RU102516U1 - FIRE EXTINGUISHING INSTALLATION - Google Patents

Abstract

 1. Fire extinguishing installation containing a self-propelled chassis on which a compressed gas supercharger in the form of a gas turbine engine (GTE) is mounted, the exhaust nozzle of which is equipped with a jet and sand or soil jet feed device. ! 2. Installation according to claim 1, characterized in that the jetting device for sand and / or soil contains a container, to the lower part of which a pipeline is connected, the outlet of which is located behind a cut of the exhaust nozzle. ! 3. Installation according to claim 1, characterized in that the exhaust nozzle is additionally equipped with a system for supplying water to the jet stream. ! 4. Installation according to claim 1, characterized in that the exhaust nozzle is equipped with an ejector nozzle. ! 5. Installation according to claim 1, characterized in that the gas turbine engine is attached to the self-propelled chassis with adjustable rods that allow you to deflect the direction of the jet in the horizontal and vertical direction.

Description

The utility model relates to the field of technical means of protection against fires in the open air, mainly forest fires.

Known methods and technical fire extinguishing forests, including the suppression of open fire with a stream of compressed gas, water supply and throwing fire in the ground to prevent the spread of flame.

The invention is known according to the patent of the Russian Federation No. 2039212, according to which the exhaust jets of gas turbine engines are fed into the combustion zone, and as a development of this invention, the technical solution according to the patent of the Russian Federation No. 2371599, which allows to increase the speed of the exhaust stream.

The closest technical solution is a method for generating a two-phase gas-liquid aerosol and a device for extinguishing fires and fires according to the patent of the Russian Federation No. 2353414.

In the specified device, a gas compressor, located on the same shaft as the gas turbine engine, provides a mixture of air and exhaust gases to the mixer, to which water simultaneously comes from the water tank, and the aerosol formed is fed through the spray device to the ignition zone.

The disadvantage of the proposed technical solution is the obligatory supply of water to the mixer, which can not always be provided in real conditions of the fight against forest fires.

It is known that sand or soil blocking fire can be used to combat forest fires, however, existing fire protection systems can only fill the edges of the fire with soil using special machines, for example, the PDP-1,2 plow manufactured by Leskhozmash, OAO.

In order to optimize fire extinguishing means, in particular, to ensure the operability of the fire extinguishing system in the absence of the required quantities of water, a fire extinguishing installation is proposed, comprising a self-propelled chassis 10, on which a compressed gas blower 1 is mounted, which creates a high-speed gas stream in the direction of an open flame, while an aircraft gas turbine engine (GTE) is used as a compressed gas supercharger, the jet nozzle of which 2 is equipped with a device for supplying soil or sand to active jet. To increase the efficiency of fire extinguishing, a gas turbine engine nozzle can be additionally equipped with a water supply system.

The jet nozzle 2 can be equipped with an ejector nozzle 4 to reduce the temperature and increase the mass of the jet stream. To ensure the supply of soil or sand to the jet stream of gas, the installation contains a container 7, from which soil or sand with the help of auger 8 enters directly from the jet nozzle cut.

The gas turbine engine 1 is mounted on a self-propelled chassis 10 using adjustable rods 11, which allows, if necessary, to deflect the axis of the jet of gas in the vertical and horizontal direction.

The water supply system inside the jet nozzle 2 contains a water tank 5 connected by a pipe 12 to the nozzle manifold 3. The water supply is provided by the pump 6.

Figure 1 schematically shows the installation of fire extinguishing, figure 2 is a view of the installation from the back (on page A).

When the installation is operating under fire extinguishing conditions, it starts and enters GTE mode 1 (the engine control system and fuel supply to it are conventionally not shown in the diagram). The gas coming from the turbine engine 1 is diluted with air entering through the inlet 13 of the ejector 4 and is ejected through the outlet of the jet nozzle 2.

From the container 7, with the help of the screw 8, sand / soil prepared in the container 7 through the pipeline 9 enters through the jet nozzle cut into a gas stream directed to the ignition center.

If there is a water source at the installation location, water from the water tank 5 through the pipe 12 through the pump 6 through the nozzles 3 enters the gas stream, evaporates and reduces its temperature.

The fire extinguishing installation using adjustable rods 11 allows you to direct a high-speed stream of exhaust gases diluted with water vapor and suspended particles of soil / sand to the source of ignition. In this case, several influences are simultaneously carried out: the flame is knocked down by a gas stream, and the combustion zone is blocked by soil / sand, which prevents the reoccurrence of the burning focus.

The use of the proposed fire extinguishing installation has several advantages compared to existing fire extinguishing installations, namely, it allows to suppress a fire source at a remote distance, is characterized by a large extinguishing jet, does not require special compressors for gas compression, and can work effectively even in the absence of water in the fire area. The use of aviation conversion gas turbine engines allows reducing the cost of the equipment used.

Claims (5)

1. Fire extinguishing installation containing a self-propelled chassis on which a compressed gas supercharger in the form of a gas turbine engine (GTE) is mounted, the exhaust nozzle of which is equipped with a jet and / or soil feed device. 2. Installation according to claim 1, characterized in that the jetting device for sand and / or soil contains a container, to the lower part of which a pipeline is connected, the outlet of which is located behind a cut of the exhaust nozzle. 3. Installation according to claim 1, characterized in that the exhaust nozzle is additionally equipped with a system for supplying water to the jet stream. 4. Installation according to claim 1, characterized in that the exhaust nozzle is equipped with an ejector nozzle. 5. Installation according to claim 1, characterized in that the gas turbine engine is attached to the self-propelled chassis with adjustable rods that allow you to deflect the direction of the jet in the horizontal and vertical direction.