IPA the first and second electric air valves;

- open by means of the controller of the addressable module one electric drive valve of the outlet with a spray nozzle, located closest to the place of the detected fire;

- put into operation the injection pump by means of the address module;

- at the same time, by means of the controller of the addressable module, according to the defined program tactics of extinguishing, the valve for controlling the supply of OFA and the valve for controlling the exhauster are opened, and the valve for controlling the exhauster remains open until the signaling device for the presence of OTV works, signaling the appearance of OFA at the inlet to the exhauster ;

- extinguishing is carried out through an electrically driven valve with an OTV spray nozzle, which is closest to the site of the detected fire, directing the OTV from the OTV source using an electric OTV control valve and a pressure pump into the third pipeline, while the duration of extinguishing is determined programmatically by means of an address module controller, in depending on the degree of fire danger, determined by means of IPA.

In the best embodiment of the invention, in the process of pre-configuring the addressable module, as well as for testing, monitoring and testing for the operation of the IPA, it is necessary to use a remotely controlled dispenser ("electronic cigarette") - a device for short-term supply of test aerosol).

The addressable module for the implementation of the fire hazard control method, which basically contains an aspiration fire detector (FFA), is characterized by the connection to the aspiration inlet of the FFA of two simultaneously executed electric air valves controlled by the FFA, which are configured to regulate air flows in the simultaneously connected to the valves and pipelines located close to each other with a number of intake air holes made in each of them, and connecting the IPA to the controller, made in the address module together with a timer and software for determining the coordinates of the fire, and with the ability to: control in the third pipeline and electric taps with OTS spray nozzles installed on the outlets, regulation by an electric drive valve for the supply of OTS at the pipeline inlet by an electric drive valve for controlling the exhauster, by connecting the controller electrically: to electric drive valves with spray nozzles and OTV, to the electric drive valve for regulating the supply of OTV, to the electric drive valve for controlling the exhauster, to the signaling device for the presence of OTV and through a digital interface to the relay module, which is configured to transmit information through "dry" contacts to the address system of the fire extinguishing installation, while using a digital interface it is possible to transmit information to the on-site fire control device, and a standard power supply is made, from which the following are powered: IPA, controller, digital interface, relay module.

To work with the addressable module, each hole with a spray nozzle of the third pipeline is equipped with an electric drive valve, which has OTV spray nozzles at the outlet of the valve, which allows spraying OTV during extinguishing with a controlled supply of OTV through it under pressure to the site of the detected fire.

By means of the first and second pipelines, which are closely spaced from each other, having intake air holes, which are made in the pipelines in close proximity to each other, the addressable module provides for the determination and fixation of the three-dimensional coordinates of the holes in the memory of the controller of the addressable module, both intake air holes, and and graduation.

In addition to the controller, the addressable module includes an IPA, at the inlet of which two electric drive valves controlled by it are installed, and the first pipeline is connected to the first electric drive valve, and the second pipeline is connected to the second electric valve.

The address module includes a digital interface that interconnects a controller, a relay module (part of the address module) or an on-site fire control device made outside the address module, while providing power to the address module from the power supply unit made in the address module itself.

At the outlet of the source of OTV, a pressure pump is installed, an electric drive valve for regulating the supply of OTV, controlled by the controller of the address module.

In order to accelerate the filling of the third FFA pipeline, at the initial moment of extinguishing, an intensive release of the gas-air mass from the pipeline is carried out by means of an exhauster, which is connected at the end of the pipeline through an electrically conductive exhauster control valve, while between the exhauster and the control valve a signaling device for the presence of FFA is installed, which is designed to signal complete displacement from the exhauster. gas-air mixture pipeline. The control valve for the exhauster and the signaling device for the presence of the FTV is connected to the controller of the addressable module, which responds to the signals of the signaling device and controls the control valve depending on the presence of the FTV at the end of the pipeline. In the initial state, the control valve is closed.

The following can be used as an OT:

- water;

- water with a wetting agent;

- solution with a foaming agent.

To implement the method, a preliminary configuration of the address module is carried out:

- adjust by adjusting the speed of rotation of the IPA aspirator fan in each air pipeline its own speed of transporting the gas-air medium;

- during the adjustment of the address module, the speed of transportation of the initial sample of the gas-air mixture (Vstart) is measured, which is determined by the program controller of the address module as a function of the time of delivery of the sample of the gas-air mixture with a fire hazardous level of fire factors from the intake air hole to the IPA, causing the first activation of the detector in the first pipeline at the presence of a closed state of the electric valve in the second pipeline, and the speed is measured by the operation of the IPA, taking into account the supply of samples alternately through all intake air holes, fixing each value of the speed in the memory of the controller of the address module;

- during the adjustment of the address module, the speed of transportation of the control sample of the gas-air mixture (Vcounter) is measured, which is determined by the program controller of the address module as a function of the time of delivery of the sample of the gas-air mixture with a fire hazardous level of fire factors from the intake air hole to the IPA, causing repeated activation of the detector in the second pipeline when the presence of the closed state of the electric air valve in the first pipeline, and the speed is measured by the operation of the IPA, taking into account the supply of samples in turn through all intake air openings, fixing each value of the speed in the memory of the address module.

After pre-configuring the address module, it is put into standby mode and the process in the protected object is controlled as follows:

- when the addressable module is put into standby mode, the electric air valve of the first pipeline is opened, the second electric air valve of the second pipeline is closed;

- during the standby mode of operation of the IFA, the occurrence of a fire is fixed, as a result of the entry of a starting sample of a gas-air mixture with fire hazard factors exceeding the fire hazard level of the normal state of the controlled process through the first pipeline into the IFA, by triggering the IFA, a “Fire 1” signal is generated;

- close the electric valve of the first pipeline by the signal "Fire 1", at the same time open the electric valve of the second pipeline and start the timer of the addressable module controller, simultaneously transmitting the signal "Fire 1" via the digital interface to the on-site fire control device and to the relay module with "dry" contacts, broadcasting to the address system of the fire extinguishing installation;

- the timer operation is stopped when the control samples of the air mixture with fire hazard factors exceeding the fire hazard level of the normal state of the controlled process, which led to the repeated operation of the IPA, form the “Fire 2” signal through the second pipeline into the IPA;

- stop the timer operation when the "Fire 2" signal is generated, simultaneously transmit the "Fire 2" signal via a digital interface to the object fire control device and to the relay module with "dry" contacts, broadcasting to the address system of the fire extinguishing installation;

- determine by means of a timer the time interval between the signals "Fire 1" and "Fire 2";

- calculate by means of the software of the module controller the address distance from the IPA to the intake air hole closest to the place of ignition, determine the coordinates of the fire using the formula:

L(m)=Vcounter (M/c)*t(c),

where L(m) is the distance from the IPA to the intake air hole closest to the place of ignition,

Vcontrol (m/s) - the speed value closest to the value of the gas-air mixture control sample transportation speed, measured at the setting stage and recorded in the controller's memory;

t(c) - time interval between the signals "Fire 1" and "Fire 2".

After determining the coordinates of the fire site:

- close by means of IPA electric air valves on the first and second pipelines;

- keep closed by means of the controller of the addressable module all electric valves of the row of openings of the third pipeline, made with OTV spray nozzles, except for one electric valve of this row, located closest to the place of the detected fire;

- put into operation the injection pump by means of the controller of the address module;

- open at the same time by means of the controller of the addressable valve the electrically driven control valve for the supply of OTS and the valve, the electric valve for controlling the exhauster, and the valve for controlling the exhauster remains open until the signaling device for the presence of OTV works, signaling the appearance of OTV at the inlet to the exhauster;

- extinguishing is carried out through an electrically driven valve with an OTV spray nozzle, which is located closest to the place of the detected fire, directing the OTV from the source with OTV to the third pipeline with the help of an electric valve for regulating the OTV, while the duration of extinguishing is determined programmatically by means of the controller of the address module.

The address module for implementing the claimed method is explained in more detail using the combined address module diagram shown in FIG. one.

Fig. 1 is a diagram of a combined address module for implementing a fire hazard control method, determining the extinguishing coordinates.

Addressable module 1 consists of IPA 2 with aspiration inlet 3, the first electric air cock 4, the second electric air cock 5, which are simultaneously connected to the detector input and controlled by it, while the first pipeline 6 with a number of air intake holes 7 is connected to the first electric air cock air valve, the second pipeline 8 with a number of intake air holes 9 is connected to the second electric air valve, and each intake air hole of the row of holes of the first pipeline is located opposite the corresponding intake air hole of the row of holes of the second pipeline, the coordinates of the hole are recorded in the memory of the controller 10 of the address module, IPA connected to the controller, which through the digital interface 11 is connected to the relay module 12, made with "dry" relay contacts; the power supply of the IPA, the controller, the digital interface, the relay module is carried out by means of the power supply unit 13, additionally the digital interface is connected to the on-site fire control device 14, the relay module through the "dry" relay contacts has the ability to broadcast information data to the address system of the fire extinguishing installation 15, in addition, the controller addressable module is electrically connected: with electric valves 16, made with OTV spray nozzles 17, which are installed on the outlets of the third pipeline 18, which supplies OTV during extinguishing, with an electric valve for regulating the supply of OTV 19, with an electric valve for controlling the exhauster 20, with a signaling device the presence of OTS 21 installed in front of the exhauster 22, and is configured to: control valves with OTS spray nozzles in the third pipeline, regulate the supply of OTS by means of a valve 19 and a pump 23 connected to the capacity of the source of OTS 24.

The address module 1 works as follows.

Preliminarily set up in turn in each pipeline 6, 8 its speed of transporting the gas-air mixture by adjusting the speed of the IPA fan 2 and by first opening the first electric air valve 4 in the presence of a closed second electric air valve 5 and then through the open second electric air valve in the presence of a closed first electric air valve air faucet. Thus, alternately adjust first in the first pipeline 6, and then in the second pipeline 8, respectively: the speed of transportation from each sampling hole for the starting sample of the gas-air mixture (V start) in the first pipeline, for the control sample of the gas-air mixture (Vcounter) in the second pipeline, and when setting up, a technological device (remotely controlled dispenser) is used for short-term supply of a test aerosol that is not included in the address module 1. The speed values Vstart and Vcounter are entered into the memory of the controller 10 of the address module. To put the addressable module into standby mode, the first electric air valve must be opened, the second electric air valve must be closed, the valves 16 of the third pipeline must be closed. During the standby mode of operation, continuous aspiration is performed through the first pipeline until a sample of the gas-air mixture arrives, causing the IPA to actuate, which, when triggered, generates the “Fire 1” signal. At the “Fire 1” signal, the timer of the controller of the addressable module is started, then the first electrically driven air valve is closed by means of the IPA and the second electrically driven air conductive air valve is opened, while the “Fire 1” signal is transmitted through the digital interface 11 to the on-site fire control device 14 and into the relay module 12 and further - into the addressable system of the fire extinguishing installation 15. After opening the second electric air valve, aspiration is performed through the second pipeline, while the speed of transporting the gas-air mixture corresponds to the speed Vcounter. Upon receipt of a mixture that causes repeated operation of the IFA, a "Fire 2" signal is generated, the timer is stopped and at the same time the "Fire 2" signal is transmitted to the on-site fire control device and to the relay module, and then to the fire extinguishing system.

The controller of the addressable module, according to the timer readings, determines the time interval t(c) between the signals "Fire 1" and "Fire 2", determines the speed of transportation of the control sample of the gas-air mixture (Vcount), which is selected by the controller as the closest to the value of the transportation speed of the control sample, measured on at the setup stage and stored in the controller’s memory, and using the software, using the formula L(m)=Vcount(m/s)*t(s), calculate the distance from the IPA to the intake air hole closest to the place of ignition, determine the coordinates of the fire ,

where L(m) is the distance from the IPA to the intake air hole closest to the fire site, the coordinates of which are programmatically determined by the controller of the addressable module, then these coordinates data are transmitted via a digital interface to the on-site fire control device and to the addressable system of the fire extinguishing installation;

t(c) - time interval between the signals "Fire 1" and "Fire 2".

The extinguishing process is carried out as follows: before the start of extinguishing, the first and second electric air valves 4, 5 are closed by means of the IPA, the electric valve 16, located closest to the fire site, is opened by means of the controller 10 of the address module 1, the remaining valves of this series are kept closed.

The valve 19 is simultaneously opened by means of the controller of the addressable module for the accelerated release of the gas-air mixture from the third pipeline by means of the exhauster 22. When the OTV arrives at the exhauster control valve, the signaling device for the presence of the OTV 21 is activated and the exhauster control valve is closed by means of the address module controller.

OTV through the open tap 16, spraying, extinguishes the detected source of fire, at the same time, through the digital interface 11, they broadcast notifications about the state of fire extinguishing equipment to the object fire control device 14 and through the relay module 12 to the address control system of the fire extinguishing installation 15.

Before starting, the first and second electrically conductive air valves 4, 5 are closed by means of the IPA; by means of the controller 10 of the address module 1, the electrically conductive tap 16 is opened, which is closest to the fire site, the remaining taps of this row are kept closed.

The valve 19 is simultaneously opened by means of the addressable module controller to regulate the supply of OTV and the valve 20 for accelerated release of the gas-air mixture from the third pipeline by means of the exhauster 22. When the OTV arrives at the exhauster control valve, the signaling device for the presence of OTV 21 is activated and the exhauster control valve is closed by means of the address module controller.

OTV through the open tap 16, spraying, extinguishes the detected source of fire, at the same time through the digital interface 11 of notification of the state of fire extinguishing equipment to the object fire control device 14 and through the relay module 12 to the address control system of the fire extinguishing installation 15.

Claims (28)

1. A method of combating a fire hazard, characterized by the following steps: - perform an address module to implement the method, the operation of which is based on the operation of an aspiration fire detector (FPA) with an address module controller; - three adjacent pipelines are performed in the protected object, while the first two adjacent pipelines are connected through electric air valves to the IPA inlet, having previously made the same row of air intake holes in each of them; - a number of outlets for a fire-extinguishing agent (OTS) is made in the third pipeline, installed on the outlets by an electrically driven valve with an OTV spray nozzle on each of them, the taps are electrically connected to the controller of the address module made in its composition; - perform the laying of three pipelines according to the given three-dimensional coordinates, followed by fixing in the memory of the controller the values of the coordinates of the holes: air intake and outlet with spray nozzles; - equipping the third pipeline at its outlet with sequentially installed OTS presence detector, electric valve, exhauster, while the OTV presence indicator and electric valve are electrically connected to the controller of the addressable module, the pipeline inlet is connected hydraulically to the source of OTV installed in series: a pressure pump and an electric valve, electrically connected to the address module controller; - close in the initial state all electric valves, both located at the inlet to the third pipeline, and those installed on the outlet openings with spray nozzles; - include the following equipment in the addressable module intended for the implementation of the method: IFA, connected simultaneously to the inlet of the IFA, two electrically driven air cranes controlled by it, the controller of the addressable module connected to the IFA, which, through a digital interface, is configured to connect it to the on-site fire control device and connected to the relay module, which is made with "dry" contacts, with the possibility of connecting them in the address system of the fire extinguishing installation, moreover, the IPA, the controller of the address module, the digital interface and the relay module are powered from a common power supply; - pre-set by adjusting the speed of rotation of the IPA aspirator fan in each of the first two pipelines to its own speed of transporting the gas-air medium; - during the adjustment of the address module, the speed of transportation of the initial sample of the gas-air mixture Vstart is measured, which is determined by the program controller of the address module as a function of the time of delivery of the sample of the gas-air mixture with a fire hazardous level of fire factors from the air intake to the IPA, causing the first activation of the detector, in the first pipeline, if the closed state of the electric valve in the second pipeline, and the speed is measured by the operation of the IPA, taking into account the feeds and samples in turn through all intake air openings, fixing each speed value in the memory of the controller of the address module; - during the adjustment of the address module, the speed of transportation of the control sample of the gas-air mixture Vcounter is measured, which is programmatically determined by the controller of the address module as a function of the time of delivery of the sample of the gas-air mixture with a fire hazardous level of fire factors from the intake air hole to the IPA, causing the detector to be triggered again, in the second pipeline, if the closed state of the electrically driven air valve in the first pipeline, and the speed is measured by the operation of the IPA, taking into account the supply of samples in turn through all intake air openings, fixing each value of the speed in the memory of the address module; - when the addressable module is placed in the standby mode, the electric air valve of the first pipeline is opened, the electric air valve of the second pipeline is closed; - during the standby mode of operation of the IFA, the occurrence of a fire is fixed, as a result of the entry into the detector of the starting sample of the gas-air mixture with fire hazard factors exceeding the fire hazard level of the normal state of the controlled process, when the IFA is triggered, the signal "Fire 1" is generated; - close the electric valve of the first pipeline by the signal "Fire 1", at the same time open the electric valve of the second pipeline and start the timer of the addressable module controller, simultaneously transmitting the signal "Fire 1" via the digital interface to the on-site fire control device and to the relay module with "dry" contacts; - stop the timer when a control sample of an air mixture with fire hazard factors exceeding the fire hazard level of the normal state of the controlled process enters the IFA, which led to the repeated operation of the IFA, generating the signal "Fire 2"; - stop the timer when the "Fire 2" signal is generated, simultaneously transmit the "Fire 2" signal via a digital interface to the on-site fire control device and to the relay module with "dry" contacts; - determine by means of a timer the time interval between the signals "Fire 1" and "Fire 2"; - calculate by means of the software of the module controller the address distance from the IPA to the intake air hole closest to the place of ignition, determine the coordinates of the fire using the formula: L=Vcount*t, where L(m) is the distance from the IPA to the intake air hole closest to the place of ignition, Vcont (m/s) - the speed value closest to the value of the transportation speed of the control sample of the gas-air mixture, measured at the setup stage and recorded in the controller's memory; t(c) - time interval between the signals "Fire 1" and "Fire 2"; - close by means of IPA the first and second electric air valves; - open by means of the controller of the addressable module one electric drive valve of the outlet with a spray nozzle, located closest to the place of the detected fire; - put into operation the injection pump by means of the address module; - at the same time, by means of the controller of the addressable module, according to the defined program tactics of extinguishing, the valve for controlling the supply of OFA and the valve for controlling the exhauster are opened, and the valve for controlling the exhauster remains open until the signaling device for the presence of OTV works, signaling the appearance of OFA at the inlet to the exhauster ; - extinguishing is carried out through an electrically driven valve with an OTV spray nozzle, which is closest to the site of the detected fire, directing the OTV from the OTV source using an electric OTV control valve and a pressure pump into the third pipeline, while the duration of extinguishing is determined programmatically by means of the controller of the address module depending on on the degree of fire danger, determined by means of IPA. 2. The addressable module for implementing the fire hazard control method according to claim 1, which basically contains an IFA, characterized by the connection to the IFA inlet of two simultaneously made electric air valves controlled by the IFA, which are configured to regulate air flows in the simultaneously connected to the valves and two pipelines closely spaced to each other with a number of intake air holes made in each of them, and connecting the IPA to the controller, made in the address module together with a timer and software for determining the coordinates of the fire, and with the ability to: taps with OTS spray nozzles installed at the outlets, regulation of the OTS supply at the pipeline inlet with an electrically conductive valve, control of the exhauster by connecting the controller electrically to: to the electric drive control valve for the exhauster, to the signaling device for the presence of fire extinguishers and through a digital interface to the relay module, which is configured to transmit information to the address system of the fire extinguishing installation by means of "dry" contacts, while the digital interface provides the ability to transmit information to the on-site fire control device, moreover, a regular power supply is made, from which the following are powered: IPA, controller, digital interface, relay module.

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