RU2767487C1 - Aircraft fire-fighting device with retractable nozzle unit - Google Patents

Abstract

FIELD: fire-fighting equipment.

SUBSTANCE: proposed device relates to firefighting equipment used to extinguish fires on special areas in case of fires on large areas. Proposed is an aircraft fire-fighting device with a retractable nozzle unit, comprising containers with fire-extinguishing liquid, which are connected via hydraulic channels with distributing devices of drain, which can be used with aircraft vertical take-off and landing devices. Aircraft fire-fighting device is attached to aircraft vertical take-off and landing on identical pairs of ropes from contact plates of tanks with liquid, lengths of ropes from one to another vertical take-off and landing apparatus differ by not more than 1 meter, wherein VTOL propellers are located at angles of equilateral triangle formed by equal-diameter base tubes while tube perpendicular to flight direction comprises retractable injector unit. Each container with liquid on rollers interacts with truss platforms, to which supports of base pipes are attached, containers with fire extinguishing liquid are fixed by plates with cotter pins on semi-bushings of base pipes, centres of gravity of containers with fire extinguishing liquid coincide with vertices of triangle of base pipes. Retractable injector unit includes a cylindrical pipe section with centring on two systems uniformly located along the circumference of three rollers, of which the first is fixed at the end of the cylindrical pipe, and the second is fixed at the end of the base pipe in the section coinciding with the end of the central water pipe, fixed in the centre of the end surface of the base pipe and centred on the opposite end relative to the cylindrical pipe by its system of three rollers evenly arranged along its circumference, on the central water pipe there is an end seal from above, which interacts with the end surface of the cylindrical pipe, the end of the cylindrical pipe contains through holes for the passage of water, passing into the nozzles located on the outer surface of the pipe, and a plug interacting with the open end of the base pipe, the inlet of the central water pipe is connected to the outlet of the pump, which is hydraulically connected in series with all the liquid tanks, wherein the upper hole of the last tank is connected to the outlet of the fan fixed on the base pipe.

EFFECT: higher accuracy of fire extinguishing, reduced consumption of fire extinguishing agents, higher efficiency of extinguishing all types of forest fires using aircraft.

1 cl, 3 dwg

Description

The proposed device relates to fire fighting equipment used to extinguish fires in special areas during fires over large areas. The invention can be applied in extinguishing fires in forest areas of varying degrees of complexity.

Known technical solution "Device for extinguishing forest fires" (RF patent 2319527, IPC A62C 3/02, publ. 20 03 2006) in the form and with the possibility of quick spreading when approaching the fire source and dropping onto a given extinguishing area with the closure of the latter, and the spillway tank is designed to irrigate the dropped metal mesh. The disadvantages include low fire extinguishing efficiency due to inaccurate water on the grid when the helicopter is moving, a small amount of fire extinguishing liquid discharged, as well as a long time required to prepare the reuse of the metal grid.

Known technical solution "Device for extinguishing forest fires" (RF patent 2392991, IPC A62C 3/02, A62C 8/06, publ.27.06.2010). A device for extinguishing forest fires contains a fire-extinguishing non-combustible agent suspended from at least one aircraft in a folded form with the ability to quickly unfold when approaching the fire and subsequent closing of a given extinguishing area, characterized in that the fire extinguishing agent is made of an elastic heat-resistant lightweight material in the form of a blanket with holes evenly spaced over the area of the blanket with a step equal to 10% of the length and width of the blanket, opened and stretched in opposite directions over the area of the fire according to the parachute principle, at least by three transport cables, three aircraft. The disadvantage of this technical solution is its low productivity, which makes it impossible to use this technical solution when extinguishing forest fires.

Known technical solution "Device for extinguishing forest fires" (RF patent 2642029, IPC A62C 3/02, B64D 1/16, publ. 23.01.2018). The device contains a seaplane with two biodegradable containers with water, point-wise dropped onto a fire station. The technical solution is a device for extinguishing fires installed inside the hull of an amphibious seaplane boat, equipped with two vertically arranged cases, where containers are placed that are filled with water (fire extinguishing liquid), moreover, the containers are filled with water from natural reservoirs, and the water is raised by two water intakes. devices mounted in the bottom of the seaplane, which also serve as a water supply system for lifting water from reservoirs on hydroplane planing, from where water enters through the water intake device-water supply under the pressure of its velocity head into cases with containers, where it is mixed in flight in containers with solid chemical fire extinguishers reagents, then hermetically packed into containers, and when a seaplane approaches the fire, both containers are pointwise dropped through two lower hatches onto the fire. The disadvantage is the limited use of these devices, since the use of seaplanes is limited by the condition of the presence of extended natural reservoirs, in addition, the performance of fire work is reduced due to the long time of flights to natural reservoirs to replenish fire extinguishing fluid.

The technical solution "Method of extinguishing forest fires and fires in high-rise buildings using helicopters" was taken as a prototype (RF patent 2392022, IPC A62C 3/02, B64D 1/16, publ. 06/20/2010). The device contains several helicopters, of which one main one is equipped with a special means of suspension of flexible fluid transfer hoses and their connection with other helicopters, from which the flexible hoses go down to the fire extinguishing agent distributors located below. The propeller and blades of the helicopter are enclosed in a mesh structure, which is attached to any fixed part of the helicopter. In order to avoid collision of helicopters with each other and collisions with power lines, a rigid mesh structure of any electrically non-conductive solid material is attached to any fixed part of the helicopter to protect the propeller and blades. Thus, the mesh protects the helicopter blades from all sides and the hoses from the blades of other helicopters and power lines. A pipe with holes is attached to the helicopter propeller on any lower fixed part of the helicopter, while the pipe must be longer than the length of the helicopter itself and the length of the blades to prevent the hose from touching the helicopter blades and rotate freely. The pipe has a system of holes for supplying the hose. The lead helicopter hose is fed into any of the holes on the pipe and is attached loosely inside the pipe.

The disadvantages of the technical solution include the low accuracy of hitting the fire and the high consumption of fire extinguishing fluid due to poor stabilization of the position in space of the jets of the working fluid, in addition, the protective nets of the propellers significantly increase the mass of helicopters and reduce the propulsive efficiency of helicopter propellers.

The technical problem to be solved is the creation of an aviation fire-fighting device with a retractable nozzle unit adapted to extinguish various types of forest fires.

The technical result of the invention is to increase the accuracy of fire extinguishing agents in the fire, reduce the consumption of fire extinguishing agents, increase the efficiency of the use of extinguishing in the elimination of all types of forest fires with the help of aircraft.

The technical result is achieved by the fact that the aviation fire-fighting device with a retractable nozzle block contains one or more vertical take-off and landing aircraft, containers with fire extinguishing liquid connected through hydraulic channels with drain distributing devices, while the screw axes of the vertical take-off and landing devices are located in the corners an isosceles triangle formed by base pipes of the same diameter, and the pipe perpendicular to the direction of flight contains a retractable nozzle block, aircraft vertical takeoff and landing vehicles are attached to the contact plates of liquid containers on identical pairs of cables, the lengths of the cables differ from one to another vertical takeoff and landing apparatus no more than 1 meter, each liquid container on rollers interacts with truss platforms, to which base pipe support racks are attached, containers with fire extinguishing liquid are fixed with plates with cotter pins on a half sleeve x base pipes, the centers of gravity of the tanks with fire extinguishing liquid coincide with the vertices of the triangle of the base pipes, while the retractable nozzle block includes a section of a cylindrical pipe centered on two systems evenly spaced around the circumference of three rollers, of which the first is fixed at the end of the cylindrical pipe, and the second one is fixed at the end of the base pipe in a section coinciding with the end of the central water tube, fixed in the center of the end surface of the base pipe and centered at the opposite end relative to the cylindrical pipe by its system of three rollers evenly spaced around its circumference, a mechanical seal is located on top of the central water pipe , interacting with the end surface of the cylindrical pipe, the end of the cylindrical pipe contains holes on the inner surface, nozzle blocks on the outer surface and a plug interacting with the open end of the base pipe, the inlet of the central water tube is connected to the outlet the house of a pump connected hydraulically in series with all liquid tanks, while the upper opening of the last tank is connected to the outlet of a fan mounted on the base pipe.

The proposed device is shown in Fig. 1, 2, 3. In Figs. 1 shows a top view of the proposed device. In FIG. 2 shows the design of the horizontal base tube of the proposed device. In FIG. 3 shows section AB in a top view of the proposed device.

The proposed device contains three base pipes 1 located in the form of a triangle, to which, using bushings 2 and cotter pins 3, ribs 4 of liquid tanks 5 are attached. Liquid tanks 5 are attached to vertical take-off and landing vehicles (for example, helicopters) 6 roll, pitch and heading from the base pipes 1 located at the top of the triangle. Inside the rear base pipe 1 there is a retractable nozzle block 7 centered by two systems of rollers 8 and 9. Three rollers 8 are attached to the rear wall 10 of the cylindrical section 11 of the retractable nozzle block 7, and three rollers 9 at the end of the base tube 1. Also attached to the rear wall 10 is a central water tube 12, centered by a system of three rollers 13 relative to the axis of the cylindrical section 11. At the opposite end of the retractable nozzle block 7, nozzles 14 are installed, and on its length there is an internal the surface 15 is provided with holes 16 for the passage of water to the nozzles. A water pump 17 is attached to the base pipes, the outlet of which is connected to the central water tube 12, and the inlet of the water pump through the pipeline system 18 connecting in series all the water tanks 5 with the fan 19. In the non-working position, the pipeline system 18 is isolated from the environment by plugs 20, and in the working position from water leakage from the nozzle block into the tank with seal 21. The proposed device shown in Fig. 1, contains three truss platforms 22, on each of which water tanks 5 and racks 24 of supports 25 of base pipes 1 are installed on rollers 23. Contact plates 26 of fluid tanks 5 are attached with cables 27 to vertical take-off and landing devices, for example, helicopters 6 The lengths of cables 27 for suspension of liquid containers from helicopter to helicopter 6 differ from each other by no more than 1 m.

The proposed device works as follows. Before taking off for firefighting, the helicopters are located on the sites next to the base pipes 1. First, the fastenings of the cables 27 of the suspension of the liquid containers 5 on the plates 26 to the helicopter 6 are installed or checked, then the helicopters alternately hover over the base pipes 1. At the next command from the control helicopter, the entire device rises to a small height and takes a course towards the approach of a specific boundary section of combustion. The position in space is controlled by the difference in the revolutions of the propellers of all helicopters 6 and is provided by the pilot of the lead helicopter. When approaching the fire extinguishing site, a signal is given to turn on the water pump 17 and the fan 19, after which the water pressure in front of the nozzle block 7 increases to no more than 5 atm. sprayed water over the entire width of the tops of the burning forest, either vertically or at an angle to the surface of the earth. High loss-free uniformity of water distribution on the cultivated area is achieved. The production of liquid containers begins with 17 located close to the water pump and is carried out with the help of a fan 19, which first blows air next to the located and the last of the three series-connected liquid containers. At the end of the fire extinguishing, the water pump 17 stops and the water pressure drops to atmospheric pressure in the cavities of the nozzle block 7, and the water from it flows through the drainage channels into the water tank. Moving the nozzle block 7 with the valve 20 to the closed position can be carried out by slightly tilting the triangle of the base pipes 1. The valve 20 can be fixed by actuating a lock of a known design. After the proposed device arrives at the launch site (water refill), the base tubes 1 are initially oriented slightly shifted back from their stationary position, the water tanks 1 are lowered onto the truss platforms 22 and unhooked from the cables. The base tube triangle is then moved to a stationary position on rollers along the truss platform 22. The base tube triangle is mounted on supports 25 of the posts 24 of the truss platforms 22. Water tanks are filled with water using pump 17 in the reverse order of filling water tanks, while a water source is connected to its inlet. In another version, a fire extinguishing component is connected downstream of the water, and after the pump passes and moves through the hydraulic system, the concentrations of the liquid components are equalized.

Flights of configuration one helicopter - one capacity are made as follows. The liquid container 5 on the rollers 23 moves away from its base pipe, the cables 27 of the helicopter attachment and the well-known spillway device are attached to the liquid container. Next, helicopter 6 is sent to extinguish a small fire.

Thus, fires are extinguished with minimal amounts of water and for a long time in the immediate vicinity of the combustion source under optimal pressure drops and uniformity of water coverage of the treated area, while the material used is removed from the high temperature zone, except for the nozzle block, which is cooled by water pumped to the nozzles . The movement of the injector block exactly repeats the configuration of the boundaries of the combustion chamber. The device is mobile and makes it possible to use remote sources of water and fuel. The advantages of the proposed device in comparison with the prototype are achieved by the fact that the axes of the propellers of the vertical takeoff and landing vehicles are located at the corners of an isosceles triangle formed by base pipes of the same diameter, in a pipe perpendicular to the direction of flight, contains a retractable nozzle block, which includes a section of a cylindrical pipe with centering on two systems evenly spaced around the circumference of three rollers, of which the first is fixed at the end of the cylindrical pipe, and the second - at the end of the base pipe in a section coinciding with the end of the central water tube, fixed in the center of the end surface of the base pipe and centered at the opposite end by its system three rollers evenly spaced around its circumference, on the central water pipe there is a mechanical seal on top, which interacts with the end surface of the cylindrical pipe, the end of the cylindrical pipe contains holes on the inner surface, nozzle blocks on external surface and a plug interacting with the open end of the base pipe, the inlet of the central water tube is connected to the outlet of the pump, connected hydraulically in series from below and above with all three water tanks, the upper opening of the last tank is connected to the outlet of the fan, fixed like the pump on the base pipes, water tanks are fixed on the base pipes at the attachment points of the torso suspensions of vertical takeoff and landing vehicles.

The proposed fire extinguishing device is mobile and takes a lot of water, extinguishes accurately and uniformly, does not require long reservoirs for injection into water tanks.

Claims (1)

Aircraft fire-fighting device with a retractable nozzle block, containing containers with fire-extinguishing liquid connected via hydraulic channels to discharge distribution devices, designed for use with aircraft vertical take-off and landing, characterized in that the aviation fire-fighting device is attached to aircraft vertical take-off and landing on identical pairs of cables from the contact plates of containers with liquid, the lengths of the cables from one to another vertical takeoff and landing apparatus differ by no more than 1 meter, while the axes of the vertical takeoff and landing apparatus propellers in working condition are located at the corners of an isosceles triangle formed by the base pipes of the same diameter, and the pipe, perpendicular to the direction of flight, contains a retractable nozzle block, each container with liquid on rollers interacts with truss platforms, to which support racks of base pipes are attached, capacity awns with fire-extinguishing liquid are fixed with plates with cotter pins on the half-bushings of the base pipes, the centers of gravity of the containers with fire-extinguishing liquid coincide with the vertices of the triangle of the base pipes, while the retractable nozzle block includes a section of a cylindrical pipe centered on two systems evenly spaced around the circumference of three rollers, of which the first is fixed at the end of the cylindrical pipe, and the second is fixed at the end of the base pipe in a section coinciding with the end of the central water tube, fixed in the center of the end surface of the base pipe and centered at the opposite end relative to the cylindrical pipe by its system of three rollers evenly spaced around its circumference , on the central water pipe there is an end seal on top, which interacts with the end surface of the cylindrical pipe, the end of the cylindrical pipe contains through holes for the passage of water, passing into nozzles located on the outer surface of the pipe, and a plug interacting with the open end of the base pipe, the inlet of the central water tube is connected to the outlet of the pump, connected hydraulically in series with all liquid tanks, while the upper opening of the last tank is connected to the outlet of the fan mounted on the base pipe.

Images