RU2485988C1 - Fire extinguishing module - Google Patents

Abstract

FIELD: fire-prevention facilities.

SUBSTANCE: invention relates to fire-fighting equipment, and more particularly to automated devices of 3D fire fighting of combined action. The fire extinguishing module comprises a container, a gas generator, a solid fuel pyrotechnic stick and an initiation unit. The container is filled with fire extinguishing agent, primarily, fluorinated refrigerant. The container is made in the form of a housing with bottoms one of which has an opening. The housing is provided with low-melting hollow cylindrical insert which has end sealing flanges. The insert is mounted in the housing opening by the upper flange. The gas generator has nozzles and is installed in the housing by inserting the lower insert flange. The upper part of the gas generator comprises nozzles and the initiation unit and is placed in the cavity of the insert. The lower part of the gas generator with a solid fuel pyrotechnic stick is immersed in the fluorinated refrigerant. The gas generator nozzles are made in the lateral surface of the gas generator and focused on the cylindrical surface of the insert.

EFFECT: invention provides the ability to obtain a fire extinguishing mixture with low temperature, high optical transparency and minimal content of solid particles.

11 cl, 2 dwg

Description

The invention relates to fire fighting equipment, and more particularly to autonomous volumetric fire extinguishing devices, and can be used for volumetric or local-volumetric fire extinguishing in closed or semi-closed rooms, including technically complex objects with a dense arrangement of equipment, mainly vehicle compartments, electrical panels , technological installations, objects saturated with electronics.

A fire extinguisher is known from the prior art, comprising a housing with means for discharging a fire extinguishing agent, a gas generator with a pyrotechnic charge installed inside it and a cavity inside it, and a gas generator initiator including an igniter layer, a gas generator installed in the upper part of the fire extinguisher, and a cavity in the upper part of the gas generator and without contact with the pyrotechnic charge, it includes a gas generator initiator containing a metal capsule, an elastic seal above it, see US Pat. RU, cl. A62C 13/22, No. 2118553, published 09/10/1998. The invention provides increased reliability of starting a fire extinguisher in operation while maintaining its safety during operation. A disadvantage of the known device is the impossibility of its use as a gas fire extinguisher with aerosol-forming pyrotechnic charge. In addition, the use of powders as a fire extinguishing agent is unacceptable in technically complex densely arranged objects, since they clog the equipment located in the protected object and cause significant damage to it. The use of such devices in inhabited compartments of special vehicles (armored vehicles, all-terrain vehicles, tanks, etc.) is also unacceptable due to the fact that when the fire extinguishing system is triggered, crew evacuation is difficult due to poor visibility in the compartment.

Known manual liquid fire extinguisher, comprising a housing for a fire extinguishing liquid with an outlet pipe and a locking and starting device interacting with a gas generating means for generating working pressure, including a launch unit based on an initiating element with a liner of a gas generating composition and a decomposition chamber coaxially connected to it with a gas generating charge and holes for the exit of gas-generating gas, while the decomposition chamber is equipped with a safety valve in the form of a cylindrical cap, a sealant by means of an elastic ring fixed in the groove of the chamber in the chamber in the initial state of the fire extinguisher, see US Pat. RU, cl. А62С 13/22, No. 2079315, published on 05/20/1997. EFFECT: creation of safe service conditions and expansion of the range of technical applicability of a fire extinguisher. A disadvantage of the known liquid fire extinguisher is the displacement scheme for supplying a fire extinguishing substance, which eliminates the participation in the process of extinguishing a gas-generating gas, which in themselves can have a significant flame-retardant effect. In addition, fire extinguishers with a displacement system are characterized by incomplete use of a fire extinguisher.

A fire extinguishing module is known, including a cylindrical tube closed at its ends and filled with a fire extinguishing agent in a liquid or gaseous state under pressure that is excessive in relation to the environment, and a tube opening mechanism made in the form of a hollow body with a lid with a central hole fixed to its free end moreover, at the bottom of the housing facing the tube, a channel is made, communicating with the annular groove, and inside the housing is a solid fuel pyrotechnic checker, and in the holes the housing cover is mounted initiating node cm. Pat. RU, cl. А62С 35/00, No. 2383373, published March 10, 2010. The fire extinguishing module is characterized by increased efficiency and speed due to the installation of a tube opening mechanism anywhere along its length, and the provision of a forced manual or automatic start when the first signs of fire are manifested. The extinguishing mixture has a low temperature, high efficiency, contains an insignificant amount of solid phase, the device is convenient in operation and easily fits into densely arranged objects. This well-known technical solution is made as a prototype, as the closest analogue in technical essence and achieved result.

The disadvantage of the prototype is the need to increase the length of the tank and the number of gas generators when trying to install the product on objects with increased protected volume, which leads to an excessive increase in the expiration time of the extinguishing mixture and the inability to simultaneously start all gas generators. As a result, the speed and efficiency of fire fighting are significantly reduced. For a number of facilities, especially for military purposes, and at transportation facilities with an increased number of crews, such a decrease in speed is unacceptable. In addition, the fire extinguishing tube requires careful tracing when laying with the maximum approximation to the places of the likely occurrence of the fire. These disadvantages of the prototype significantly reduce efficiency and limit its scope.

The present invention is aimed at achieving a technical result, which is expressed in providing the possibility of obtaining a fire extinguishing mixture with a low temperature, high optical transparency and a minimum solids content. In addition, the need to maintain a constant boost pressure of the freon in the tank on board the vehicle is eliminated. Ultimately, the specified technical result allows to increase the scope of the fire extinguishing module. In the fire extinguishing module, all the positive properties of the prototype are maximally preserved, the most important of which is the use of freon as a fire extinguishing agent.

A positive result is achieved in that the fire extinguishing module, which includes a container filled with a fire extinguishing agent, mainly freon, and a gas generator having nozzles, a solid fuel pyrotechnic checker and an initiation unit, differs from the prototype in that the tank is made in the form of a body with bottoms, in one of which has a hole, it is equipped with a low-melting hollow cylindrical insert having end sealing flanges installed in the housing hole through the upper flange, a gas generator is mounted in the housing by means of the lower flange of the insert in such a way that its upper part containing the nozzles and the initiation unit is placed in the cavity of the insert, and the lower part containing the solid fuel pyrotechnic checker is immersed in freon, while the nozzles of the gas generator are made in the side surface of the gas generator and directed on the cylindrical surface of the insert.

In all versions of the described module, it is preferable to make a solid fuel pyrotechnic checker from an aerosol-forming extinguishing composition, and a low-melting insert from polyamide. Optimal from the point of view of achieving the indicated technical result is the execution of ring thinning on the cylindrical surface of the insert opposite the nozzles, and in order to stiffen the insert, a holder can be mounted in it, the shape of which repeats the shape of the insert, while windows are made on the cylindrical surface of the holder opposite the nozzles. It is preferable to equip the module with a bursting membrane for blocking nozzles, a coating of heat insulating material, which is applied to the lower part of the gas generator, with a perforated cover mounted on the housing with the possibility of blocking the opening in the bottom, an insert made of a gas-permeable porous material or of a granular cooling composition mounted in a perforated the lid. Alternatively, the module may be provided with a guide pipe for supplying the extinguishing mixture to the protected volume, mounted on the housing and connected to an opening in the bottom. All of the characteristics of the fire extinguishing module that are distinguishing from the prototype are aimed at obtaining a technical result, namely, expanding the scope of its application.

The fire extinguishing module, characterized by the described set of essential features, is new, industrially applicable and has an inventive step.

The technical solution is illustrated by drawings.

Figure 1 shows in section a General view of the fire extinguishing module; figure 2 is a fragment of a fire extinguishing module in section, equipped with a guide pipe for supplying a fire extinguishing mixture in a protected volume.

The fire extinguishing module consists of a container made in the form of a sealed enclosure 1 filled with a fire extinguishing agent 2. As a fire extinguishing agent 2, mainly, refrigerant in liquid state can be used. In a charged state, the extinguishing agent 2 (freon) is in the housing 1 under the pressure of saturated vapor, or under excessive pressure of nitrogen injected during the assembly of the fire extinguishing module. An opening is made in the upper bottom of the housing 1, in which a low-melting hollow cylindrical insert 3 is mounted. The insert 3 is made, for example, of polyamide, has a cylindrical part, upper 4 and lower 5 end sealing flanges. The insert 3 is mounted by means of the upper flange 4 into the opening of the housing 1 with the formation of a sealed flange connection. In the housing 1, by means of the lower flange 5 of insert 3 with the formation of a sealed flange connection, a gas generator 6 is installed. The upper part of the gas generator 6, containing nozzles 7 and an initiation unit 8 (for example, an ETX activator according to TU 7275-253-07513406-2007), is placed in the cavity of the insert 3, and the lower part containing the solid fuel pyrotechnic checker 9 is immersed in the extinguishing agent 2 (freon). The nozzles 7 of the gas generator are made in the side surface of the gas generator 6 and directed to the inner cylindrical surface of the insert 3. On the outer cylindrical surface of the insert 3 opposite the nozzles 7, an annular local thinning 10 of the wall is made. To stiffen the insert 3 and to securely mount the gas generator 6, a holder 11 of durable material is mounted in the insert 3. The shape of the holder 11 repeats the shape of the insert 3. On the cylindrical surface of the holder 11 opposite the nozzles 7 there are windows. The nozzles 7 are covered by a bursting disc 12. The solid fuel pyrotechnic checker 9 is made of an aerosol-forming fire extinguishing composition APIS according to TU4854-001-96497910-2006 and has a cylindrical shape. The lower part of the gas generator 6 has a coating 13 of a heat insulating material (paronite, fiberglass or other material with low thermal conductivity), which is deposited on its outer surface, immersed in a fire extinguishing agent 2 (freon).

A perforated hemispherical cover 14 is installed on top of the hole in the bottom of the housing 1, in which an insert 15 can be placed made of a gas-permeable porous material (for example, heat-resistant ceramic such as α-corundum), or of a granular cooling composition (for example, TU 4854-003-96497910-2007). Alternatively, a guide pipe 16 can be installed on top of the hole in the bottom of the housing 1, designed to supply the extinguishing mixture to the protected volume 17 and at the same time to mount the fire extinguishing module on the wall of the specified protected volume 17 (as shown in figure 2). By means of a perforated cover 14, or a guide pipe 16, the fire extinguishing module communicates with the protected volume 17.

The fire extinguishing module operates as follows.

The module is launched automatically or forcefully when the primary signs of fire appear. At startup, an electrical pulse with a current strength of 0.1 to 1A is supplied to the electrical terminals of the initiation unit 8. The initiation unit 12, which is triggered when an electric pulse is applied to it, produces a force of flame that ignites a solid fuel pyrotechnic bomb 9 of an aerosol-forming extinguishing composition. The combustion products of the checker 9 under high pressure exiting the nozzles 7 destroy the bursting disc 12 and enter the cavity of the fusible insert 3. The electrical leads of the initiation unit 8 are destroyed, breaking the starting electric circuit, which can serve as a signal to the control system about the module operating. By their thermal and erosive effects, the products of combustion of the checkers 9 through the windows in the holder 11 break through the wall of the cylindrical wall of the insert 3. To accelerate the breakthrough and increase the speed of the product, the wall of the insert 3 at the point of its breakthrough is weakened by ring local thinning 10. In the wall of the insert 3, through holes are formed, through which the extinguishing agent 2 (freon) enters the cavity of the insert 3. In the volume formed by the cavity of the insert 3 and the perforated lid 14, the freon is mixed with the extinguishing aerosol of the combustion products of the checker 9. Chera openings in the perforated cover 14 or on the guide pipe 16 combined extinguishing mixture is fed into the protected volume 17. The presence of aerosol generated during combustion checkers 9, in the combination of extinguishing mixture considerably increases the efficiency of quenching. When using aerosol-forming extinguishing composition as a checker 9, an additional fire extinguishing effect is created due to the inhibitory effect of the aerosol on redox reactions in the gas-flame combustion zone. During operation of the module in explosive atmospheres, the initial force of the flame and condensed products of combustion in the form of sparks in the protected volume 17 is not allowed to break. Slags, resins and other condensed products of combustion of the checkers 9 are filtered by an insert 15 made of a gas-permeable porous material, the porosity of which is selected taking into account the requirements by the purity of the extinguishing mixture. To increase the reliability of spark suppression, instead of a liner 15 of porous material, a liner 15 of a granular cooling composition can be mounted inside the perforated cover 14.

When burning checkers 9, the wall of the gas generator 6 is heated, the rate of evaporation and expiration of the extinguishing agent 2 (freon) increases, which helps to increase fire extinguishing efficiency. To regulate the flow of the extinguishing agent 2 (freon), the lower part of the gas generator 6 immersed in the freon can be partially protected by a coating 13 of heat-insulating material. Through the unprotected coating 13, the gas generator section 6 carries out the most intensive heat exchange with freon, which evaporates more intensively in this zone and its vapor creates pressure displacing the freon from housing 1. Fire extinguishing agent 2 (freon) is safe and non-conductive. Freon does not have harmful corrosive and chemical effects on metals, plastics and electrical equipment, and does not pose a danger to people. After the fire is extinguished, the freon evaporates.

In practice, situations are possible when the fire extinguishing module cannot be installed directly inside the protected volume 17 due to the presence in the latter of aggressive media or an elevated temperature exceeding the permissible operating temperature of the individual structural elements of the module. In this case, the fire extinguishing module is installed behind the wall of the protected volume 17 through the guide pipe 16.

The advantage of the fire extinguishing module is its simplicity, reliability and efficiency. The operation of such a module is not economically and technically fraught with significant costs. The module components can be transported by any means of transport without limiting the range and height, stored in any storage conditions. The system is recommended for use in all climatic zones. Reliability and durability of the fire extinguishing system is confirmed by tests simulating operational loads and accelerated climatic tests.

The examples of the implementation of the fire extinguishing module described above are not exhaustive and are given only for the purpose of explaining the invention and confirming its industrial applicability. Specialists in this field can improve it and / or implement alternative options within the essence of the present invention, reflected in the description and drawings.

Claims (11)

1. Fire extinguishing module, including a tank filled with a fire extinguishing agent, mainly freon, and a gas generator having nozzles, a solid fuel pyrotechnic checker and an initiation unit, characterized in that the tank is made in the form of a housing with bottoms, one of which has an opening, it is equipped with low-melting a hollow cylindrical insert having end sealing flanges installed in the housing hole by means of the upper flange, the gas generator is installed in the housing by means of the lower flange of the insert so so that its upper part containing the nozzle and the initiation unit is placed in the insert cavity, and the lower part containing the solid fuel pyrotechnic checker is immersed in freon, while the gas generator nozzles are made in the side surface of the gas generator and are directed to the cylindrical surface of the insert. 2. The module according to claim 1, characterized in that the solid fuel pyrotechnic checker is made of aerosol-forming extinguishing agent. 3. The module according to claim 2, characterized in that the fusible insert is made of polyamide. 4. The module according to claim 3, characterized in that an annular thinning is made on the cylindrical surface of the insert opposite the nozzles. 5. The module according to claim 4. characterized in that in order to stiffen the insert, a clip is mounted in it, the shape of which repeats the shape of the insert, while windows are made on the cylindrical surface of the clip opposite the nozzles. 6. The module according to claim 5, characterized in that it is equipped with a bursting disc for shutting off the nozzles. 7. The module according to claim 6, characterized in that it is provided with a coating of heat-insulating material, which is applied to the lower part of the gas generator. 8. The module according to claims 1 to 7, characterized in that it is equipped with a perforated cover mounted on the housing with the possibility of overlapping holes in the bottom. 9. The module of claim 8. characterized in that it is provided with a liner made of a gas-permeable porous material mounted in a perforated lid. 10. The module of claim 8, characterized in that it is provided with an insert made of granular cooling composition mounted in a perforated lid. 11. The module according to claims 1 to 7, characterized in that it is equipped with a guide pipe for supplying the extinguishing mixture to the protected volume, mounted on the housing and connected to the hole in the bottom.

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