RU2622792C1 - The method of explosive anhydrous unmanned remote fire-fighting - Google Patents

Abstract

FIELD: fire safety.

SUBSTANCE: providing an unmanned aerial vehicle with containers - plastic bottles, which are filled with a dispersed fire-extinguishing agent mixed with a dispersed explosive. In the lid of the container, a groove is provided for mounting from the inner side of thermal fuse-detonator. The unmanned aerial vehicle is equipped with a thermal sensor for remote orientation to a zone of a burning object and commanding an automatic system for periodically ejecting containers into the area of a burning object when the unmanned aerial vehicle is above the area of the burning object. From the heat sensor, a command is issued to eject the container, which, according to the calculated path, is delivered to the selected portion of the burning object. Under the influence of high temperature in the area of a burning object, a thermal fuse detonator is detonated, which detonates the explosive of the container. In accordance with the intensity of the fire, the automatic container ejection system determines the time interval for the ejection of subsequent containers that are emitted as the unmanned aerial vehicle travels over the fire zone.

EFFECT: increased fire-extinguishing efficiency.

1 cl

Description

The invention relates to fire extinguishing means and can be used for unmanned fire extinguishing.

The known method of explosive fire extinguishing according to patent No. RU 2554328, which consists in the manufacture of a dispersed extinguishing agent, mix it with a dispersed explosive substance, delivering a portion of it to a selected area of a burning object, explode the substance, which knock out the tongues of flame, the extinguishing substance is scattered on hot elements in the entire volume of this section of the burning facility, which carry out the selection of heat, and therefore, carry out fire fighting.

The disadvantage is the need for complex aircraft.

The technical result of this invention is to increase the efficiency of fire fighting.

This is achieved by providing the unmanned aerial vehicle with containers - plastic bottles collected by citizens after releasing them from the contents, which are filled with dispersed fire extinguishing agent mixed with dispersed explosive substance, a groove is made in the lid of the container to install a thermal detonator fuse on its inside, understaff the unmanned aerial vehicle with an automatic system for periodically ejecting containers into the zone of a burning object; airborne vehicle with a thermal sensor to remotely orient it to the area of the burning object and command the automatic system for periodically ejecting containers into the zone of the burning object when the unmanned aerial vehicle is above the zone of the burning object, a command is issued from the thermal sensor to eject the first container, the container is calculated trajectories are delivered to a selected area of a burning object; under the influence of high temperature, a thermal detonator-detonator is blown up in a zone of a burning object by which they detonate the explosive substance of the container, than they knock down the flames and intensively spray the extinguishing agent, which is deposited on the burning elements of the burning object in the entire volume of this section of the burning object, by which heat is taken out and, therefore, it is extinguished in accordance with the automatic fire intensity the container ejection system determines the time interval for the ejection of subsequent containers that are discarded as the unmanned aerial vehicle flies over the fire zone, after After the dumping of all stored containers, the unmanned aerial vehicle is turned around to control the fire extinguishing efficiency with a heat sensor, if necessary, the unmanned aerial vehicle is sent to the base to load a new batch of containers, after which the fire-fighting process of this burning facility is carried out similarly or flown to another area to extinguish the next burning object.

The essence of the invention lies in the fact that they provide an unmanned aerial vehicle with containers - plastic bottles collected by citizens after releasing them from the contents, which are filled with dispersed fire extinguishing agent mixed with dispersed explosive substance, a groove is made in the lid of the container for installing a thermal fuse from its inside detonator, understaff the unmanned aerial vehicle with an automatic system for the periodic discharge of containers into the zone of a burning object, with unmanned aerial vehicle is heated with a thermal sensor to remotely orient it to the zone of the burning object and command the automatic system to periodically eject containers into the zone of the burning object when the unmanned aerial vehicle is above the zone of the burning object, a command is issued from the thermal sensor to eject the first container, the container the calculated trajectory is delivered to the selected area of the burning object, under the influence of high temperature in the zone of the burning object, a thermal explosion is blown up the evacuator-detonator, than they detonate the explosive substance of the container, than they knock down the flames and intensively spray the extinguishing agent, which is deposited on the hot elements of the burning object in the entire volume of this section of the burning object, which carries out the selection of heat, and, therefore, fire extinguishing, in accordance with the intensity of the fire by the automatic container ejection system determines the time interval for the ejection of subsequent containers that are discarded as the unmanned aerial vehicle flies over the area fire, after the ejection of all the stored containers, the unmanned aerial vehicle is turned around to control the fire extinguishing efficiency with a heat sensor, if necessary, the unmanned aerial vehicle is sent to the base to load a new batch of containers, after which the fire fighting process of this burning facility is carried out similarly or flown to another area for extinguish the next burning object.

Claims (1)

The method of explosive anhydrous remote unmanned fire extinguishing, which consists in the manufacture of a dispersed extinguishing agent, mix it with a dispersed explosive substance, delivering a portion of it to a selected area of a burning object, blowing up the substance, which knock out the tongues of flame, the extinguishing agent is scattered on hot elements in the entire volume of this section of a burning facility, by which heat is removed, and therefore fire extinguishing is carried out, characterized in that they provide an unmanned aerial vehicle Containers - plastic bottles collected by citizens after releasing them from the contents, which are filled with dispersed fire extinguishing agent mixed with dispersed explosive substance, perform a groove in the lid of the container for installing a thermal detonator fuse on its inside, and maneuver unmanned aerial vehicle with an automatic system for periodic ejection of containers into the area of a burning facility, provide an unmanned aerial vehicle with a thermal sensor for remote about orienting it to the zone of the burning object and issuing a command to the automatic system for periodically ejecting containers into the zone of the burning object when the unmanned aerial vehicle is above the zone of the burning object, a command is sent from the heat sensor to eject the first container, the container is delivered to the selected section of the burning along the calculated path object, under the influence of high temperature in the area of a burning object, a thermal fuse-detonator is blown up, which detonates the explosive substance of the container, than knocks down tongues of flame and intensively spray a fire extinguishing substance, which is deposited on the hot elements of a burning object in the entire volume of a given section of a burning object, which selects the heat and, therefore, extinguishes it, in accordance with the intensity of the fire, the automatic container ejection system determines the time interval for the subsequent containers to be ejected, which are emitted during the flight of an unmanned aerial vehicle over the fire zone, after the ejection of all stored containers, they turn around If you need to use a flying aircraft to control the fire extinguishing efficiency with a thermal sensor, if necessary, the unmanned aerial vehicle is sent to the base to load a new batch of containers, after which the fire extinguishing process of this burning facility is carried out similarly or is flown to another area to extinguish the next burning facility.