RU2078600C1 - Fire-fighting device for fighting of forest and steppe fires - Google Patents

Abstract

FIELD: fire-fighting equipment, particular, fighting of forest and steppe fires with use of aircraft. SUBSTANCE: fire-fighting device for fighting of forest and steppe fires has platform fastened to helicopter in form of modules to which vessels with fire-extinguishing compound are attached. Fire-extinguishing compound has explosive charge in its upper part connected with initiating device and packing located above the charge. Vessel body is made of light nonmetallic material forming no injuring fragments in blasting. Explosive charge may be enclosed in vessel of nonmetallic material and made in form of parallelepiped, polygon, disk, hemisphere with bottom from flexible film. Platform module may be made of large-diameter pipes, and platform, from small-diameter pipes, rods or channels. EFFECT: higher efficiency. 8 cl, 4 dwg

Description

 The invention relates to fire extinguishing techniques based on aviation delivery vehicles, and can be used to extinguish forest and steppe fires.

 To extinguish forest fires, parachute and airborne squads of fire specialists equipped with sapper tools, hand-held extinguishing means, and explosive materials are currently used, which allows fighting only small fires. To extinguish large-scale fires, it is widely known to use heavy special aircraft equipped with multi-ton water tanks.

 However, this method is ineffective, because the low aiming rate of water entering the fire zone and the rate of its deposition on the forest, while, as a rule, all water is poured out in one charge, which does not allow to extinguish more than one, two fires, and the bulk of the sprayed water is carried away upward with combustion products. The most effective discharge of water from heights of 100 to 200 m by these means cannot be carried out, because powerful updrafts do not allow delivery vehicles to go below 1 2 km.

 An object of the invention is the delivery of fire extinguishing means to the minimum necessary height from the source and to ensure the focus and reusable use of extinguishing agents in several places in one flight.

 The technical result is achieved by the use of a fire extinguishing device for extinguishing forest and steppe fires, containing a container with a fire extinguishing composition, which has additional containers and a platform for attaching to it, for example from the bottom of the tanks, means for attaching the platform to the helicopter, and the platform is divided into modules, in each of which are located in several containers with a fire extinguishing composition, while the container body is made of light non-metallic material, which does not form explosive fragments upon rupture, explosive the charge is placed in the tank’s body along its axis in the upper part or immersed in the fire extinguishing composition, a seal is located above the charge with a bulk material having a bulk density greater than that of the fire extinguishing composition, and the weight ratio of explosive charge and extinguishing composition is within 0.1- 0.3, and the charge is associated with the initiating device; the explosive charge is enclosed in a sealed enclosure of non-metallic material in the form of a parallelepiped or polygon, or disk, or hemisphere with a lower part of an elastic film; the module has a circle shape in cross section and is made of standard pipes; the module has a section of the shape of a triangle or square or polygon; the platform is made of rods or pipes or channels; water or water with a foaming agent is used as the extinguishing agent, and the casing has a spherical dome made of solid material in the upper part, and the explosive charge has the form of a disk or plate, or a hemisphere, with its convex side down.

 In FIG. 1 shows a general view of the operation of a fire extinguishing device suspended from a helicopter; in FIG. 2 and 3 versions of the platform with the number of modules placed, their various configurations and explosive spray devices placed in them; in FIG. 4 explosive spray device.

 The fire extinguishing device is suspended from a helicopter / Fig. one/. A multicore cable is attached to the suspension cable, through which the explosions of the tanks are controlled through the remote control located on the helicopter. Containers placed in one module explode at the same time. Power supply can be produced both from the helicopter’s electrical system and from batteries located on the platform of the fire extinguishing device.

 Explosive Spray Device / FIG. 4 / comprises a housing 4 in which an explosive spray charge 5 is located, enclosed in a non-metallic box-shaped mold 6 with a bottom made of an elastic material / film / 7, a seal made of loose material 8, for example, coarse sand, is located above the mold 6. Form 6 is immersed in a fire extinguishing composition 9, which can be used as a fire extinguishing powder, sand, a viscous substance or liquid, such as water or water with a foaming agent. When using liquid, it is enclosed in a separate sealed polyethylene container 10. An initiating device 11, for example, an electric detonator, is connected to the charge 5. A cable or ring 12 with a cable is attached to the housing 4, with which the device 3 is attached to a special holder 13 in the module. Over the seal 8, the upper part of the housing 14 can be made of a solid material: polyurethane foam, foamed plastic, polyethylene.

 The device operates as follows.

To the platform 1, located on the runway, tanks are mounted explosive spray devices 3, while the wires from the initiating devices 11 are connected to the wiring platform. After the equipment platform 1 is hooked to a helicopter, which carries it to the place of fire. The helicopter with platform 1 hangs over the fire and produces a targeted multiple extinguishing effect. Box-shaped sealed form 6, in which a charge 5 is placed due to the solid body 4 and elastic bottom 7 and placement of form 6 in a container with a fire extinguishing composition 3, as well as their placement in modules 2, all this provides directional spraying of the extinguishing composition 9 in the form of a cone with an angle up to 45 ^o . The blast wave from charge 5, passing through a viscous fire extinguishing composition 9 and elastic shells, reduces its speed, reduces the pressure drop, stretches it in depth and evens out its front of impact, as a result of which the wave, having destroyed the elastic shell 7, comes into contact with the fire extinguishing composition 9, creating a powerful gas-dispersed fire extinguishing stream that breaks the elastic shell 10 and the housing 4, further aligning its front of exposure.

 The simultaneous initiation of charges 5 and the simultaneous creation of gas-dispersed flows, their interaction and reflection from the walls of module 2 creates a powerful high-speed conical flow of extinguishing composition 9, which is sprayed onto a burning surface, creating a combined, highly effective extinguishing effect that combines various extinguishing mechanisms: destruction, inhibition, cooling . This stream of fire-extinguishing composition is able to break through the crowns of trees and extinguish the burning leafy litter, trunks, branches. As a result of the device, blown up at a height of 5 to 10 m above the crowns of the trees, complete extinguishing of the fires is achieved.

Claims (8)

 1. A fire extinguishing device for extinguishing forest and steppe fires, containing a container with a fire extinguishing composition, characterized in that it has additional containers and a platform for attaching to it, for example, from below the tanks, means for attaching the platform to the helicopter, and the platform is divided into modules, in each of which there are several containers with a fire extinguishing composition, while the container body is made of light non-metallic material, which does not form damaging fragments upon rupture, an explosive charge is placed in the body of each of the container along its axis in the upper part and immersed in the extinguishing agent, a seal is located above the charge from a bulk material having a bulk density greater than that of the extinguishing agent, and the weight ratio of the explosive charge and extinguishing agent is within 0.03 0.1, and the charge is connected to the initiating device.  2. The device according to claim 1, characterized in that the module has a circle shape in cross section and is made of standard pipes.  3. The device according to claim 1, characterized in that the module has in cross section the shape of a triangle, square or polygon.  4. The device according to claim 1, characterized in that the explosive charge is enclosed in a sealed enclosure of non-metallic material in the form of, for example, a parallelepiped or hemisphere with a bottom made of an elastic film.  5. The device according to p. 1, characterized in that the platform is made of rods, or pipes, or channels.  6. The device according to claim 1, characterized in that water or water with a foaming agent is used as the extinguishing agent.  7. The device according to claim 1, characterized in that the housing has in the upper part a spherical dome made of solid material.  8. The device according to claim 1, characterized in that the explosive charge has, for example, a disk shape facing the convex side down.

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