RU48796U1 - AUTOMATIC FIRE ELIMINATION SYSTEM - Google Patents

Abstract

The invention relates to fire fighting equipment, in particular to the elimination of fires mainly on industrial and other large-volume buildings with arched ceilings and supporting elements of the column type. The achieved result is a reduction in material damage from the consequences of fires, including from excessively spilled water. The result is achieved in that in an automatic fire extinguishing system in rooms and structures, including a network of fire detectors, fire extinguishing fluid supply devices and coolant supply devices for structural elements and equipment, according to the solution of the coolant supply device, they are made in the form of hydraulic monitors with trunks equipped with vertical and horizontal guidance drives and an electronic control unit connected to strain gauges mounted on boiling structural components and equipment indoors.

Description

The utility model relates to fire fighting equipment, in particular to fire extinguishing systems mainly on industrial and other large-volume buildings with arched ceilings and pillar-type supporting elements.

In the event of fires in some cases, the damage increases significantly from the loss of stability and deformation of the support columns, from the collapse of the roof, while the main losses occur from damage to complex technological equipment. At the same time, automatic fire extinguishing methods based on the supply of coolant to the structural elements when the fire detectors are triggered involve the supply of coolant, including in areas that do not need cooling at this moment, while the points of necessary cooling are not sufficiently intense , and in certain situations associated with the insignificance of the source of ignition, there is generally no need for a coolant supply. The solution to the problem of optimizing the cooling regime of support columns supporting structural elements would significantly increase the fire safety of facilities and reduce the damage from excessively spilled water to structural elements.

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 possibility of movement

in two mutually perpendicular directions, the first and second drive motors for moving the gun barrel in the first and second directions, respectively, means for supplying a fire extinguishing medium to the gun barrel, a control unit, outputs connected to the drive motors and to the control input for supplying a fire extinguishing medium to the gun barrel, a flame detection sensor and a target sensor with a working axis, rigidly mounted on the gun monitor barrel aligned with it, the outputs of the sensors are connected to the inputs of the control unit, characterized in that it is it is removed by 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 software block with a 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 amplitude determination unit - translational movement of the gun monitor 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 software unit, the outputs of which are the inputs of the drive motors and the control input of the means for supplying the extinguishing medium into the gun barrel, and the outputs of the flame detection sensors, target sensors and barrel movement sensors in the first and second directions are connected to the control unit through a comparison element. / RU Patent No. 2046613, 1995 /.

The known system is not able to identify the need for cooling according to temperature deformations of non-fire-resistant structural bearing elements and equipment, does not provide for targeted cooling in general, which reduces fire safety and increases the likelihood of significant material damage.

A device for eliminating a fire of a complex technological object, comprising a sensor block of a fire signal, at least three fire extinguishers with shut-off and start valves, connected through pipelines to at least two collectors equipped with nozzles with membranes, characterized in that a controller, a pressure extinguishing agent pressure sensor installed in the pipeline connected to the first collector, a unit for determining the direction and strength of the air flow, while the second manifold is installed the input, the first, second and third inputs of the controller are connected respectively to the outputs of the fire alarm sensor unit, the air flow direction and strength determination unit and the extinguishing agent pressure sensor installed in the pipeline, and the first controller output is simultaneously connected to the control inputs of the shut-off and start valves of the first and second fire extinguishers, the second output of the controller is connected to the control input of the drive, and the third output of the controller is connected to the control input of the shut-off and start valve fire extinguisher, and the exits of the first and second fire extinguishers with corresponding shutoff-start valves are simultaneously connected through the pipelines to the inlet of the first collector, the output of the third fire extinguisher with the corresponding shut-off-start valve through the pipeline is connected to the inlet of the second collector. / RU Patent No. 2179870, 2002 /.

The known device is not able to detect the need for cooling by temperature deformations of non-fire-resistant structural bearing elements and equipment, does not provide for targeted cooling in general, which reduces fire safety and increases the likelihood of significant material damage.

The closest is an 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 supply means of the extinguishing substances into the fire are made in the form of a controlled gun barrel with a nozzle controlled by a displacement motor, and the system is equipped with a device the storage card of the fire extinguishing mode map, the unit of comparison tools, the memory device, the corrective device, the calibration table memory unit and the interface unit, the converters of the movement control signals along the X coordinate axis and the Y coordinate axis, the nozzle control signal converter, the power supply unit associated with the control units a displacement drive along the X axis and a displacement drive along the Y axis, with a nozzle control unit and an electromagnetic valve control unit, a photosensor, is installed on the fire monitor with the possibility of detecting a fire source, the nozzle position sensor and the fire monitor position sensors relative to the X axis and the Y axis, a docking unit connecting the fire extinguisher supply line to the gun barrel installed with the ability to change its position with the help of electric motors X axis and Y axis, and a unit for measuring the pressure of the extinguishing agent at the inlet of the gun barrel, while the microprocessor is connected to the block control signals, a storage device, a correction device, a comparison tool unit, a calibration table memory unit, a timer, a fire card storage device

and an interface unit, the first inputs and outputs of which are connected to the control panel, the outputs of the photosensor, nozzle position sensor, the gun barrel position sensors relative to the X axis and the Y axis and the extinguishing agent pressure measuring unit at the gun barrel input are connected to the second inputs of the interface block, the second outputs which are connected respectively with the second input of the control unit of the electromagnetic valve and through the converters of the signals for controlling movement along the X axis and the Y axis, as well as through the converter of the control signals the nozzle with the second inputs of the control units for the X-axis drive and the Y-axis drive, as well as the nozzle control unit, the output of which is connected to the input of the nozzle-movement motor, and the outputs of the control units for the X-axis drive and the Y-axis drive with inputs of electric motors of displacement drives, respectively, along the X axis and Y axis.

/ RU Patent No. 2104073, 1998 /.

The known system is also not able to identify the need for cooling due to temperature deformations of non-fire-resistant load-bearing elements and equipment, it does not provide for targeted cooling in general, which reduces fire safety and increases the likelihood of significant material damage.

The objective of the utility model is to reduce material damage, including from excessively spilled water during the elimination of fires mainly on industrial and other large-volume buildings with arched ceilings and pillar-type supporting elements, ensuring the safety of structural bearing elements and equipment not having fire resistance.

The problem is solved in that in an automatic fire extinguishing system in rooms and structures, including a network of fire detectors, a fire extinguishing fluid supply device and a coolant supply device for structural elements and equipment, according to the solution, the coolant supply device is made in the form of hydraulic monitors with trunks, equipped with vertical and horizontal guidance drives and an electronic control unit connected to strain gauge sensors mounted on carriers to nstruktivnyh components and equipment indoors.

Distinctive features are:

- coolant supply devices are made in the form of hydraulic monitors with shafts equipped with vertical and horizontal guidance drives and an electronic control unit connected to strain gauges mounted on load-bearing structural elements and equipment indoors, (which allows directing coolant when thermal deformations occur and to prevent collapse of the roof and overheating of non-fire-resistant structural elements and equipment, ensure the reduction of material damage, including from excessively spilled water).

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

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

The utility model is illustrated in the drawing, which shows an automatic fire extinguishing system combined with the latter's location scheme at the facility.

The system includes a network of fire detectors 1, 2, fire extinguishing hydromonitor 3, cooling hydromonitor 4 connected to the pressure line 5, electronic control unit for the fire extinguishing system 6, strain gauges 7, 8, 9. An automatic fire extinguishing system is located in a production workshop with metal arched ceilings 10, supported by metal support columns 11, and configured to protect fire-resistant equipment 12 from fire.

Automatic fire extinguishing system works as follows.

The coordinates of the location of the non-fire-resistant structural bearing elements 10, 11 and equipment 12 are in the memory of the electronic control unit of the fire extinguishing system 6, also the coordinates of the strain gauge sensors 7, 8, 9. When a fire occurs in a protected area, fire detectors 1, 2 are triggered with an electronic signal control unit 6, which gives the command to turn on the fire extinguishing hydraulic monitor 3, connected to the pressure line 5. When a signal from strain gauge sensors 7, 8, 9 arrives at the control unit 6 In the event of thermal deformations in structural bearing elements 10, 11 and equipment 12, the latter gives a command to turn on a cooling hydraulic monitor 4 with a spill of liquid along the coordinates of the structural bearing elements 10, 11 and equipment 12. When deformation stops and stresses normalize in equipment and bearing elements strain gauges 7, 8, 9 stop

giving signals, and the control unit 6 gives the command to turn off the cooling hydraulic monitor, which ensures the safety of equipment and prevention of collapse of the roof with a minimum and sufficient spill of coolant. If the ignition is not eliminated and the signals from strain gauge sensors come in again, the sequence of operations for cooling the structural bearing elements 10, 11 and equipment 12 is repeated again.

The automatic fire extinguishing system ensures the reduction of material damage from the consequences of fires, including from excessively spilled water during the elimination of fires mainly on industrial and other large-volume buildings with arched ceilings and pillar-type supporting elements, ensuring the safety of structural bearing elements and equipment not having fire resistance.

Claims (1)

An automatic fire extinguishing system in rooms and structures, including a network of fire detectors, fire extinguishing fluid supply devices and coolant supply devices for structural elements and equipment, characterized in that the coolant supply devices are made in the form of hydraulic monitors with shafts equipped with vertical and horizontal drives guidance and an electronic control unit connected to strain gauges mounted on load-bearing structural elements x and equipment indoors.