RU197058U1 - FIRE FIGHTING DEVICE BASED ON SUBMISSION OF 2-COMPONENT FIRE EXTINGUISHING PRODUCT - Google Patents

Abstract

The utility model relates to fire extinguishing techniques, and in particular to extinguishing devices with inorganic quick-hardening foam (BTF) in closed rooms and in open areas when igniting various substances and materials, including solid and liquid combustible substances. The technical result achieved using the proposed utility model is to obtain a foam with a monodisperse structure (stability and uniformity of the size of the bubbles of the foam). The achievement of the specified technical result is ensured by the fact that in fire extinguishing based on the supply of a 2-component fire extinguishing agent, containing pipelines with shut-off and start-up devices for separate supply of components A and B and with the possibility of mixing them in the chamber and foaming, characterized in that the pipelines are located independently of each other, while on the pipeline component A, an additional chamber is installed, covering it from the outside, with component B coming from the corresponding pipeline, and at the end of the pipeline for component A d a cup-shaped nozzle is installed that is configured to separate components A and B separately, holes are made in the central part of the nozzle for component A to exit, holes for component B to exit, holes are made on the peripheral part of the nozzle, coaxially with the nozzle, and a component mixing chamber is arranged in series , foaming nets, confuser and jet shaper, and the holes in the nozzle are made in the direction that provides the possibility of impact of the jets of both comp nents in the volume of the mixing chamber. 2 s.p. f-ly, 2 ill.

Description

The utility model relates to fire extinguishing techniques, and in particular to extinguishing devices with inorganic quick-hardening foam (BTP) in enclosed spaces and in open areas when igniting various substances and materials, including solid and liquid combustible substances.

There is a patent of the Russian Federation for utility model No. 190535, “A fire extinguisher with a U-shaped housing for fire prevention and solid extinguishing” (CL A62C 13/04, publ. 2019). The device comprises a U-shaped housing with placed components of a fire extinguishing agent, means for mixing components A and B, means for creating pressure inside the housing with the ability to pressure out components of the fire extinguishing agent from the housing into means for mixing and foaming components of the fire extinguishing agent. The U-shaped body is made of two vertically oriented cylinders, each of them is covered with a lid on top. Pipelines for separate supply of extinguishing agent in the form of components A and B (pipe in pipe) for feeding into the volume and foaming the mixing mixture are connected to one of the covers. Attached to another cover is a means of creating pressure inside the housing in the form of a generator at a gas pressure of 0.8-1 MPa.

The disadvantages that impede the use of this device include the fact that the known design does not provide a monodisperse structure foam (BTP). Visual analysis shows a large variation in the size of gas-filled bubbles on the foam cut, which negatively affects the operational characteristics of the BTP.

The objective of this utility model is to create a device that provides stable, uniform in structure BTP.

The technical result achieved by using the proposed utility model is to obtain a foam with a monodisperse structure (stability and uniformity of the size of the bubbles of the foam).

The achievement of the specified technical result is ensured by the fact that the fire extinguishing device based on the supply of a 2-component fire extinguishing agent, containing pipelines with locking and starting devices for the separate supply of components A and B and providing the possibility of mixing in the chamber and foaming, characterized in that the pipelines are located independently from each other, while on the pipeline of component A an additional chamber is installed, covering it from the outside, with ensuring the entry of component B from it from at the same time, in the final section of the pipeline for component A, a cup-shaped nozzle is additionally installed, made with the possibility of separate entry of components A and B into it, holes are made in the central part of the nozzle for the component A to exit, for component B to exit, the holes are made according to the peripheral part of the nozzle, coaxial to the nozzle and sequentially located the mixing chamber of the components, foaming mesh, confuser and shaper, and the holes in the nozzle made in the direction providing the possibility of impact of the jets of both components in the volume of the mixing chamber.

The device can be made detachable at the place of installation of the foaming nets, which provides the ability to quickly replace the nets. The device is preferably equipped with locking and starting devices made with the possibility of sequential or simultaneous supply of components A and B, but while ensuring the supply of components to the mixer at the same time.

The proposed utility model is illustrated in the drawing. In FIG. 1 is a sectional general view of the device; FIG. B2 is a sectional general view of the nozzle. The device contains: 1 - a connection fitting for the component A supply arm, 2 - a connection fitting for the component B supply hose, 3 - a component A supply pipe, 4 - a component B supply pipe, 5 - shut-off valves, 6 - a component B intake chamber mounted externally on pipeline 3 of component A. 7 - a nozzle of a cup shape with the possibility of separate entry of components A and B. On the peripheral part of the nozzle 7, holes 8 are made for the exit of component B, in the central part of the nozzle 7 holes 9 are made for the exit of the component A. A mixing chamber 10 of components A and B is installed sequentially and coaxially with the nozzle 7, then foaming grids 11 are placed. A confuser 12 and then a jet shaper 13 are also sequentially and coaxially installed. It is more technologically advanced to make a detachable connection between the chamber 11 and the confuser 12 (between them - grids 11). 14 - the flow of extinguishing foam is conventionally shown.

The principle of operation of the proposed device. Through the hoses (not shown in the Fig.) Attached to the fittings 1 and 2, component A and component B are injected under pressure. Component B through the pipe 4 after opening the shut-off valve 5 enters the hollow part of the chamber 6, passing through the group of holes 8 of the nozzle 7 , enters the mixing chamber 10. Component A through the pipe 3 after opening the shut-off valve 5 passes through the group of holes 9 of the nozzle 7 and simultaneously with the component B enters the mixing chamber 10. In the mixing chamber 10, the jets of components A and B collide, where chemical begins I am the reaction of the interaction of components with the formation of a sol-gel transition. This stream, passing through the foam-forming nets 11, being under pressure, tears off the liquid films of the solution, forming cells of the foam bubbles. Foam enters the confuser 12, passing along the guide portion 13 is formed into a stream of compression foam stream 14 and is fed to the focus.

As component A, a known composition is used (for example, as in the prototype) based on an aqueous solution of sodium silicate (TU 2145-044-05744685-01) and a surfactant foaming agent, for example, PO-6CT (TU 02514805744685-98 As a component B, ash activating agents (hardeners of initial solution A) are used, for example, aqueous solutions of hydrochloric acid, acetic or ammonium chloride, and gaseous products, for example, carbon monoxide, sulfur dioxide, and even exhaled air can also be used.

The proposed device was tested when applying a two-component system in order to obtain a jet of quick-hardening foam. The authors note that during compression mixing, which takes place in the volume of each individual stream, uniform mixing, homogenization, foaming and the formation of uniform in size bubbles (cells) of foam on the foam-forming nets are ensured. Subsequently, in the confuser, it becomes possible to quickly eject the foam into the jet shaper, and then the stream of compression foam is supplied to the source.

The tests were conducted in an open area at an ambient temperature of -8 degrees C. An A1 class hearth was installed on the turntable. The working pressure is 0.5 MPa, the volume of component A is 8.5 l, the operating time of the system is 22 s, the burning of the focus is 4 minutes.

Equipment used: gasoline - 1.1 l, class A hearth according to GOST 51057-2001, rotary barrel, A-90 gearboxes.

Component A - used the composition described in the prototype: a mixture of an aqueous solution of 50%, sodium silicate, and 6%, a synthetic hydrocarbon blowing agent, with component B - a 50% aqueous solution of acetic acid, with a mass ratio of an aqueous solution of sodium silicate with foaming surfactant -active substance and an aqueous solution of acetic acid 10: 1.

Component B - in the first experiment acetic acid ..., in the second experiment, balloon gas CO.

In both experiments, quenching was achieved at the 10th second, no re-ignition was observed (waiting time -20 minutes). Foam jet range of at least 8 meters.

Foam was formed on 3 grids with a mesh size of 0.5 mm, the dispersion of the foam from 0.1 to 0.5 mm.

Analysis of the foam obtained by the prototype visually allows you to determine the dispersion dispersion of the foam cells from 0.2 to 2.0 mm, which, apparently, does not allow to reach the jet range of the prototype structure over 6 m. The applicable foaming due to ejection (suction) air and uneven pre-mixing does not provide a monodisperse structure of the BTP.

The proposed device when used allows you to obtain the specified technical result and meets the criteria of patentability in relation to the protection of utility models.

Claims (3)

1. Fire extinguishing device based on the supply of a 2-component fire extinguishing agent, containing pipelines with locking and starting devices for the separate supply of components A and B and providing the possibility of their mixing in the chamber and foaming, characterized in that the pipelines are located independently of each other, an additional chamber is installed on the pipeline of component A, embracing it from the outside, ensuring component B comes into it from the corresponding pipeline, in the final section of the pipeline for component A additionally installed a nozzle of a cup-shaped form, made with the possibility of separate entry of components A and B into it, holes are made in the central part of the nozzle for the component A to exit, for the component B to exit, the holes are made on the peripheral part of the nozzle, coaxially with the nozzle and the component mixing chamber is arranged in series , foaming nets, a confuser and a shaper, and the holes in the nozzle are made in the direction that provides the possibility of impact of the jets of both com ponents in the volume of the mixing chamber. 2. The device according to claim 1, characterized in that it is made detachable at the place of installation of the foaming nets. 3. The device according to p. 1, characterized in that the locking and starting device can be performed with the possibility of sequential or simultaneous release of components A and B.

Images