RU2588486C1 - Fire-fighting module - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: invention relates to fire-fighting equipment, namely to fire fighting modules, which can be used for fire extinguishing using fluid mist. Module comprises multichannel sprinkling device, liquid fire-extinguishing substance, with which sealed housing is equipped. Housing is equipped in upper part of gas-generating device with gas-generating charge and is equipped in lower part with neck, on output end of which by means of nut is equipped with destructible membrane and filtration element of outlet nozzles. Between outlet nozzle and spraying device there is cylindrical facility for averaging of flow. Sprinkling device is made with central channel and stepwise variable outer diameter. Sprinkling means walls are equipped with through holes. Over openings hollow conical reflector is fixed with divergent part downwards. Central channel of sprinkling means at its output is conically converging. Before cone-shaped narrowing of central channel irrigation facilities screw is installed. Membrane pressed to neck with help of washer, equipped with cylindrical catcher cut part of membrane and having hole with sharp edge directed to membrane.

EFFECT: higher efficiency of fire extinguishing, providing guaranteed stability for production of functional result by achieving maximum possible speed of fire-extinguishing substance at simultaneous provision of uniform distribution on protected area and at maintaining altitude range of placement of module on prototype level.

8 cl, 2 dwg

Description

The invention relates to fire fighting equipment, and in particular to fire extinguishing modules, which can be used to extinguish fires with a finely divided liquid, both in premises for various purposes and in open spaces where the use of liquid fire extinguishing substances is possible without causing significant damage.

Known installation of water fire extinguishing (patents RU 2512869, publ. 04/10/2014, EP 0614391, 1997), equipped with pipe wiring with nozzles to ensure uniform flow of water or aqueous fire extinguishing solutions to the source of fire in a finely sprayed form. In this system, pipelines are connected to a source of fluid, which is supplied to the nozzles under pressure. The disadvantage of this fire extinguishing system is the need to provide the fire extinguishing facility with a sufficiently complicated system to manufacture and install the piping system necessary for supplying liquid, which is not always possible, for example, in residential premises. In addition, due to the large hydraulic losses that occur when the fluid flows through relatively long pipes, it is necessary to maintain a constant supply pressure from the fluid source, as in the event of a decrease in pressure, the flow rate of the extinguishing agent will decrease and, as a consequence, the extinguishing efficiency will deteriorate.

The fire extinguishing module according to the patent RU 2424839 (published July 27, 2011) containing a multi-channel irrigation means for creating a finely atomized stream of liquid fire extinguishing substance with which a sealed housing is equipped with a gas generating device with a gas generating charge and equipped with the lower part of the neck, at the output end of which, by means of a nut, an outlet nozzle equipped with a destructible membrane is mounted.

The disadvantages of the known module include the presence of a large uneven distribution of the finely sprayed stream with the formation in the direction of the channels for supplying liquid fire extinguishing substance of zones with maximum irrigation of the fire source, and in some parts of the protected surface located between the channels, zones appear where there will be no irrigation drops, which together reduces the effectiveness of fire fighting. It should be noted that the shape of the curvature of the pipelines in the patent embodiment does not affect the efficiency of the module, but only ensures that the extinguishing agent enters the source of ignition targeted by the particular nozzle-spray.

Analysis of the known constructive solution shows that it is not possible to ensure uniform distribution of the extinguishing agent droplets over the protected area.

Before the irrigation means, made in the form of many channels in the exhaust nozzle, at the ends of which nozzles-nozzles are mounted, there is no filter element and a device that prevents fragments of the membrane being destroyed either into the channels for supplying liquid extinguishing agent from the exhaust nozzle, or through the channels directly to nozzles-sprayers, partially or completely overlapping their flow areas, which can lead to a decrease in the intensity (speed) of the jets of extinguishing agent in the process p module bots, which will reduce the fire extinguishing ability of the module and, accordingly, the fire extinguishing efficiency, increase the uneven distribution of the fire extinguishing agent in the protected area or completely stop its exit from the module with the subsequent destruction of the casing (in the absence of a safety valve) from excessive pressure increase as a result of continued gas supply from working gas generator.

It clearly does not follow from the description of the invention how the stability (reproducibility) of pressure is constructively ensured at which the membrane breaks down to release the liquid extinguishing agent (there is no structural element cutting the membrane or notches on the membrane), which under certain conditions can reduce fire fighting efficiency, in the extreme case, up to the point that some part of the continuous source of fire may not be extinguished due to the fact that the destruction of the membrane will occur before recruitment is necessary pressure and liquid extinguishing agent, without gaining the necessary speed, freely leaves the internal volume of the module housing, not having fulfilled its functions.

It should be noted that the known technical solution, not in all of its embodiments according to the claims, contains one gas generating device. An increase in the number of gas generating devices is envisaged. There is every reasonable reason to believe that a complete and stable discharge of the extinguishing agent from the module housing while maintaining the intensity of its jet until the end of the module’s operation is far from always achieved with a single gas-generating device. An increase in the number of such devices will significantly increase the overall mass characteristics of the module and cost indicators.

The above disadvantages call into question the guaranteed reliable achievement of a functional result when using the module as intended.

The irrigation means made of many spatially separated elements having a certain length worsens the overall mass characteristics of the module, does not allow its compactness and creates hydraulic losses that reduce the speed of the fire extinguishing agent.

The fire extinguishing module according to the patent RU 129402 for a utility model (published on June 27, 2013), adopted as a prototype containing a multi-channel irrigation means for creating a finely dispersed stream of liquid fire extinguishing agent, which is equipped with a sealed enclosure equipped with a gas-generating unit in the upper part, is known from the prior art. a device with a gas-generating charge and equipped in the lower part with a neck, at the outlet end of which, by means of a nut, a discharge outlet equipped with a destructible membrane and a filter element is mounted Doc.

The disadvantages of the known device include the unreliability of its operation, associated with the probability during operation of the clogging or corrosion of the elements of the movable connection of the exhaust nozzle with the rotor, which can lead to the impossibility of rotation of the rotor when the module is triggered, i.e. the impossibility of uniform irrigation with a finely sprayed stream of the protected area, and, accordingly, to reduce the efficiency of fire fighting.

The creation of a finely sprayed flow swirling along a helix leads to a sharp decrease in the speed of movement of liquid droplets even at a small room height (3-4 m), which, due to high convection flows from the fire, limits the possibility of droplets of fire extinguishing agent penetrating into the combustion zone and, as a result, reduces the fire extinguishing ability of the module, the effectiveness of fire fighting.

There is no device that protects fragments of a destructible membrane from falling onto the surface of the filtering element, which can lead to a partial overlap of the passage section of the filtering element, a decrease in the flow rate of the liquid passing through it, and, as a result, a decrease in the torque value, i.e. to reduce the speed of rotation of the rotor or to the complete absence of its rotation. The consequence of this is the uneven irrigation flow of the extinguishing agent of the surface to be protected, low fire extinguishing efficiency.

The above disadvantages call into question the guaranteed reliable achievement of a functional result when using the module as intended.

The irrigation means made of many spatially separated elements having a certain length worsens the overall mass characteristics of the module, does not allow its compactness and creates hydraulic losses that reduce the speed of the fire extinguishing agent.

From the description of the invention by the prototype it clearly does not follow how the stability (reproducibility) of pressure is ensured in a constructive manner at which the membrane is destroyed to release a gas-liquid mixture (there is no structural element cutting the membrane or notches on the membrane), which under certain conditions can reduce fire fighting efficiency , in the extreme case, up to the point that some part of the continuous focus of the fire may not be extinguished due to the fact that the destruction of the membrane will occur before the set is necessary imogo pressure and liquid fire extinguishing agent, no typing required speed, freely out of the internal volume of the enclosure without fulfilling its function.

The objective of the present invention is to provide a compact fire extinguishing module, expanding the arsenal of means for this purpose, which allows to increase the efficiency of fire extinguishing with a finely dispersed liquid, to ensure guaranteed stability of achieving a functional result when used as intended by creating conditions that allow drops of extinguishing agent to reliably overcome convection flows in the combustion zone by achieving the maximum possible droplet velocity outside the module ( Hydraulic nizheny movement path loss of extinguishing agent in the module), while ensuring uniformity of distribution of the fire extinguishing agent in the protected area and modulus while maintaining high-altitude location at the prototype level range.

The problem is solved by the proposed design of the fire extinguishing module containing a multi-channel irrigation agent, providing a finely dispersed stream of liquid fire extinguishing substance, which is equipped with a sealed enclosure equipped with a gas-generating device with a gas-generating charge in the upper part and equipped with a neck in the lower part, and equipped with a nut destructible membrane and filter element of the exhaust nozzles. The peculiarity lies in the fact that between the outlet nozzle and the irrigation means there is a cylindrical flow averaging means, the irrigation means is made with a central channel and a stepwise variable external diameter, through holes are made in the walls of the irrigation means perpendicular to its central channel and uniformly distributed at the same level along its lateral surface, while a hollow conical reflector is fixed above the holes with the expanding part downward, and the central channel of the irrigation means at its outlets The ode narrows cone-shaped.

In particular, 10-20 holes are made in the walls of the irrigation means.

In particular, the ratio of the wall thickness of the irrigation means in the area of the holes to the diameter of each hole is 1.2-3.0.

In particular, the angle of the cone of the reflector is 45-75 °.

In particular, to increase the uniformity of the flow of extinguishing agent in the central part of the protected area, a screw with or without a central hole having a slope angle of 30-60 ° is installed in front of the cone-shaped narrowing of the central channel of the irrigation means.

In particular, the destructible membrane is pressed to the neck with a washer equipped with a cylindrical catcher of the cut-off part of the membrane and having a hole with a sharp edge directed towards the membrane.

In particular, a gas generating charge installed in a sealed housing of a gas generating device is placed in an intermediate sealed thin-walled housing.

In particular, as a liquid fire extinguishing agent contains water, or aqueous solutions, or liquid fire extinguishing agents, or mixtures thereof.

A comparative analysis shows that the claimed fire extinguishing module differs from the closest analogue in the different design of the multi-channel sprinkler; the presence of a washer that compresses the destructible membrane, with a sharp edge designed to cut off the central part of the membrane in the form of a round disk, with a cylinder trap installed in the washer to catch the cut part of the membrane in order to prevent overlapping of the passage section of the filter element (this device is not provided for in the prototype ); the presence of an intermediate sealed thin-walled case in order to further protect the charge from moisture and fixation of equipment elements (the prototype does not have such a case); the presence of a means of averaging the flow of extinguishing agent.

It is a combination of features that are distinctive from the prototype with the remaining essential features of the claimed solution that made it possible to achieve the above technical result, which cannot be achieved by the known module and solve the problem.

The proposed fire extinguishing module with finely sprayed water is illustrated by graphic images:

FIG. 1 - general view of the fire extinguishing module;

FIG. 2 is a longitudinal section through a node A in FIG. one.

The fire extinguishing module contains a sealed enclosure 1, inside of which there is a fire extinguishing agent 2 in the form of water, aqueous solutions or a fire extinguishing liquid or mixtures thereof. Fire extinguishing agent 2 fills the volume of the module housing up to 80-92%. In the upper part of the module housing 1, a gas-generating device 3 is installed, which is a gas source 3 with a housing 4 with a gas-generating charge 6 and an electrically starting element 7 installed and fixed in an intermediate thin-walled housing 5 (for example, made of tin). The module is made to be suspended by a bracket 8. The lower part of the housing 1 of the module is equipped with a neck 9, at the output end of which, by means of a nut 10, an outlet nozzle 11 is mounted with a destructible membrane 12 and a filter element 13. Times the collapsible membrane 12 is pressed against the neck 9 by means of a washer 14 with a sharp edge 15. In the washer 14 there is a cylindrical catcher 16 of the cut-off part of the membrane 12, made, for example, in the form of a rod or rod. The bottom part of the outlet nozzle 11 is equipped with a means 17 for averaging the flow of extinguishing agent after it passes through the filter element 13. The means 17 for averaging the flow are made in the form of a cylinder, to the lower part of which is attached (for example, by means of a thread) an irrigation liquid extinguishing medium 18, which is a cylinder with a central channel 19 and a stepwise variable external diameter. The walls of the irrigation means 18 are provided with through holes 20, perpendicular to its central channel and uniformly distributed at the same level along its lateral surface. Above the openings 20, a hollow conical reflector 21 is fixed with the expanding part down. The central channel 19 of the irrigation means 18 at its outlet tapers in a cone-shaped manner 22. Before the cone-shaped narrowing 22 of the central channel 19 of the irrigation means 18, a screw 23 is installed.

It is preferable to make 10-20 holes 20. When the number of holes is less than 10, there is a significant uneven distribution of the finely dispersed stream of liquid fire extinguishing agent 2. When the number of holes is more than 20, there is no increase in the uniformity of the distribution of the flow of liquid fire extinguishing agent 2.

In the event of an unauthorized increase in pressure inside the housing 1 of the module, the claimed design provides for the presence of a safety valve (not shown conditionally), fixed, for example, by nut 24.

The proposed fire extinguishing module operates as follows. Using bracket 8, the module is mounted above the area to be protected. When applying an electrical impulse to the conductor terminals of the electric starting element 7, the gas generating device 3 is triggered, followed by gas generation. Upon reaching the gas pressure module in the housing 1 corresponding to the opening level of the membrane 12, its central part is cut off in the form of a circle, which is retained by the cylindrical trap 17, thereby eliminating the overlap of the passage section of the filter element 13. The liquid extinguishing agent 2 under pressure enters the outlet nozzles 11, is cleaned by passing through a filter element 13 (combustion products of a gas-generating charge 6, an oxide film formed on a liquid extinguishing agent 2 during storage of the module). Then the liquid extinguishing agent 2 enters the interior of the means 17 for averaging its flow and then to the multi-channel irrigation means 18. The liquid extinguishing agent passing through the holes 20 on the side surface of the irrigation means 18 is formed into a finely sprayed stream with a given spray angle using a hollow conical reflector 21. When in contact with the reflector 21, the jets of the liquid extinguishing agent 2 are divided into droplets up to 150 microns in size, but enough the dense arrangement of the holes 20 creates, after contact with the reflector 21, a finely atomized stream that ensures uniform distribution of the extinguishing agent 2 over the area to be protected. Considering that the fluid moves along the channels of the openings 20 and along the surface of the reflector 21 with virtually no hydraulic losses, the flight speed of the droplets in the fine spray stream outside the module is maximum, which is a sufficient condition for the droplets of the extinguishing agent to overcome 2 convection flows when they penetrate the combustion zone. To ensure uniform irrigation of the entire protected area, part of the liquid extinguishing agent 2 through the cone-shaped narrowing 22 of the central channel 19 of the irrigation means 18 enters the central zone of the protected area. To twist the liquid extinguishing agent 2 before the cone-shaped narrowing 22 of the central channel 19 of the irrigation means 18, a screw 23 can be installed, which ensures the creation of a finely sprayed stream of extinguishing agent 2 expanding in space above the central part of the protected area, rather than a narrow stream.

Tests have shown that the inventive module, equipped with 13.5 dm ^{3 of} liquid extinguishing agent, allows you to reliably extinguish burning model fires in an area of up to 30.2 m ² .

The prototype, equipped with 13 dm ^{3 of} extinguishing agent, according to the passport for a commercially available product, allows you to extinguish fires on an area of up to 19.6 m ² .

The inventive module has a higher fire extinguishing ability compared to the prototype and, accordingly, higher fire extinguishing efficiency, structurally ensuring the exclusion of integrity and rapid loss of flow rate of the liquid extinguishing agent outside the module. When using the module of the claimed design, there is no need to extinguish the source of fire using other fire extinguishing devices.

Thus, the proposed fire extinguishing module is practically feasible, it allows to satisfy a long-existing need for solving the problem.

Claims (8)

1. Fire extinguishing module containing a multichannel irrigation agent, providing a finely dispersed stream of liquid fire extinguishing substance, which equips a sealed enclosure equipped with a gas generating device with a gas generating charge in the upper part and equipped with a neck at the output end of which is equipped with a destructible membrane and fitted with a nut and the filter element of the exhaust nozzles, characterized in that between the exhaust nozzle and the irrigation means is placed cylindrically flow averaging means, irrigation means are made with a central channel and stepwise variable external diameter, through holes are made in the walls of the irrigation means perpendicular to its central channel and uniformly distributed at the same level along its side surface, while a hollow conical reflector is fixed above the holes with the expanding part downward , and the central channel of the irrigation means at its exit is tapered narrower. 2. The module according to claim 1, characterized in that 10-20 holes are made in the walls of the irrigation means. 3. The module according to claim 1, characterized in that the ratio of the wall thickness of the irrigation means in the area of the holes to the diameter of each hole is 1.2-3.0. 4. The module according to claim 1, characterized in that the angle of the cone of the reflector is 45-75 °. 5. The module according to claim 1, characterized in that before the cone-shaped narrowing of the central channel of the irrigation means there is a screw with or without a central hole having a slope angle of 30-60 °. 6. The module according to claim 1, characterized in that the destructible membrane is pressed to the neck with a washer equipped with a cylindrical catcher of the membrane to be cut off and having a hole with a sharp edge directed towards the membrane. 7. The module according to claim 1, characterized in that the gas-generating charge installed in the sealed housing of the gas-generating device is placed in an intermediate sealed thin-walled housing. 8. The module according to claim 1, characterized in that the liquid fire extinguishing substance contains water, or aqueous solutions, or liquid fire extinguishing substances, or mixtures thereof.

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