RU167825U1 - FIRE EXTINGUISHING MODULE THIN SPRAYED LIQUID - Google Patents

Abstract

The utility model relates to fire fighting equipment. The module for extinguishing a finely divided liquid contains a sealed enclosure made in the form of a horizontally oriented cylinder with convex ends, filled with a fire extinguishing liquid with the formation of free space above it. A gas generator with a gas-generating charge is installed in the upper part of the body, made in the form of a vertically oriented glass mounted in the middle part of the cylinder, while the openings for the exit of the products of combustion of the gas-generating charge are made in the upper part of the glass and hermetically sealed by the destructible cover plate. An outlet pipe is installed in the lower part of the casing, which is welded into the casing from the side of one of the convex ends, its intake section is located in the casing and has a downward bend, and the outer section is vertical, while the destructible membrane and filter element are sequentially installed in the outer section of the outlet branch pipe. The filter element is made in the form of a perforated cylinder with a blank bottom, installed in the outer section of the outlet pipe with the formation of an annular gap between the wall of the latter and the perforated cylinder for the passage of the extinguishing fluid. A mesh shell is mounted on the outer surface of the perforated cylinder.

Description

The utility model relates to fire fighting equipment, and more specifically to stationary equipment with tanks for supplying a fire extinguishing agent, mainly finely sprayed water, and can be used to extinguish fires at industrial, warehouse and domestic facilities both as part of automatic fire extinguishing installations and autonomously .

A fire extinguishing installation is known from the prior art, comprising a container with a neck cover in which openings with safety membranes are made and a trigger mechanism and a pipe with spray nozzles are fixed, a perforated housing is fixed under the neck, in which a solid fuel charge of the fire extinguishing aerosol composition is installed (see, Pat. RU, CL A62C 3/00, No. 2050866, published December 27, 1995). A disadvantage of the known installation is the exit from it of hot gaseous and solid products of charge combustion, which are able to resume the flame burning of the residual focus.

A known module for extinguishing a finely dispersed extinguishing liquid, containing a body filled with a fire extinguishing liquid with the formation of free space above it, a chamber with a gas generator is installed in its upper part, as well as a glass in which a chamber is placed with the formation of an annular cavity between them, filled with a microencapsulated phlegmatizer and communicating with the space above the extinguishing liquid, while in the lower part of the module housing there is an outlet nozzle with a diaphragm (see US Pat. RU, CL A62C 35/00, No. 24947 80, published 10/10/2013). The module is characterized by an effective reduction in the concentration of working gases and solid combustion products in the free space of the housing. A disadvantage of the known fire extinguishing module is the complication of the design and operating conditions through the use of microcapsules of a phlegmatizer and a combustion inhibitor.

A fire extinguishing module is known, which contains an irrigation means, which is equipped with a sealed housing, equipped at the top with a gas generating device with a gas generating charge and equipped at the lower part with a neck, at the outlet end of which a discharge nozzle equipped with a destructible membrane and filter element is mounted, a gas generating charge installed in sealed casing of a gas generating device, placed in an intermediate sealed thin-walled casing, the destructible membrane is pressed against the mountains using 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 (see, Pat. RU, CL A62C 35/00, No. 2588486, published 06/27/2016). This well-known technical solution is made as a prototype, as the closest analogue in technical essence and achieved result. The fire extinguishing module according to the prototype is characterized by high fire extinguishing efficiency with a finely dispersed liquid in various conditions.

The disadvantage of the prototype is the increased likelihood of partial or even complete blockage of the filter element by the combustion products of a gas-generating charge, an oxide film and fragments of a destructible membrane. This drawback is due to the spherical shape of the housing and the lower location of the outlet neck in which insoluble products of storage and functioning of the module inevitably settle and accumulate. In addition, the gas-generating charge is installed and fixed in an intermediate thin-walled case made of sheet metal, which, when the charge is burned, is destroyed with the formation of metal particles that are also ejected through the outlet neck and deposited on the filter element. These disadvantages of the prototype significantly reduce its functional and parametric reliability, limit the scope.

The utility model is aimed at achieving a technical result, which is expressed in increasing the reliability of the fire extinguishing module with a finely divided liquid by reducing the number and size of solid particles in the finely dispersed stream of liquid extinguishing agent and preventing clogging by insoluble formations of the supply lines. Ultimately, the specified technical result allows to increase the efficiency of fire fighting and expand the scope of the module. In the utility model, all the positive properties of the prototype are maximally preserved, the most important of which are autonomy, tightness, speed and efficiency.

The specified technical result is achieved by the fact that the fire extinguishing module with a finely dispersed liquid, including a sealed enclosure filled with a fire extinguishing liquid with the formation of free space above it, a gas generator with a gas generating charge is installed in the upper part of the housing, and an outlet pipe with a destructible membrane and a filter element is installed in the lower part, differs from the prototype in that the casing is made in the form of a horizontally oriented cylinder with convex ends, the gas generator is made in the form of a vert of a gas-oriented nozzle mounted in the middle part of the cylinder, with openings for the exit of the products of combustion of the gas-generating charge made in the upper part of the nozzle and hermetically sealed by the destructible cover, the outlet pipe is welded into the housing from one of the convex ends, its intake section is located in the housing and has downward bending, and the outer portion is vertical, while the destructible membrane and the filter element are sequentially installed in the outer portion of the exhaust pipe , The filter element is designed as a perforated cylinder with a closed bottom, mounted in the outer portion of the outlet to form a wall between the latter and the perforated cylinder an annular gap for the passage of extinguishing fluid, wherein the outer surface of the perforated cylinder shell is mounted net.

The optimal from the point of view of achieving the specified technical result is the implementation of destructible lining of aluminum foil in the form of a belt covering the glass, and destructible membrane of paronite with a thickness of 1-2 mm.

In all cases of the implementation of the described module, the height of the mesh shell N should preferably satisfy the condition

H> D / (4K _pr )

where D is the diameter of the perforated cylinder;

To _CR - the permeability of the filter element equal to the ratio of the perforation area to the total wall area of the perforated cylinder.

The most important task to be solved when developing fire extinguishing means equipped with a gas-generating device with a gas-generating solid fuel charge is to prevent solid particles from entering the spraying means and directly into the finely dispersed stream of liquid fire-extinguishing substance, which impairs the quality of the spray and reduces the efficiency of fire extinguishing. This problem is solved by the most complete gravitational and dynamic deposition and capture of large and small solid particles at the stage of their formation and initial motion, i.e. in a gas generating device, tank and filter.

In the developed design of the fire extinguishing module with a finely dispersed liquid, the main source of the formation of solid particles is a gas-generating charge, during the combustion of which, in addition to gaseous products, a multicomponent condensed phase is formed in the gas generator, the particles of which are characterized by the ability to settle on the surface under the influence of gravitational and inertial forces. The primary localization of solid particles is carried out in the body of the gas generator. When a gas-generating charge is burned, incandescent particles of a condensed phase are thrown onto the cooled walls of the glass, coagulated during cooling and showered to the bottom of the glass under their own weight. Due to the shape and vertical location of the glass, as well as the upper location of the openings for the exit of the products of combustion of the gas-generating charge, solid particles are not carried away by the flow of gas exiting through the openings. Inside the body of the gas generator, the bulk of the particulate matter is localized. Smaller and volatile solid particles are sprayed in free space above the mirror of the extinguishing fluid evenly due to the location of the gas generator in the middle of the cylinder and the horizontal arrangement of the sealed housing itself. As the extinguishing fluid is consumed, the solid particles suspended in it uniformly settle on the walls of the sealed enclosure and are not discharged through the outlet pipe, since its intake section is located on the convex end side.

The optimal design of destructible linings and membranes in combination with a rational combination of materials and thicknesses allows avoiding the formation of freely moving fragments during their breakthrough.

Solid particles, which, nevertheless, fall into the exhaust pipe together with the flow of extinguishing fluid, are held by the filter element. The vertical arrangement of the outer section of the exhaust pipe together with the filter element installed in it creates the effect of self-cleaning and uniform filling of the latter. The cylindrical shape of the filter element has an advantage in comparison with a flat, limited diameter of the outlet pipe, since it can have a more developed effective surface. The area of the mesh shell is the most important parameter that ensures the reliability of the filtering of the extinguishing fluid. The larger the surface area of the filter surface, the less its hydraulic resistance and the likelihood of clogging. The diameter of the mesh shell is limited by the diameter of the perforated cylinder D. The determining parameter of the size of the mesh shell, which is equal to the area of the perforated cylinder, is its height N. The permeability coefficient of the filter element K _pr (throughput of the wall of the perforated cylinder) is determined by the ratio of the total area of its perforations S _perforated to the total area of the wall of the perforated cylinder, which is physically N⋅π D. On the other hand, the total area of the perforations _{of perforated} S must exceed loschadi cross section of the filter element which is physically πD ^2/4. From the foregoing, the inequality

To _direct ⋅N⋅π D> πD ^2/4,

whence the condition for determining the height of the mesh shell N

H> D / (4⋅K _pr ).

The height of the mesh shell that meets the specified condition is sufficient to reliably prevent the ingress of solid particles into the spraying means and directly into the finely dispersed stream of liquid extinguishing agent.

Thus, all the signs of a fire extinguishing module that are distinguished from the prototype by a finely divided liquid are necessary and sufficient to achieve a technical result, namely, to increase the reliability of operation, as well as the fire extinguishing efficiency and thereby expand the scope of the module. The module of fire extinguishing with a finely dispersed liquid, characterized by the described set of essential features, is new and industrially applicable.

The technical solution is illustrated by drawings. In FIG. 1 shows a general view of a fire extinguishing module with a finely divided liquid; FIG. 2 - gas generator; FIG. 3 - section of the outer section of the exhaust pipe with destructible membrane and filter element.

The fire extinguishing module with a finely divided liquid contains a sealed housing 1, which is made in the form of a horizontally oriented cylinder with convex ends. The housing 1 of the fire extinguishing module is filled with fire extinguishing fluid 2 with the formation of free space above it. As a fire extinguishing fluid 2 use a solution of a foaming agent in drinking water according to GOST R 51232-98. In the upper part of the housing 1 in the middle of its cylinder through the neck with a flange (not shown in the figures) a gas generator 3 is installed. The combustion chamber of the gas generator 3 is a vertically oriented glass 4 with a cover 5, while the glass 4 is almost completely located inside the sealed housing 1 and immersed in fire extinguishing liquid 2. Inside the cup 4 of the gas generator 3 there is a multi-cup gas-generating charge 6, the number of checkers of which is determined by the volume of the fire-extinguishing liquid 2. Multi-cup design of the charge 6, composed of several single-type simple checkers, provides the ability to vary the flow characteristics in the widest range. In the upper part of the wall of the glass 4, above the level of the extinguishing liquid 2, openings 7 are made for the exit of the products of combustion of the gas-generating charge 6. The holes 7 are located at the same level at an equal distance from each other. To ensure the tightness of the gas generator 3, the holes 7 are covered by a destructible plate 8, which is made of aluminum foil in the form of a belt covering the glass 4. The destroyed plate 8 is a piece of aluminum tape 0.08 mm thick glued on the outside of the glass 4. In the threaded hole of the cover 5 mounted electric initiator 9.

At the bottom of the sealed enclosure 1, an outlet pipe 10 is placed, which is passed through a through hole in one of the convex ends and is fixed therein by a welding method (welded). The intake section 11 of the exhaust pipe 10 is located inside the housing 1 and has a downward bending. The outer section 12 of the exhaust pipe 10 is arranged vertically, and a destructible membrane 13 and a filter element 14 are sequentially installed in it. The destructible membrane 13 is a 1-2 mm thick paronite washer that seals the passage section of the outer section 12 of the exhaust pipe 10. The filter element 14 has the shape of a glass with a perforated cylindrical part and a blank bottom. A mesh shell 16 is rigidly mounted on the outer surface of the perforated cylinder 15. The height of the mesh shell 16 is indicated in the figure by the letter N. The filter element 14 faces the bottom of the flow of extinguishing fluid, and an annular gap is formed between the wall of the outer section 12 of the exhaust pipe 10 and the perforated cylinder 15 fire extinguishing fluid. The diameter of the perforated cylinder 15 in the figure is indicated by the letter D. To give rigidity to the exhaust pipe 10, it is fixed to the housing 1 by a bracket 17. The module is equipped with technological fittings 18 for attaching a safety valve, pressure sensor, device for controlling the level of extinguishing liquid, etc.

The module extinguishing a finely divided liquid operates as follows.

The equipped fire extinguishing module is mounted at the facility by means of special fasteners (not shown in the figures). A distribution pipe leading directly to the nozzles (not shown in the figures) is connected to the exhaust pipe 10. An electric initiator 9 is installed in the threaded hole of the cover 5 and connected to the ignition circuit.

The fire extinguishing module is triggered by force or automatically when the primary signs of fire appear. Forced start can be carried out manually by the operator, and in automatic mode by command from the starting device. On command, an electrical impulse is applied to the electrical leads of the electric initiator 9 and the force of the flame is ejected towards the gas-generating charge 6. In the gas-generator 3, ignition and all-round burning of the checkers with the formation of gaseous products of combustion, which under pressure break through the destructible pad 8 and fill the free space above the openings 7 extinguishing liquid 2. A significant part of the condensed products of combustion of the gas-generating charge 6 settles on the bottom of the gas-generator 3. Upon reaching uu certain pressure level in the housing 1, the frangible diaphragm 13, which until this point provide a reliable seal body 1 breaks and extinguishing liquid flow is directed through the outlet conduit 10 to the distribution conduit to the nozzles. The final separation of the solid particles is carried out by the mesh shell 16 of the filter element 14, which prevents the ingress of solid particles into the spraying means and directly into the finely dispersed stream of liquid extinguishing agent. In the process of displacing the extinguishing fluid 2 from the housing 1, a significant part of the solid particles manages to settle on its walls. The completeness of the consumption of extinguishing fluid 2 from the housing 1 provides a curved shape of the intake section 11 of the exhaust pipe 10.

The fire extinguishing module with a finely dispersed liquid is designed to extinguish fires at industrial, warehouse and domestic facilities both as part of automatic fire extinguishing systems and independently provide extinguishing and localization of fires of classes A and B in accordance with GOST 27331. The advantage of the module, according to the utility model, is its increased reliability and efficiency, which are confirmed by tests. During operation, the module does not require routine maintenance and inspections. The module has an all-climatic design, i.e. it is suitable for operation in all macroclimatic regions, on land and at sea, in enclosed spaces without artificial regulation of climatic conditions in the range of ambient temperatures from minus 30 ° С to plus 5 ° С.

The above examples of the implementation of the module of extinguishing with a finely divided liquid are not exhaustive and are given only for the purpose of explaining the utility model and confirming its industrial applicability. Specialists in this field can improve it and / or implement alternative options within the essence of this utility model, as reflected in the description and drawings.

Claims (7)

1. Fire extinguishing module with a finely dispersed liquid, including a sealed enclosure filled with a fire extinguishing liquid with the formation of free space above it, a gas generator with a gas-generating charge is installed in the upper part of the housing, and an outlet pipe with a destructible membrane and a filtering element in the lower part, characterized in that the housing made in the form of a horizontally oriented cylinder with convex ends, the gas generator is made in the form of a vertically oriented glass mounted in the middle of the qi lindra, while the openings for the exit of the products of combustion of the gas-generating charge are made in the upper part of the glass and hermetically sealed by the destructible cover, the exhaust pipe is welded into the body from the side of one of the convex ends, its intake section is located in the body and has a downward bend, and the outer section is located vertically, while the destructible membrane and the filter element are sequentially installed in the outer section of the exhaust pipe, the filter element is made in the form of a perforated cylinder with g uhim bottom mounted in the outer portion of the outlet to form a wall between the latter and the perforated cylinder an annular gap for the passage of extinguishing fluid, wherein the outer surface of the perforated cylinder shell is mounted net. 2. The module according to claim 1, characterized in that the destructible pad is made of aluminum foil in the form of a belt covering the glass. 3. The module according to claim 2, characterized in that the destructible membrane is made of paronite with a thickness of 1-2 mm. 4. The module according to any one of paragraphs. 1-3, characterized in that the height of the mesh shell N satisfies the condition H> D / (4K _pr ) where D is the diameter of the perforated cylinder; To _CR - the permeability of the filter element equal to the ratio of the perforation area to the total wall area of the perforated cylinder.

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