RU2288015C2 - Method of the automatic pulsing fire extinguishing and the system for its realization - Google Patents

Abstract

FIELD: fire fighting service; methods and equipment for the automatic pulsing fire extinguishing 2004106871/12 (54) Method of the automatic pulsing fire extinguishing.

SUBSTANCE: the invention is intended for utilization at the fires extinguishing, for example, the stores with the highly inflammable liquids, on the oil producing installations in the conditions of the variable forces and directions of the wind in the area of the fire. The technical result of the invention is the increased reliability and the reduced inertia at the fires extinguishing process in the pulse operation, including the case of the initial stage of inflammation, irrespective of the direction and the strength of the wind, the increased processibility index, the decrease of the complication and the cost of the system. The technical result is reached by that the method provides for the feeding by the system of the installations into the zone of the fire of the fire extinguishing composition. The direction of feeding of the fire extinguishing composition by the installations is set with consideration of the direction and speed of the wind at the moment of inflammation according to the information coming from the weather vane. At that the direction of the possible feeding change in advance with per second corrective action of the position of the barrel device before origination of the inflammation. The method is realized by the system including the fire extinguishing pulsing installations, each of which has the infrared sensor, the barrel device supplied with the charge of the fire-extinguishing composition with the pyrocartridge. The infrared sensor is mounted fixed with the capability to control the preset sector of fire extinguishing, and the barrel device is made with the capability of correction of its position in the horizontal plane and is supplied with the rotation driving gear in the form of the electromotor with the worm reduction gearbox connected through the matching unit with the control unit. At that the control unit is connected with the infrared sensor, the pyrocartridge and the reading device of the weather vane mounted in the zone of the installations.

EFFECT: the invention ensures the increased reliability and processibility of the method and the of the pulsing fire extinguishing system, reduced inertia at the fire extinguishing process, complication and the cost of the system.

2 cl, 1 dwg

Description

The invention relates to the field of fire extinguishing and can be used in the elimination of fires at complex technological facilities, outdoor installations, including for storages with flammable liquids, at oil-producing installations under conditions of changing wind strength and direction in the fire zone.

When eliminating fires at complex technological facilities, outdoor installations under conditions of variable wind exposure, pulsed fire extinguishing methods and systems are not sufficiently effective due to the demolition of a cloud of extinguishing aerosols and / or powder away from the source of ignition.

The increase in emissions of fire extinguishing compounds to cover the extinguishing zone does not always provide a solution to the problem and significantly increases the economic costs of using systems.

The urgent task of per-second correction of the trajectory and direction of the release of the extinguishing agent by a pulse fire extinguishing system, which is in a state of readiness with changing direction and strength of the wind and reducing the inertia of the system.

A known method of automatic fire extinguishing, including determining the source of the flame in the protected area, supplying and spraying a stream of the extinguishing medium in the direction of the source of the flame with simultaneous reciprocating movement of the stream in two mutually perpendicular directions, determines the coordinates of the boundary of the flame and further controls the direction of flow and the amplitude of the reciprocating progressive movement of the jet depending on the coordinates of the boundaries of the flame / Patent RU No. 2046613, 1995 /.

The known method is complicated and not reliable enough, it is limitedly applicable for extinguishing storages with flammable liquids, oil production plants in conditions of changing strength and direction of the wind in the fire zone.

Known automatic fire extinguishing system containing fire extinguishing means in the form of at least one fire monitor for spraying a fire extinguishing medium installed with the ability to move in two mutually perpendicular directions, the first and second drive motors for moving the fire monitor in the first and second directions, respectively supply of the extinguishing medium to the fire monitor barrel, control unit, outputs connected to the drive motors and to the control input of the means of supplying the extinguishing medium a fire monitor, a flame detection sensor and a target sensor with a working axis, rigidly mounted coaxially with it on the fire monitor, the outputs of the sensors are connected to the inputs of the control unit, while it is equipped with sensors for moving the barrel in the first and second directions, outputs connected to the corresponding inputs of the control unit additionally equipped with a comparison element, a program unit with memory, the input of which is connected to the corresponding output of the comparison element, and the output with the corresponding input of the comparison element and the unit determining the amplitude of the reciprocating movement of the gun barrel as a function of the coordinates of the flame source, the input of which is connected to the corresponding memory output of the program unit, and the output with the corresponding memory input of the program unit, the outputs of which are the inputs of the drive motors and the control input of the fire extinguishing medium supply to the gun barrel, and the outputs of the flame detection sensors, the target sensor and the sensors for moving the barrel in the first and second directions are connected to the control unit through a comparison element Nia / Patent RU №2046613, 1995 /.

The known system is unnecessarily complex, inertial and not reliable enough, it is limitedly applicable for extinguishing storages with flammable liquids, oil producing installations in the conditions of changing strength and direction of the wind in the fire zone.

A known method of automatic fire extinguishing, which consists in setting the automatic fire extinguishing system in a standby state of fire danger, determining when a fire hazard occurs using the means of registering the coordinates of an open flame in the selected field of view relative to the gun barrel located on the fire monitoring system of the fire extinguishing agent, feeding the extinguishing agent into the fire and control the supply of extinguishing agent to the fire, while registering in the memory device of the fire extinguishing system, address, taking into account the location of the fire site, a fire hazard signal and select information from the storage device of the system about the zone of view of the fire site with an indication of the corresponding scanning path to establish the path of the fire monitor in space in case of fire fighting, and after determining the coordinates of the open flame, determine the coordinates of the extinguishing agent supply zone during fire extinguishing, adjust the mode of extinguishing agent supply from the gun mount with the ox of an automatic fire extinguishing system on the basis of information stored in the memory device on the map of the modes of operation of the fire monitor and the coordinates of the fire at the maximum possible degree of coincidence of the coordinates of the fire with the coordinates of the zone protected from the fire, select the nozzle settings for supplying the extinguishing agent taking into account the configuration of the extinguishing agent and the amount of expiring per unit time of the extinguishing agent, and the control of the supply of the extinguishing agent to the fire is carried out by tracking and the selected trajectory of the fire monitor and the parameters of the fire extinguishing agent using pressure measuring devices of an automatic fire extinguishing system / Patent RU No. 2104073, 1998 /.

The known method is also complicated and not reliable enough, it is limitedly applicable for extinguishing storages with flammable liquids, oil production plants in conditions of changing strength and direction of the wind in the fire zone.

A known automatic fire extinguishing system containing a control signal generating unit, a microprocessor, a control panel, a timer, an electromagnetic valve located on the supply line of the extinguishing agent, a control unit for the electromagnetic valve and means for supplying the extinguishing agent to the fire, characterized in that the means for supplying the extinguishing agent to the fire center is made in the form of a controlled fire monitor with a nozzle controlled by a moving electric motor, and the system is equipped with a storage device fire extinguishing mode maps, a comparator unit, a memory device, a correcting device, a calibration table memory unit and an interface unit, displacement control signal converters along the X coordinate axis and Y coordinate axis, a nozzle control signal converter, power supply unit associated with displacement drive control units along the X axis and the drive along the Y axis, with a nozzle control unit and a solenoid valve control unit, a photosensor mounted on a gun mount with with the possibility of detecting a fire source, a nozzle position sensor and a gun barrel position sensors relative to the X axis and Y axis, a docking unit connecting the fire extinguisher supply line with a gun barrel mounted with the ability to change its position using electric motors of movement drives along the X axis and axis Y, and the unit for measuring the pressure of the extinguishing agent at the inlet of the gun barrel, while the microprocessor is connected to the control unit by means of control buses and data signals, memory device, correction device, unit of comparison tools, calibration table memory unit, timer, fire extinguishing mode card storage device and interface unit, the first inputs and outputs of which are connected to the control panel, the outputs of the photosensor, nozzle position sensor, fire monitor position sensors relative to the X axis and the Y axis and the pressure extinguishing agent pressure measuring unit at the barrel inlet are connected to the second inputs of the interface unit, the second outputs of which are connected respectively Together with the second input of the solenoid valve control unit and through the transducers of the control signals for movement along the X axis and the Y axis, as well as through the converter of the control signals for the nozzle with the second inputs of the control units for the drive along the X axis and the displacement drive along the Y axis, as well as the nozzle control unit the output of which is connected to the input of the nozzle displacement motor, and the outputs of the control units of the X-axis displacement drive and the Y-axis displacement drive are connected to the inputs of the drive electric motors I for Y. / RU Patent №2104073 X-axis and the axis 1998 /

The known system is unnecessarily complex, inertial and not reliable enough, it is limitedly applicable for extinguishing storages with flammable liquids, oil producing installations in the conditions of changing strength and direction of the wind in the fire zone.

The closest is the method of automatic pulse fire extinguishing with a fire extinguishing composition, the supply direction of which is set by the installation taking into account the direction and speed of the wind at the time of ignition, according to information from the wind vane. / JP patent No. 4352972, cl. A 62 C 37/36, publ. 12/08/1992 g /

This method is unnecessarily inertial, not reliable enough for extreme temperature conditions, and therefore it is limitedly used for extinguishing storages with flammable liquids of oil production plants.

The closest is an automatic pulse fire extinguishing system in which a fire extinguishing installation video camera is installed permanently with the ability to control a given fire extinguishing sector, and the receiver is made with the possibility of position correction in the horizontal plane and is equipped with a rotation drive connected via a matching unit to the controller, the latter being connected to video camera, squib and vane reader installed in the area of the installation system. / JP patent No. 4352972, cl. A 62 C 37/36, publ. 12/08/1992 g /

The known device is unnecessarily inertial and not reliable enough, it is limitedly applicable for extinguishing outdoor installations, storages with flammable liquids, and oil producing installations under conditions of changing wind force and direction in the fire zone.

The objective of the invention is to increase the reliability and reduce the inertia of the fire extinguishing system in a pulsed mode, including at the initial stage of ignition, regardless of the direction and strength of the wind, increase the manufacturability of the process, reduce the complexity and cost of the fire extinguishing system.

The problem is solved in that in a method of automatic pulse fire extinguishing of objects, including supplying a system of installations to the zone of a fire source of a fire extinguishing composition, with a direction of supply of a fire extinguishing composition by installations taking into account the direction and speed of the wind according to information received from the wind vane, according to the decision, the direction of possible supply is changed in advance with a second-by-second correction of the position of the receiver before a fire occurs, using an automatic pulse fire extinguishing system, incl. detenting fire extinguishing installations, each of which includes an infrared radiation sensor, a receiver equipped with a charge of a fire extinguishing composition with an electric fuse, according to the solution, the infrared radiation sensor is installed permanently with the ability to control a given fire extinguishing sector, and the receiver is configured to correct the position in the horizontal plane and equipped with a rotation drive connected through a matching unit to a controller connected to an infrared sensor about radiation, an electric fuse and a reader of a weather vane installed in the area of the installation system, while the rotation drive is an electric motor with a worm gear.

Distinctive features are:

- the direction of the possible feed is changed in advance with a per-second correction of the position of the receiver before a fire occurs (which reduces the inertia of the response, allows you to obtain actual information at a given time about the wind pressure and accurately adjust the direction of the shot of the fire extinguishing composition, which in turn increases reliability and efficiency, and the effectiveness of fire extinguishing agents);

- the infrared radiation sensor is installed stationary with the ability to control a given fire extinguishing sector, and the receiver is made with the possibility of correcting the position in the horizontal plane and is equipped with a rotation drive (which ensures the reliability and effectiveness of fire protection of a given sector of the object, regardless of changes in wind load);

- the rotation drive is connected through a matching unit with a controller connected to an infrared radiation sensor, a squib and a weather vane reader installed in the area of the installation system (which, with relative structural simplicity, can improve the speed, efficiency and reliability of the system);

- the rotation drive is an electric motor with a worm gear (which ensures reliability and wear resistance for long-term operation in any climatic conditions).

Thus, the claimed solution meets the criterion of "novelty."

Comparison of the proposed solutions with analogues did not allow them to identify signs that distinguish the claimed solution from the prototype, which allows us to conclude that its criterion of "inventive step".

The method is implemented as follows.

Example 1. Concentric to the perimeter of an outdoor installation (a tank with oil products with a diameter of 12 m), a pulsed fire extinguishing system was mounted from four symmetrically located on a bunding installations with charges of fire extinguishing powder and aerosol forming composition when each fire fighting sector was distributed to each installation corresponding to a quarter of the generating surface of the tank. In accordance with the software and operational information of the weather vane (wind direction - 45 ° to the axis of the installation, wind speed - 5.5-6.1 m / s), in accordance with the specified fire extinguishing algorithm, the plants changed the direction of supply of extinguishing agents to 32-35 °. When simulating combustion, a fire was detected for a period of time up to 1 s, a command pulse was applied to operate the installations with the formation of a cloud of aerosol composition and extinguishing powder, which created a local volume space with a fire extinguishing concentration on the outer surface of the tank by 4.1-4.7 c, which is quite enough to eliminate the fire at the initial stage of the outdoor installation of a fire of the specified class.

Example 2

Analogously to example 1, a pulsed fire extinguishing system was mounted concentrically at a distance of 12 m from a container with a diameter of 20 m from nine symmetrically arranged installations with charges of fire-extinguishing powder and aerosol forming composition when each fire fighting sector was distributed to each installation corresponding to a 40 ° arc of the generating surface of the container. When the wind direction was 15 ° to one of the diametrical axes of the tank, gusts of wind 6.5-7.5 m / s, the plants changed the given direction of fire extinguishing by 10-40 °. When simulating combustion, a fire was detected for a period of time up to 1 s, a command pulse was applied to operate the plants with the formation of a cloud of aerosol composition and extinguishing powder, which created a space of local volume with a fire extinguishing concentration on the outer surface of 6.1-6.7 c, which is quite enough to eliminate the fire at the initial stage of the outdoor installation of a fire of the specified class.

The automatic pulse fire extinguishing system is illustrated by drawings, in which Fig. 1 shows a receiver and a weather vane with a signal matching block diagram, and Fig. 2 shows a diagram of a fire extinguishing composition supply to an object.

The system contains pulse fire extinguishing installations 1, infrared radiation sensor 2, receiver 3, extinguishing agent charge 4, squib 5, electric motor 6, worm gear 7, matching unit 8, controller 9, vane reader 10. Outdoor installation 12.

The automatic pulse fire extinguishing system operates as follows.

In the initial state, in the absence of wind gusts, the barrel devices 3 of the pulse extinguishing installations 1 are directed together with the infrared radiation sensor 2 to the corresponding fire extinguishing sectors of the outdoor installation 12. When the wind occurs, the vane reader 10 outputs information to the controller 9, which is converted through the matching unit 8 into current for triggering the electric motor 6, which through the worm gear 7 rotates the barrel device 3 in a position that provides anticipation of wind pressure. If a fire occurs in the fire fighting sector of any of the infrared radiation sensors 2, the signal is sent to the controller with a subsequent command (current pulse) to ignite the squib 5 and to shoot the charge of the fire extinguishing composition 4 precisely into the controlled sector without loss from drift by the wind, which ensures reliability and efficiency of eliminating the fire in the initial stages. The ability to pre-position the receiver in the necessary position for the release of the extinguishing agent allows to reduce the inertia of the system, and the second-hand correction of the position of the receiver ensures the efficiency and accuracy of correction of the position of the latter.

The method of automatic pulse fire extinguishing of objects and a system for its implementation provide increased reliability and reduced inertia of the fire extinguishing system in a pulsed mode, including at the initial stage of ignition, regardless of the direction and strength of the wind, provide an increase in the processability of both controlling the occurrence of a fire and fire extinguishing, reduce the complexity and cost of the fire extinguishing system.

Claims (2)

1. A method of automatic pulsed fire extinguishing of objects, including supplying a system of installations to the zone of a fire source of a fire extinguishing composition with a direction of supply of a fire extinguishing composition by installations taking into account the direction and speed of the wind according to information received from the weather vane, characterized in that the direction of the possible supply is changed in advance with a second correction of position the receiver before the fire. 2. The system of automatic pulsed fire extinguishing, including pulsed fire extinguishing installations, each of which includes an infrared radiation sensor, a barrel device equipped with a charge of a fire extinguishing composition with a pyro cartridge, characterized in that the infrared radiation sensor is installed stationary with the ability to control a given fire extinguishing sector, and the receiver is made with the possibility of position correction in the horizontal plane and is equipped with a rotation drive connected via a matching unit with a controller, the latter being connected to an infrared radiation sensor, a squib and a weather vane reader installed in the area of the installation system, and the rotation drive is an electric motor with a worm gear.

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