RU79432U1 - AUTOMATIC FIRE EXTINGUISHING SYSTEM - Google Patents

Abstract

The utility model relates to fire fighting equipment, in particular, to automatic alarm and fire extinguishing control devices in autonomous compartments of mobile vehicles by means of distributed fire extinguishing generators, aerosol and powder, locally switched on by a signal of heat-sensitive elements in a two-threshold mode.

An automatic fire extinguishing system includes alarm systems, two-threshold operation modules, each of which contains a standby unit, and a control unit for initiating fire-extinguishing generators distributed in a protected volume, while the control unit is switched with heat-sensitive elements of the threshold and threshold values of the temperature factor of the fire, and the heat-sensitive element the prethreshold value of the temperature factor of the fire is connected via the standby unit.

New is that each module is additionally equipped with a flame sensor, which in parallel with the temperature-sensitive element of the threshold value of the temperature factor of the fire is connected to the control unit via a programmable switch for fire extinguishing duplication channels through redundant fire extinguishing generators autonomously connected to its outputs, closed by feedback with the channel selector drive control unit, and more specifically: the outputs of the control unit are connected in parallel to the switch of its channel through adjustable time delay device, wherein the extinguishing aerosol generators are made and / or powder.

The proposed technical solution provided the expansion of technological capabilities of a more universal automatic fire extinguishing system, the design of which was simplified.

Description

The utility model relates to fire fighting equipment, in particular, to automatic alarm and fire extinguishing control devices in autonomous compartments of mobile vehicles by means of distributed fire extinguishing generators, aerosol and powder, locally switched on by a signal of heat-sensitive elements in a two-threshold mode.

The level of this technical field is characterized by an automatic fire alarm and fire extinguishing control system in mobile vehicles, described in patents RU 39832, А62С 37/00, G08В 25/00, 2004 and 2081640, А62С, 13/22, which contains distributed fire extinguishing devices (fire extinguishing generators) associated with the switching unit by signals from the control unit and collecting information from linear heat detectors (temperature sensors made in the form of thermal cables with an adjustable threshold), placed in protected compartments.

The device has a switchover switch for manually turning on means of initiating fire extinguishing generators and turning off the vehicle engine.

Fire extinguishing generators in an automatic fire extinguishing system use devices equipped with an electric igniter that initiates a pyrotechnic charge, during combustion of which an aerosol of combustion inhibitors is generated, or containing fire extinguishing powder sprayed by an aerator from a pyrotechnic gas generator driven by an electric igniter pulse (see, for example , patent RU 2244579, А62С 3/00, 35/00).

The described designs of an automatic fire extinguishing system have a general disadvantage of unsatisfactory functional reliability due to the lack of active control of the operation of loops and the identification of signals from heat detectors, which can cause failures or unauthorized operations from random noise electrical noise signals and interference.

The noted drawback is eliminated in the system of volumetric fire extinguishing RU 2114660, А62С 37/00, 1998, in which the control and control unit associated with temperature-sensitive sensors and a processor equipped with a display is connected via a switch to a reference signal source. The switch, in which the current signals from the temperature sensors distributed in the protected volume and the reference signals are compared, are connected to the electric igniters of the fire extinguishing generators.

In this system, the health of structural elements and the connections between them is monitored, and fire detector signals are identified

(thermosensitive sensors), after which they are switched with the corresponding fire extinguishing generators, which are preferably aerosol forming.

The sounding results of the reference signals are displayed on the processor’s display, and the start-up pulse of the generators in the corresponding channel from the processor is supplied through the switch in parallel to the signaling unit (sound, light) and, after the delay time necessary to remove personnel, to the drive to block the room’s openings.

However, for practical use, the described automatic fire extinguishing system in autonomous vehicle sections is too cumbersome and complex, while the specified speed of executive generators is not provided due to the increased inertia of the self-monitoring, identification and cocking system, which limits the use in mobile structured devices.

More perfect and reliable is an automatic fire extinguishing system based on modules of a two-threshold operating mode according to the patent RU 2283149, А62С 3/00, 37/00, 2006, which is selected by technical essence and the number of matching features as the closest analogue of the proposed system.

Each module of the known automatic fire extinguishing system contains a control unit associated with heat-sensitive elements, with an alarm unit and through electric igniters with fire extinguishing generators.

The module contains two start blocks that are associated with a pair of thermosensitive elements: pre-threshold and threshold values of the temperature factor of the fire, the first of which is connected to both start blocks through the standby unit.

A design feature of the module is that a thermosensitive element of the threshold value of the fire factor is connected in parallel to the first start-up block, and the output of the adjacent control unit is connected to the second start-up block.

Thus, a two-threshold mode of each module and their sequential functional interconnection for the operative transmission of a start pulse during the propagation of a fire in a protected volume are provided.

An automatic fire extinguishing system based on modules of a two-threshold operating mode makes it possible to efficiently dynamically extinguish fires taking into account their size, eliminating false alarms of the modules and the system as a whole, thereby significantly reducing material damage and increasing the operability of the protected mobile communications system.

Preparedness blocks associated with heat-sensitive elements of the threshold value of the temperature factor of the fire provide the system charging when the temperature in the protected volume rises to a level slightly lower than the maximum permissible working one, while the control signal to initiate electric igniters of the generators is not issued

a-priory.

The module is designed in such a way that the start signal is generated only if there are two pulses from heat-sensitive elements (pre-threshold and threshold temperature levels) at once, and this, in principle, eliminates the unauthorized activation of fire extinguishers and false warning signals.

The described system provides effective fire extinguishing both throughout the protected volume and local fire extinguishing in it. In this case, the extinguishing of the newly occurring fires is extinguished in case of a possible fire development.

Extinguishing occurs from the operation of only those modules that received two signals: the main module, located directly in the ignition zone, will work when receiving information from two own heat-sensitive elements (pre-threshold and threshold values of the temperature factor of the fire), and the adjacent modules surrounding the ignition source , - from the own heat-sensitive element of the prethreshold value of the temperature factor of the fire and from the control unit of the main module.

The execution of a module with a two-threshold operation mode and the functional connection of each module with adjacent modules in an automatic system allows you to extinguish small fires with only one module or the main module and adjacent modules, while all other modules will not be involved.

In addition, the launch of the module in the presence of two signals simultaneously from two heat-sensitive elements, providing two-level control of temperature increase, significantly reduces false alarms of the system.

A continuation of the advantages is the inherent disadvantage of the system, which is determined by its intended purpose - to extinguish a fire in a large volume, when its adjacent modules operate sequentially, which is not intended for local fire extinguishing in autonomous sections of the working volume.

Moreover, the well-known automatic fire extinguishing system, adapted for local fire fighting in autonomous compartments, is a cumbersome design, since separately functioning modules must be placed in each of them, connected with an alarm unit equipped with emergency compartment identification means.

The disadvantage of the prototype is the unsatisfactory reliability of fire extinguishing, which is carried out by the simultaneous use of the entire resource of fire extinguishing generators of the module, without duplication of the results of active monitoring of the established temperature regime after the action of the system, confirmation of suppression of foci of ignition.

The current control in the system is carried out indirectly by the launch of adjacent modules during the spread of fire in a protected volume, but is absent

final analysis of the results of the entire system.

This determines the need for physical commonality of the modules in the entire guarded object, i.e. it is fundamentally impossible for the functioning of the known system to ensure guaranteed independent fire extinguishing in autonomous compartments, and the absence of active control of the aftereffect of the extinguishing modules does not exclude the resumption of smoldering fires, for which there is no provision for backup fire extinguishing agents.

The problem to which the present invention is directed is to increase the functional reliability and expand the technological capabilities of designing a compact and simple automatic fire extinguishing system, independently in autonomous sections of a communication vehicle.

The required technical result is achieved by the fact that in the known automatic fire extinguishing system, including signaling means, modules of a two-threshold operation mode, each of which contains a ready unit, and a control unit for initiating fire-extinguishing generators distributed in a protected volume, while the control unit is switched with heat-sensitive elements of the pre-threshold and the threshold value of the temperature factor of the fire, and the heat-sensitive element of the prethreshold value of the temperature fact The fire detector is connected through the standby unit, at the suggestion of the authors, each module is additionally equipped with a flame detector, which is connected to the control unit in parallel with the temperature-sensitive element of the threshold value of the temperature factor of the fire through a programmable switch for fire extinguishing duplication channels through standby fire extinguishers that are independently connected to its outputs closed feedback from the drive of the channel selector of the control unit, and more specifically: the outputs of the control unit pairs llelno connected to the switch channel through its controlled time delay unit, wherein extinguishing aerosol generators are made and / or powder.

Distinctive features provided the expansion of technological capabilities of a more universal automatic fire extinguishing system, the design of which was simplified.

Equipping each system module with an additional flame sensor increases the speed of emergency launch of fire extinguishing generators (in the presence of a signal from the ready unit), anticipating a rise in temperature in the compartment, that is, eliminating the development of fire, which increases the efficiency of fire fighting.

The parallel connection of the flame sensor to the switch of the fire extinguishing duplication channels ensures the identity of the functioning of the structural elements of the module by the leading signal of the heat-sensitive detector.

In addition, there remains an alternative to launching channels for duplicating a fire extinguishing during its development in the compartment both by a signal from a flame sensor and also from a heat-sensitive threshold element.

Connecting backup fire extinguishing generators to the independent outputs of the control unit allows for their phased autonomous functioning in accordance with the results of studies of the temperature conditions in the compartment.

Parallel connection of the autonomous outputs of the control unit associated with backup fire extinguishing generators through time delay devices provides a discrete sequence of the channel switch of the module and, therefore, duplication of fire fighting if necessary.

The implementation of adjustable time delay devices allows the use of different fire protection modes, temperature control in autonomous compartments and duplicated start of fire extinguishing generators.

The switching channel switch of the control unit is programmed automatically due to feedback through adjustable time delay devices with autonomous outputs of the start channels of the backup fire extinguishing fire extinguishing duplicators.

Various designs of fire extinguishing generators expand the technological capabilities of fire extinguishing:

- aerosol generators provide the dynamism of creating the necessary concentration of combustion inhibitors in a protected volume;

- powder generators are designed for local suppression of the source of ignition and are installed in the most dangerous direction of fire, as well as to protect important and valuable objects of technology;

- the combination of aerosol and powder fire extinguishing generators allows you to extend the action of combustion inhibitors, preventing the settling of the cooling aerosol.

In a specific technical solution for the fire protection of a mobile transport communications center based on a KAMAZ vehicle, aerosol generators are installed in the structural compartments, and a combination of aerosol and powder generators is used to protect its power compartment with a partially open engine.

Consequently, each essential feature is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not inherent in the characteristics of disunity, that is, the task set in the utility model is not solved by the sum of the effects, but by a new effect of the sum of the attributes.

The essence of the utility model is illustrated in the drawing, which schematically shows:

- figure 1 - system module;

- figure 2 - aerosol generator;

- figure 3 is a powder generator.

Each autonomous module of the automatic fire extinguishing system (Fig. 1) includes fire extinguishing generators 1 of the combustion inhibitors distributed in the protected volume of the compartment of the transport communication unit in the form of an aerosol formed during the combustion of a pyrotechnic charge (Fig. 2), or of a powder dispersed by a process gas (Fig. 3) )

The means of initiating the generators 1, connected in groups, are made in the form of electric igniters 2, which are electrically connected to the independent outputs of the electronic control unit 3, which performs the functions of automatically collecting and processing current temperature information in the compartment, controlling the initiation of double fire extinguishing, and fire alarm.

The inputs of block 3 are switched with heat-sensitive elements 4, 5 and 6 of the prethreshold and threshold temperature factors of the fire and the flame sensor, respectively.

The thermosensitive element 4 is made in the form of a thermal cable, and the thermosensitive element 5 is in the form of a limit differential detector.

The heat-sensitive element 4 to the control unit 3 is connected via the ready-made unit 7, which generates a signal of the first threshold of the operating mode in the unit 3.

The heat-sensitive element 5 in parallel with the flame sensor 6 is connected to the switch 8 channels (three according to the invention) of the control unit 3. The switch 8 is equipped with a drive 9 for its positioning.

Autonomous outputs of block 3 are connected with electric igniters 2 of generators 1, which are grouped in independent fire extinguishing channels compartments.

The output of the control unit 3 of the first channel (according to the drawing on the left) through the time delay device 10 is connected to the actuator 9 of the switch 8, to which the time delay device 11 of the second channel is connected in parallel, connected with the group of fire extinguishing generators 1 of the double fire extinguishing of the second channel.

The second group of fire extinguishing duplication generators 1 is connected to the third output of the control unit 3 independently.

In the isolated compartments of the protected volume, aerosol generators 1 (Fig. 2) are used, containing a functional pyrotechnic charge 12 mounted through a gap 13 relative to the endothermic layer 14, forming an output channel for supplying the generated fire extinguishing mixture to the receiver 15, covered by a diaphragm 16 with output nozzles 17.

In the power compartment (with a partially open engine of the vehicle on which the guarded communication center is mounted) aerosol and powder generators 1 or only powder fire extinguishing generators 1 are used, which are schematically shown in Fig. 3.

An electric igniter is installed on the cover 18 of the housing 19 of the powder generator 1

2, adjacent to the pyrotechnic charge 20, generating cold gases during combustion.

The charge 20 is closed by an aerator 21, which is placed inside a functional powder combustion inhibitor, a fine fire extinguishing powder 22, filling the housing 19, at the bottom of which an exhaust nozzle 23 is installed.

The control unit 3 of each module of the system (Fig. 1) is connected with a display 24 of operational information and with a signaling unit 25, including, in particular, a light signaling device 26, an audio signal 27, a beacon 28, a time delay device 29 connected to a door partition door actuator 30 aperture (not shown conditionally).

The system operates as follows.

In the initial position, the switch 8 is closed to the first channel of the control unit 3.

When the temperature in the secured compartment rises to a predetermined pre-threshold level (rows 68, 87, 137 and 180 ° C) from the temperature-sensitive element 4, the pulse is supplied to block 7, which generates a ready signal coming to control unit 3, putting it into standby mode (first threshold).

Further, when the temperature in the compartment rises to the maximum level of functionality or an open flame of the source of ignition occurs, the thermosensitive element 5 or the flame sensor 6, respectively, the pulse of which arrives in block 3, is activated.

If there are two signals in unit 3 from the thermosensitive elements 4 and 5, or from element 4 and sensor 6, a control signal (second threshold) is output to the output of the first channel, which is supplied to the electric igniters 2 of the generators 1 by accessory and to the time delay device 10.

The heat pulse of the triggered electric igniters 2 ignites the pyrotechnic charge 12 (Fig. 2) of the aerosol generators 1 or the gas-generating charge 20 (Fig. 3) of the powder generators 1.

In the first case, when the charge 12 is burning, a quenching aerosol is generated, which through the channel 13 enters the receiver 15, where it accumulates and mixes to equalize the pressure and temperature.

Upon contact with the heat-sensitive material of the interlayer 14 in the channel 13, the aerosol is actively cooled, which is emitted from the receiver 15 by a distributed stream through the outlet openings 17 of the diaphragm 16 into the protected compartment, where thin aerosol jets are actively cooled by the injected air of the room.

An extinguishing gas-aerosol mixture with a temperature of 50-100 ° C fills the entire volume of the compartment, while the condensed aerosol particles and their gaseous carrier, being active combustion inhibitors, interrupt the oxidation chain reaction in the fire zone, suppressing the source of ignition.

In the second case, the resulting "cold" gas during combustion of the composition

20 through the aerator 21, it is distributed inside the layer of fire extinguishing powder 22, diluting and mixing it in the housing 19. At the same time, the pressure in the housing 19 of the powder generator 1 rises, as a result of which the carrier gas mixture and the fire extinguishing powder 22 are discharged through the nozzles 23 into an outbreak ignition, suppressing it - the first stage of fire fighting.

After the set delay time, the signal from the device 10 is supplied to the drive 9, which commutes the switch 8 with the second channel of the control unit 3 to receive information about the temperature regime in the compartment.

If the temperature in the compartment drops below the pre-threshold level, then this is the initial normal position for the functioning of the system.

If the temperature in the compartment has dropped to a level in the range from pre-threshold to threshold, the signal from the temperature-sensitive element 4 enters block 7, which puts block 3 into standby and standby mode.

If the temperature has not dropped below the threshold value, or after a time it has risen (from re-ignition or the development of a fire from a smoldering fire) to this level, the temperature-sensitive element 5 is triggered, as a result of which, from block 3, an initiating pulse is applied to the output of the second channel as described above sequential action diagram.

The control pulse in block 3 is generated in the event of a sensor 6 flame, in the presence of a signal from the block 7 ready, similar to that described. In this case, the control pulse arrives at the group of generators 1 of the duplicated fire fighting in the same compartment - the second stage, as well as to the device 11 of the time delay.

After a set time, the signal from the device 11 is fed to the actuator 9, a switching switch 8 with the third channel of the control unit 3, the operation of which is similar to that described in the second stage of the double fire extinguishing.

Thus, the reliability of fire suppression in compartments grows multiple when the proposed structurally simple automatic fire extinguishing system operates, which operates in a two-threshold fire extinguishing mode with multi-stage duplication in the volume of a full cycle.

In parallel with the control signals at the output of the channels of block 3, a command is issued to turn on the fire information means 26-30 of block 25 and a display 24 for operational monitoring and manual control of the fire extinguishing (not shown conditionally).

The experimental module of the proposed system was successfully tested in regulatory regimes, according to the results of which it was recommended for state testing in order to be delivered to the Customer.

A comparative analysis of the essential features with identified analogues of the prior art, from which the utility model is explicit

it should not be for a specialist in fire fighting equipment, showed that it is not known, and taking into account the possibility of industrial serial production of an automatic fire extinguishing system based on advanced modules, it can be concluded that the patentability criteria are met.

Claims (3)

1. Automatic fire extinguishing system, including alarm systems, two-threshold operation modules, each of which contains a standby unit, and a control unit for initiating fire-extinguishing generators distributed in a protected volume, while the control unit is switched with heat-sensitive elements of the threshold and threshold values of the temperature factor of the fire, moreover, the temperature-sensitive element of the threshold value of the temperature factor of the fire is connected via the standby unit, characterized in each unit is further equipped with a flame sensor which is in parallel with the temperature sensor threshold temperature factor is connected to the fire control unit via the programmable switch extinguishing overlapping channels by standby extinguishing generators, independently associated with its output, closed loop with the drive switch control unit channels. 2. The automatic fire extinguishing system according to claim 1, characterized in that the outputs of the control unit are connected in parallel to the switch of its channels through devices of adjustable time delay. 3. The automatic fire extinguishing system according to claim 1, characterized in that the fire extinguishing generators are aerosol and / or powder.