RU2604300C2 - Method for adaptive fire hazard monitoring and adaptive suppression, system therefor - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: method for adaptive fire hazard monitoring and adaptive suppression, system for its implementation are intended for multiple-factor control of medium of protected object for early fire detection and localisation thereof in optimal modes of consumption of fire extinguishing agent. Adaptive control and adaptive extinguishing is provided by information executing grouping of autonomous signal-launching devices with input/output address channels, combined by means of system interface. Grouping can independently generate around fire source a group signal-launching devices with higher sensitivity to fire factors and extinguishing by means of controlled actuators (sprinklers, powder modules etc).

EFFECT: technical result is characterised by low consumption of fire-extinguishing substance, short process of extinguishing, minimisation of harmful effects of fire.

2 cl, 2 dwg

Description

The invention relates to the field of fire fighting equipment, and in particular to a method for adaptively controlling a fire hazard and, in case of fire, subsequent adaptive extinguishing of a fire source, as well as to an automatic system capable of adaptively controlling an object’s environment for fire danger in the early stages of a fire and adaptively extinguishing in in accordance with the proposed method.

Currently, automatic fire extinguishing installations using groups of sprinklers with forced start are known, which allows to increase the efficiency of their use when blocking the spread of fire.

A device for water fire extinguishing with a controlled irrigation area RU 2414966 is known, in the distribution pipeline network of which sprinkler sprinklers with controlled start-up and a corresponding network of smoke detectors are used, the signals from which are sent to an addressable control device. The control device, having received signals from the triggered detectors, determines the address of the corresponding zone, sends the appropriate commands according to a predefined program to force the start of the group of controlled sprinklers, forming an irrigation zone that obviously exceeds the area of the fire source, thus blocking the spread of the fire source.

This device is characterized by insufficient reliability for fire detection, due to the threshold principle of fire hazard detection by one (smoke) fire factor, and there is also a significant drawback characterized by excessive consumption of extinguishing agent, which irrigates an area exceeding the area of the fire source.

Another water extinguishing device RU 95528 is known, comprising sprinkler sprinklers with a controlled start and an addressable control device in the pipeline distribution network, each sprinkler is equipped with a state and start control module, which is connected to the addressable device.

In this device, the opening of the first sprinkler is carried out in the normal mode (as a result of the influence of the heat of the fire on the thermal bulb of the sprinkler). Further, according to a predetermined program, according to the instructions of the addressable control device, a controlled start of a group of sprinklers located near the activated sprinkler is carried out.

Moreover, as in the previous case, for guaranteed success in localizing and extinguishing the source of fire, the irrigated area should be larger than the area of ignition.

This device is also characterized by insufficient reliability for fire detection, due to the threshold principle of fire hazard detection by one (thermal) fire factor.

More sensitive and informative in detecting fire hazard and low inertia can serve as an autonomous signal-starting fire extinguishing device RU 150429.

This device provides early fire detection using at least two different types of fire sensors and a multi-factor monitoring and control unit. In addition, the device has its own controlled sprinkler sprinkler, the operation of which is carried out from the start-up unit by means of a pyrotechnic drive. The device is powered from its own autonomous source.

However, this device, designed for independent automatic action to detect and extinguish a fire, is poorly adapted for coordinated and efficient operation as part of a group of similar devices designed for reliable fire localization.

The technical problem to which the proposed method and system is aimed is the early detection of a fire hazard and the optimization of the extinguishing agent flow rate during localization and extinguishing of a fire source and the exclusion of irrigation of excess areas of the protected object.

The problem can be solved using the method of adaptive fire hazard control and adaptive fire extinguishing, carried out by continuous monitoring of the protected object for fire hazard by means of self-contained alarm and fire-extinguishing devices that independently measure informative environmental parameters, process the received information, generate a control command for pyrotechnic drive of its executive body, according to the invention, autonomous signal starting devices are combined using a common interface into a single information-executive grouping, and each grouping device is capable of generating successive fire hazard signals (the “Normal” signal indicates normal operation of the signal-starting device and the absence of a fire hazard, the “Warning” signal about the response of the signal-starting device to the appearance of a lower level of fire alarm, the “Fire” signal informs of a fire) and the “Start” command as the fire level increases danger, the device that detected the fire first, generates a warning signal about the occurrence of a fire alarm, “Attention”, transmits the signal to neighboring devices of the group according to a predetermined program, providing a certain algorithm of operations installed in the processor memory of the multi-factor monitoring and control unit that receive the “Warning” signal »As an additional fire hazard factor has appeared, having received a signal, they process the information received in the multifunctional measurements, correlation node increase the sensitivity to other factors by forming corrective signals to change the specified information parameters recorded in the matrices of the node, form around the device that first found a sign of the onset of fire, the spatial configuration of the fire alarm and fire extinguishing devices, which are in a higher degree of extinguishing, with the further development of fire hazard of one of the devices included in the configuration, automatically generate the next fire hazard signal, in the case ae, if it is another “Warning” signal, it will be broadcast further, which will lead to an expansion of the configuration of devices with increased readiness to extinguish; if it is a “Fire” signal, then the “Start” command will follow to the appropriate controlled executive body and the fire center will begin to extinguish; with a further increase in the intensity of the fire and / or a change in the direction of its spread, according to a given program, the number of actuators that have worked out of the number of devices with increased readiness is increased and new devices with increased readiness for extinguishing appear.

Thus, the work of the grouping of devices is adapted to the changing environmental influences (to the intensity of combustion, the direction of propagation of the fire of the protected object).

Multivariate control, taking into account the warning signal "Attention" at the neighboring device, allows you to detect a fire at an earlier stage of its occurrence than would have happened in the prototype. The presence of a device already raised to a higher degree of readiness near the intended source of fire provides faster, adaptive putting out the following devices to extinguish for accelerated localization and extinguishing of the source of fire, while there is no need to irrigate excess areas, thus ensuring an optimal flow rate of extinguishing agent . The adaptive configuration of devices with their increased sensitivity to fire factors does not allow uncontrolled exit of the fire beyond the limits of the configuration, reduces the negative consequences of the fire and the consequences of fire fighting.

To implement this method, a water-based solution (water) can be used as a fire extinguishing agent, and a controlled sprinkler sprinkler as an executive organ; For extinguishing with extinguishing powder, a powder module can be used as an executive element. The method is feasible when inert gas or the like is used as the extinguishing agent.

To implement the method, the most acceptable adaptive fire hazard and adaptive fire extinguishing control system is proposed, consisting of a fire extinguishing agent feeder, a pipeline and distribution branch branches with autonomous signal-starting devices installed in the distribution section containing a controlled-start sprinkler sprinkler (based on a pyrotechnic drive) and the multifactor control and management unit, which has an autonomous power supply, has a processor with a start-up unit, having t sensors, has light and sound signaling devices, has controls, in accordance with the invention, each device is equipped with an address I / O channel for a signal warning of a fire hazard, while the channel is connected on one side to a common system interface, on the other hand, to node functional measurements, correlations with matrices of sets of given informative data and conditional transitions and to the node of control, management, programming of the processor, and the node of control, management, programming It is connected with the node of functional measurements, correlations with matrices of aggregates of given informative data and conditional transitions, including those containing information about the location coordinates of neighboring devices, the devices are combined via a system interface and a fire extinguishing installation piping network into a single information-executive grouping with the ability to work according to a given algorithm .

The operation of the adaptive fire hazard control system and adaptive fire fighting is illustrated by the general structural diagram of the system shown in FIG. 1, and is explained using the combined circuit of the multi-factor monitoring and control unit shown in FIG. 2.

The system consists of a fire extinguishing agent feeder 1, a pipeline 2 and distribution network branches 3 with autonomous signal-starting devices installed on them, consisting of a sprinkler sprinkler 4 with a controlled start and a multi-factor monitoring and control unit 5. Each unit has its own address input-output 6 connected to the common system interface 7, is equipped with an autonomous power supply 8, which provides power to the processor 9, with sensors 10, 11 connected to the analog-to-digital converters of the processor, with a light signaling device 12, an audio signaling device 13, control elements 14, 15 and a start-up unit 16, which is connected to an autonomous power source and a pyrotechnic drive 17, connected to the monitoring, control and programming unit of the processor.

The system operates as follows.

Blocks 5 of multifactor monitoring and control of autonomous signal-starting devices control the protected object for fire hazard in specified zones, being in a single information-executive grouping, by connecting them through distribution branches 3 of the pipeline system and system interface 7. When in the control zone or the device there is a steady trend of increasing fire hazard, the device unit 5 based on the analysis of the measured factors using sensors 10 and 11 (analogues according to how this happens in the prototype) compares them with the data recorded in the matrices, under certain conditions, registers a warning level of fire hazard, gives the corresponding signal “Attention”, which immediately transmits via input-output channel 6 via interface 7 according to a predetermined program neighboring devices that receive a signal through their I / O channels 6 and perceive it as a fire hazard growth factor, according to a given program, increase their sensitivity to other actors, forming around the device with a warning level of fire risk device configuration with a high degree of readiness to quenching.

When the fire hazard increases, a transition to the next fire hazard level can occur for the device at the warning level, in which case the device gives a “Fire” signal and the subsequent “Start” command, through which it sends an electric pulse to the pyrotechnic drive 17 through the start unit 16, destruction of the thermal bulb of the corresponding sprinkler and quenching will begin.

A second variant of the development of fire hazard is possible, in which there will be a transition to a warning fire hazard level for one or more devices with a high degree of preparedness for extinguishing, which will give their “Warning” signals and transmit them further, expanding the configuration of devices with a high degree of readiness.

A third variant of the development of a fire hazard is possible, in which events can develop simultaneously both in the first and in the second variant.

In any of the options considered, adaptive fire hazard control using multi-factor environmental control and adaptive fire extinguishing, which began at an early stage of detecting a fire source, will be observed, while the flow of the extinguishing agent will be optimally necessary, and irrigation of areas not exposed to fire will be prevented.

Thus, based on the foregoing, it can be argued that the proposed method and system for its implementation positively solves the problem of early detection of fire, localization and extinguishing it at optimal flow rates of the extinguishing agent, avoiding irrigation of excess area, taking into account the dynamics (direction and intensity) of the fire .

The proposed system acquires an additional positive feature due to a signal-starting device with its own independent power supply, which allows the system to operate independently in the absence of centralized control, ensuring high system reliability and faster processing of information compared to the above analogues, which helps to achieve the desired technical result, characterized by a decrease extinguishing agent consumption, extinguishing the process of extinguishing, minimizing harmful he effects of fire.

Claims (2)

1. A method of adaptive fire hazard control and adaptive fire extinguishing, carried out by continuous monitoring of a guarded object for fire hazard by means of self-contained signal-starting fire extinguishing devices that independently measure informative environmental parameters, process the received information, generate a control command for the pyrotechnic drive of its executive body characterized in that the autonomous signal-triggering devices are combined using a common interface into a single information-executive grouping, and each device of the grouping is capable of generating successive fire hazard signals (the “Norma” signal indicates normal operation of the signal-triggering device and the absence of a fire hazard, the “Warning” signal informs of the response of the signal-triggering device to the appearance of a lower level of fire alarm, the “Fire” signal informs of a fire) and the “Start” command as the level of fire danger increases, the device that first detected burning, generates a warning signal about the occurrence of a fire alarm, “Attention”, transmits the signal to neighboring grouping devices according to a specified program, providing a certain algorithm of operations installed in the processor memory of the multivariate monitoring and control unit that perceives the “Attention” signal as an additional fire hazard factor having received a signal, they process the information obtained in the node of multifunctional measurements, correlations and increase sensitivity to other path factors m forming corrective signals to change the specified information parameters recorded in the matrix of the node, form around the device, the first to detect a sign of the onset of fire, the spatial configuration of the alarm and fire-extinguishing devices that are in a high degree of readiness for extinguishing, with the further development of a fire hazard in one of the devices included in the configuration, automatically generate the next fire hazard signal, in the event that it is another signal “Attention”, then it will be broadcast further, which will lead to the expansion of the configuration of devices with increased readiness for extinguishing; if it is a “Fire” signal, then the “Start” command will follow to the appropriate controlled executive body and the fire center will begin to extinguish; with a further increase in the intensity of the fire and / or a change in the direction of its spread, according to a given program, the number of actuators that have worked out of the number of executive organs of devices with high readiness with the possibility of new devices with increased readiness for fighting is increased. 2. Adaptive fire hazard and adaptive fire extinguishing control system, consisting of a fire extinguishing agent feeder, a pipeline and distribution branch branches with autonomous signal-starting devices installed in the distribution part, containing a sprinkler sprinkler with a controlled start (based on a pyrotechnic drive) and a multifactor control unit and control, which has an autonomous power source, has a processor with a start-up unit, has sensors, has light and sound signaling devices, has about control units, characterized in that each device is equipped with an I / O address channel for a signal warning of a fire hazard, while the channel is connected on one side to a common system interface, and on the other hand, to a functional measurement node, correlations with matrices of sets of specified informative data and conditional transitions to the control, control, programming node of the processor, and the control, control, programming node is connected with the node of functional measurements, correlations with matrices of kupnostey given informative data and conditional branches, including those containing information on the location coordinates of neighboring devices, the devices are combined through system interface and installation fire fighting pipeline network into a single information group executive with the ability to operate on a given algorithm.

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