RU175400U9 - FIRE FIGHTING DEVICE - Google Patents

Abstract

The utility model relates to fire fighting equipment, namely to portable fire extinguishing devices with one tank under pressure. The technical result of the claimed utility model is to increase the efficiency of the fire extinguishing device. The fire extinguishing device contains a container for a fire extinguishing liquid, a cylinder of compressed air, a system of connecting hoses and a fire barrel. The composition of the barrel of a firefighter includes an output nozzle and a chamber for mixing liquid and gas. The output nozzle is made with three peripherally located profiled channels with the same dimensions of the outlet openings, each of which consists of sequentially arranged: a conical section, tapering in the direction of fluid flow; cylindrical section; and a conical section expanding in the direction of fluid flow. The chamber for mixing liquid and gas is made in the form of a cylindrical channel and contains a sleeve, in the wall of which ejection holes of circular cross section are evenly arranged in the form of five circular rows for supplying liquid, oriented perpendicular to the axis of symmetry of the cylindrical channel of the mixing chamber. Ejection holes in the second and fourth rows are offset 11 ° 15 '. A removable nozzle is fixed to the nozzle.

Description

The utility model relates to fire fighting equipment, namely to portable fire extinguishing devices with one tank under pressure.

The prior art various options for devices for extinguishing fires.

For example, from the document RU 163903 U1, 08/10/2016, a knapsack aerosol fire extinguisher is known that contains a base, a container for a liquid fire extinguishing agent, a source of displacing gas, a locking and starting device fixed on it, and the container of a liquid fire extinguishing agent is made in the form of two cylinders interconnected the main line on which the locking and starting device with a pressure gauge is installed, the locking and starting device itself is connected with a flexible hose, which at the other end has a starting valve with a nozzle device, and Carbon dioxide is the cleansing gas; in addition, the liquid extinguishing agent is an aqueous solution of magnesium chloride or calcium chloride.

Also known from the prior art is document RU 2132752 C1, 07/10/1999, which discloses a device for creating a gas-droplet jet in which a gas-dynamic nozzle is in communication with a chamber for mixing liquid and gas. In the chamber there is a means for dispersing a fluid flow with ejecting holes. The mixing chamber is connected to a liquid and gas supply system through a controllable supply valve of a two-phase medium. The valve is configured to pre-feed a gas stream into the mixing chamber before it is supplied with liquid when the device is turned on and to pre-shut off the liquid supply to the mixing chamber before turning off the gas stream. The valve consists of two locking elements interacting with seats located on the walls of the sealed cavities, respectively connected with the supply lines of liquid and gas. One locking element is rigidly fixed to the stem with the possibility of interaction with the seat in the gas supply cavity. The second locking element is coaxially mounted on the rod with the ability to move along it when interacting with a stop rigidly fixed on the rod. Between the wall of the fluid supply cavity and the movable locking member, an elastic element is installed that presses the movable locking member against the saddle in the fluid supply cavity. In the normally closed position of the valve, the abutment support surface is placed with a gap with respect to the opposed disputed surface of the movable locking element. The invention is aimed at increasing the efficiency of generating a gas-droplet jet and the stability of its characteristics during repeated switching on of the device.

However, a drawback of the entire prior art is the insufficient reliability of the fire extinguishing devices, since the components are not properly mixed.

Thus, the task, the claimed utility model is aimed at, is to eliminate the disadvantages of the prior art.

The technical result of the claimed utility model is to increase the efficiency of the fire extinguishing device.

This technical result is fully achieved by a set of features of an independent paragraph of the claimed formula of the utility model.

The fire extinguishing device contains a container for a fire extinguishing liquid, a cylinder of compressed air, a system of connecting hoses and a fire barrel. The composition of the barrel of a firefighter includes an output nozzle and a chamber for mixing liquid and gas. The output nozzle is made with three peripherally located profiled channels with the same dimensions of the outlet openings, each of which consists of sequentially arranged: a conical section, tapering in the direction of fluid flow; cylindrical section; and a conical section expanding in the direction of fluid flow. The chamber for mixing liquid and gas, is made in the form of a cylindrical channel, and contains a sleeve, in the wall of which ejection holes of circular cross section are evenly arranged in the form of five circular rows for supplying liquid, oriented perpendicular to the axis of symmetry of the cylindrical channel of the mixing chamber. The ejection holes are arranged in the form of five annular rows consisting of sixteen holes in each, evenly spaced around the circumference of the sleeve. Ejection holes in the second and fourth rows are offset 11 ° 15 '. A removable nozzle is fixed to the nozzle.

Ejecting holes are made in the amount of eighty pieces.

The holes of the profiled nozzle channels are evenly distributed around the circumference on the end surface of the nozzle around the central axis in increments of 120 °.

The conical portion of the nozzle exit openings has a cone angle of 5 °.

The total area S _{0tb of the} passage sections of the ejection holes is greater than or equal to S _B , where S _B is the area of the inner surface of the sleeve.

The nozzle is secured with thread.

It contains two replaceable nozzles: an nozzle for extinguishing grass and smoldering fires with a minimum consumption of extinguishing agent (OTV) and a nozzle for creating a protective curtain from heat radiation - volumetric OTV spray.

Further, in more detail, the claimed utility model is illustrated by drawings, in which:

In FIG. 1 presents a General view of the claimed device.

In FIG. 2 shows a fire barrel.

In FIG. 3 shows a variant of the nozzle No. 1.

In FIG. 4 shows a variant of the nozzle No. 2.

Structurally, the fire extinguishing device consists of a housing (1), which is mounted on a supporting polymer back (2) with a waist (27) and shoulder (3) belts. The housing (1) is a container for storing fire extinguishing solution, such as OTV, on the outer surface of which a safety valve (4) and a boost pipe are installed, equipped with a pressure indicator (5) and a check valve (6), which prevents the solution for fire fighting in the air gearbox (7). On the surface of the housing (1), a right tool tray is installed for mounting an air cylinder (9) on it using a brace (10), and an arm (11) for installing a balloon valve (12). The fire extinguishing device may contain a respiratory protective equipment (PPE), for fixing the air cylinder of which a left lodgement (8) is installed on the body (1).

A valve (12) with a manometer (13) is installed on the air cylinder (9), with the aid of which a visual control of the pressure of compressed air in the cylinder is carried out. The fitting of the air reducer (7) equipped with a threaded sleeve with a flywheel (14) is connected to the inlet of the balloon valve (12). The air reducer (7) is connected by flexible hoses (15) and (16) to the non-return valve (6) on the boost line of the housing (1) and the fitting of the fire barrel (17), respectively.

The fire extinguishing solution is supplied from the body (1) to the fireman’s barrel (17) through a flexible hose (18). The fire barrel (17) is equipped with a trigger lever (22) and different types of nozzles for the formation of various types of jets:

- nozzle No. 1 for extinguishing grass and smoldering fires with a minimum consumption of extinguishing agent (OTV).

- nozzle No. 2 for creating a protective curtain against thermal radiation - volume spray OTV.

On the plug (23) of the housing (1), a drainage valve (24) of a push action is installed.

The control of the boost pressure of the housing (1) is provided by the pressure indicator (5).

When the pressure in the tank rises above 1.4 MPa, the safety valve (4) automatically activates.

The supply of a solution for fire fighting in the zone of the fire source can be carried out both in continuous and in pulsed modes.

When included (at the request of the customer) in the structure of the RPE device, brackets (26) and (25) are installed on its case (1) for mounting the RPE reducer and a lodgement (8) for installing the RPE bottle with a valve.

The principle of operation of the device is based on the use of energy of compressed air to form and accelerate the airborne droplet. Mixing an aqueous solution for fire fighting with a stream of compressed air is provided by the choice of the design of the fire barrel and its atomizer.

The operation of the device is as follows: depending on the type of fire using interchangeable nozzles (20) and (21), the type of holes forming the desired stream is established. After opening the valve (12), compressed air from the cylinder (9) enters the inlet of the reducer (7), in which the pressure decreases to 1.0 MPa. From the outlet fitting of the gearbox, compressed air is supplied through a hose (15) to the free volume of the housing (1), where the excess pressure is created, which is necessary to displace the fire fighting solution. Under the action of pressure, the fire-fighting solution and compressed air through the hoses (16) and (18) enter the input of the fire barrel (17). After pressing the start lever (22), the valves installed in the fire barrel (17) open and the mixture of air and fire fighting solution formed in the barrel mixing chamber is fed through the nozzle to the barrel outlet. The high-speed fire extinguishing solution obtained at the exit from the fire barrel effectively penetrates the flame zone and suppresses the source of ignition. After removing the force from the start lever (22), the valves are closed, and the flow of fire extinguishing solution from the fire barrel is stopped.

The claimed utility model is new, since the combination of its essential features is not known from the prior art, and, accordingly, meets the condition of patentability "novelty".

The claimed utility model meets the condition of patentability "industrial applicability", since it can be used in industry.

Although the present utility model has been disclosed with reference to preferred embodiments, it is not intended to limit the present utility model, specialists with general knowledge in the art of the present utility model can modify and implement it without departing from the idea and scope of the utility model, therefore , the scope of protection of the present utility model should be governed by the scope specified in the utility model formula.

Claims (7)

1. Fire extinguishing device containing a container for a fire extinguishing liquid, a cylinder of compressed air, a system of connecting hoses and a fire barrel, characterized in that the fire barrel includes an output nozzle and a liquid and gas mixing chamber, while the output nozzle is made with three peripherally located profiled channels with the same dimensions of the outlet openings, each of which consists of sequentially arranged: conical section, tapering in the direction of fluid flow; a cylindrical section and a conical section expanding in the direction of fluid flow; moreover, the chamber for mixing liquid and gas is made in the form of a cylindrical channel and contains a sleeve, in the wall of which there are uniformly five circular rows ejecting holes of circular cross section for supplying liquid, oriented perpendicular to the axis of symmetry of the cylindrical channel of the mixing chamber, and the ejecting holes in the second and fourth rows located with an offset of 11 ° 15 ', while a removable nozzle is fixed to the nozzle. 2. Fire extinguishing device according to claim 1, characterized in that the ejection holes are made in the amount of eighty pieces. 3. Fire extinguishing device according to claim 1, characterized in that the openings of the profiled channels of the nozzle are evenly distributed around the circumference on the end surface of the nozzle around the central axis in increments of 120 °. 4. Fire extinguishing device according to claim 1, characterized in that the conical section of the nozzle exit openings has a cone angle of 5 °. 5. The fire extinguishing device according to claim 1, characterized in that the total area S _{OTV of the} through sections of the ejection holes is greater than or equal to S _B , where S _B is the internal surface area of the sleeve. 6. Fire extinguishing device according to claim 1, characterized in that the nozzle is fixed by means of a thread. 7. Fire extinguishing device according to claim 1, characterized in that it contains two replaceable nozzles: a nozzle for extinguishing grass and smoldering fires with a minimum flow rate for fire extinguishing and a nozzle for creating a protective curtain from heat radiation - volume spray of a solution for fire fighting.

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