RU2655036C1 - Method and complex of means of evacuation of population, material and cultural values in the emergency situation regime - Google Patents

Abstract

FIELD: rescue operations.

SUBSTANCE: invention relates to the detection of an emergency situation and the elimination of its consequences. Method of evacuation of the population, material and cultural values in the emergency mode includes monitoring of the situation with the help of on-board surveillance facilities, processing of these data, flight control of an unmanned aerial vehicle, delivery of small-sized cargoes using this aircraft, incl. means of radio communication, and the use of an unmanned aerial vehicle in a region of catastrophic nature for the liquidation of the consequences of an emergency situation. Moreover, when using the said aircraft, the coordinates of the passage are determined for the evacuation of the population, material and cultural values from the area of a catastrophic nature, throw off along the perimeter of the passage from the unmanned aircraft signal fireworks, and in hazardous areas of the passage – additionally noise charges, and as you move along the aisle of columns with the population on foot or by technical means of transportation, for example, on cars or buses, and/or technical means of transportation with material and cultural values, activate by means of beacons signal fireworks, indicating the reference points for safe passage in conditions of poor visibility, and in hazardous sections of the passage, noise charges are activated with the aid of beacons, additionally warning of the danger that has arisen. Complex of means of evacuation of the population, material and cultural values in the emergency mode includes a flight control system and airborne surveillance equipment of an unmanned aerial vehicle, means for liquidation of consequences of an emergency situation, intended for their delivery to the area of catastrophic character with the help of the named aircraft, and payload, executed in the form of small-sized cargoes, including radio communication means and means of their delivery to the controlled zone. Moreover, the payload additionally contains the means for organizing the passage for the evacuation of human and technical resources from a region of a catastrophic nature, made in the form of signal pyrotechnic and noise charges equipped with radio beacons intended to designate landmarks for safe passage in conditions of poor visibility and launch them in the activation mode when moving in an organized passage of columns with a population on foot or with technical means of transportation and/or technical means of transportation with material and cultural values.

EFFECT: method of evacuation of the population, material and cultural values in a mode of an emergency situation is offered.

2 cl, 3 dwg

Description

The invention relates to the field of detection of an emergency and the elimination of its consequences associated with saving the population, material and cultural property from a disastrous area in the event of natural disasters, including large-scale fires, disasters and accidents, as well as in emergency situations arising from the possible an adversary of modern weapons or as a result of terrorist acts.

It is known (Federal Law “On the Protection of the Population and Territories from Natural and Technogenic Emergencies” (1995) that emergency response includes a set of measures carried out as soon as possible in order to provide all types of assistance to the affected population in the lesion foci (contamination), in areas of catastrophic flooding and in areas of natural disasters, preventing further damage and loss, as well as restoring the vital functions of cities, settlements and objects the national economy.

In the work (A.V. Shevchenko, N.M. Leonov, N.I. Parashchenko, A.N. Bychkov, A.V. Zolotukhin, V.V. Semenov. Guidelines for the evacuation of the population in natural and man-made emergencies Section IV: evacuation of the population, paragraphs 4.1. 4.2. Http://ufa-umc.ru/data/documents/3-Prilozhenie.doc), it is noted that the evacuation of the population from the emergency zone (ES) in each specific the case is determined by the conditions for the emergence and development of emergencies, the nature and spatio-temporal parameters of the impact of the damaging factors of the emergency situation source.

Upon receipt of a reliable forecast of emergencies, preparatory measures are carried out, the purpose of which is to create favorable conditions for the organized removal or withdrawal of people from the emergency zone. Preparatory measures include: alerting evacuation agencies and clarifying their work order; clarification of the population to be evacuated by foot and transport; distribution of vehicles at landing stations (points), refinement of calculations of marching columns and assigning them to walking routes; preparation of evacuation routes, installation of road signs and signs, equipment of places of rest; preparation for the deployment of prefabricated evacuation points (SES), points of landing - disembarkation; verification of readiness of warning and communication systems; alerting existing defenses. With the receipt of a signal for evacuation, the following activities are carried out: notification of the heads of evacuation agencies of enterprises and organizations, as well as the population about the beginning and procedure for carrying out evacuation; deployment and alerting of evacuation agencies; collection and preparation for shipment to safe areas of the population to be evacuated; formation and withdrawal to starting points on the routes of pedestrian columns, supply of vehicles to landing points and landing of the population on transport; reception and placement of evacuation in safe areas prepared in advance for priority types of life support.

In the work (http: //www.refbzd.ru.html) that the protection of the population in emergency situations includes a number of measures, including the dispersal and evacuation of the population from large cities and important facilities, as well as from areas of catastrophic flooding and damage zones. Evacuation, as a way of protecting the population, has been used for a long time. In the USSR during the Great Patriotic War, it reached a particularly large size. Factories with workers, employees and their families were evacuated from the European part of the country. During July - November 1941, more than 1,500 industrial enterprises were relocated to the deep rear

Is it advisable to carry out evacuation as in previous years from the position of ensuring the safety of evacuees? The practice of modern life suggests that the population is increasingly exposed to dangers as a result of natural disasters, accidents and disasters in industry and transport. Natural disasters on our planet are very frequent phenomena: earthquakes, floods, avalanches, mudflows, landslides, massive forest fires. In the aftermath of the earthquake in Armenia on December 7, 1988, more than 110,000 children, women and the elderly were evacuated from the cities of Leninakan, Kirovokan, Spitak, Stepanavan, and other devastated settlements. In the hot summer of 1973, during the movement of mudflow from certain areas of the city of Alma-Ata, a partial evacuation of the children and then the adult population was carried out at first. In the Orenburg region in 1942, 1957, 1993, 1994, 1998, 2000, there were large floods. They were accompanied by a high rise in water, which required the evacuation of the population from individual settlements. More than once it was necessary to remove and take people out of the zones of massive forest fires. Especially dangerous are the so-called riding fires, the spread of which reaches 15-20 km / h.

Increasingly, it is necessary to resort to evacuation measures during accidents at nuclear power plants, during emissions and spills of accidentally chemically and biologically harmful substances, during large fires at petrochemical and oil refineries.

The accident at the Chernobyl nuclear power plant in April 1986 forced the leadership of the Kiev region to evacuate the population from the 30-kilometer zone.

There are various methods and devices designed for the evacuation of people in emergency situations (Application of Germany No. 3702459, class A63B 29/00, 1988; patents: RU No. 2126281, A62B 1/20, publ. 04/12/1997; RU No. 2059531, А62В 37/00, В62В 1/500, publ. 12.01.1993; RU 2132799, В64С 27/00 (1995.01), publ. 07/10/1999; № RU No. 2205048, А62В 37/00 (2000.01), А62В 1/00 ( 2000.01) published on May 27, 2003; RU No. 2373979, А62В 99/00 (2009.01), published on November 27, 2009; No. 2381959, В64С 27/00 (2006.01), А62В 1/00 (2006.01), published on 02/20/2010 ; RU No. 2411051, А62В 1/00 (2006.01), А62В 99/00 (2009.01), published on 02/10/2011; RU No. 2486936, А62В 99/00 (2009.01), published on July 10, 2013; RU No. 2490038, А62В 1/10 (2006.01), publ. 08/20/2013; RU No. 2546422, А62В 1/00 (2006.01), publ. 10.04.2015; and others), which so the problem of evacuation of small groups of people without large-scale events in the areas of catastrophic.

There is a method and a set of means for detecting an emergency and liquidating its consequences (Patent RU No. 2350368, А62В 99/00 (2009.01), publ. 03/27/2009), adopted as a prototype of the claimed technical solution.

The invention is intended to detect an emergency and liquidate its consequences, especially of a catastrophic nature, associated with a threat to the life and health of people, causing material damage and environmental pollution. On board an unmanned aerial vehicle, surveillance tools for the emergency area are installed, including in the optical and / or infrared range, as well as means for determining coordinates and means for transmitting observation data and coordinates over the air. Means of remote piloting an unmanned aerial vehicle and means for receiving, via a radio channel, communication data for monitoring the emergency area and its coordinates are installed at the monitoring and control station. Emergency response facilities are located in a vehicle manned by the crew. Means have been introduced for receiving from an unmanned aerial vehicle or from a flight monitoring and control station observation data of the emergency area and its coordinates, as well as data on the coordinates, altitude and flight speed of the unmanned aerial vehicle and showing them to the crew of the vehicle with emergency response equipment. Integration into a single system of all the above means for emergency response is ensured, which eliminates technical failures and management errors.

However, this invention does not solve the problem of evacuation of large groups of people, equipment, etc. when carrying out large-scale events in areas of a catastrophic nature.

The objective of the present invention is to increase the efficiency of work related to saving human and technical resources with large-scale events in areas of catastrophic nature in the event of natural disasters.

The essence of the proposed method lies in the fact that the method of evacuation of the population, material and cultural values in an emergency mode, including monitoring the situation using on-board surveillance equipment, processing this data and controlling the flight of an unmanned aerial vehicle, delivery of small-sized cargoes using this aircraft, including radio communications, and the use of an unmanned aerial vehicle in a catastrophic area to deal with the consequences of an emergency ii, when using the aforementioned aircraft, the coordinates of the passage for the evacuation of the population, material and cultural property from the area of catastrophic nature are determined, the signal pyrotechnic charges are dropped along the perimeter of the aisle from the unmanned aerial vehicle, and additional noise charges are taken in dangerous sections of the aisle, and when moving along the aisle columns with a population moving on foot or on technical vehicles, such as cars or buses, and / or technical vehicles People with material and cultural values activate beacon pyrotechnic charges with the aid of radio beacons, indicating guidelines for safe passage in conditions of poor visibility, and in hazardous sections of the passage they activate noise beacons with the aid of radio beacons, additionally warning of the danger that has arisen.

The essence of the claimed device lies in the fact that in the complex of means of evacuating the population, material and cultural values in an emergency mode, including a flight control system and on-board surveillance equipment for an unmanned aerial vehicle, means for eliminating the consequences of an emergency, designed to deliver them to an area of catastrophic nature using the named aircraft and the payload, made in the form of small loads, including radio communications and means of their delivery to the controlled area, while the payload additionally contains means of arranging passage in the controlled area for the evacuation of human and technical resources from a disastrous area, made in the form of signal pyrotechnic and noise charges equipped with beacons designed to indicate landmarks for safe passage in conditions of poor visibility and their launch in activation mode when traveling in an organized passage of columns with a population on foot or in a technical environment vehicles and / or technical vehicles with material and cultural values.

The technical effect realized by the claimed method is determined by the following.

Determining the coordinates of the passage with the help of an unmanned aerial vehicle for evacuating the population, material and cultural values from a region of catastrophic nature allows you to choose the optimal route for their evacuation.

Dropping from the unmanned aerial vehicle along the perimeter of the passage of signal pyrotechnic charges, and in dangerous sections of the passage of additional noise charges, allows you to effectively limit the route in conditions of poor visibility, for example, with high smoke, fog and the like.

The activation by means of beacons of signal pyrotechnic charges allows you to designate guidelines for safe passage in conditions of poor visibility of columns with the population moving on foot or on technical means of transportation, for example, cars or buses, and / or technical means of transportation with material and cultural values.

The activation by radio beacons of noise charges, additionally warning of the danger that has arisen, allows the head of the column to draw attention to the need to observe extreme caution on this section of the route.

The technical effect realized by the claimed device is determined by the following.

The execution of a means of organizing a passage for the evacuation of human and technical resources from a disastrous region in the form of signal pyrotechnic and noise charges equipped with beacons to launch them in activation mode allows you to:

- to carry out, in accordance with the chosen route, the evacuation of the population, material and cultural values from the area of catastrophic nature in conditions of poor visibility and time limit for the evacuation;

- to automatically activate with the help of appropriate beacons signal pyrotechnic and noise charges;

- eliminate completely deviations of the column from the selected route.

Thus, the distinguishing features of the proposed technical solution are new and meet the condition of patentability "novelty."

When determining the conformity of the distinguishing features of the proposed invention with the patentability condition “inventive step”, the prior art and, in particular, known methods and devices related to the field of emergency detection and liquidation of its consequences associated with saving the population, material and cultural values in catastrophic zones were analyzed nature in the event of natural disasters.

In work (Evacuation / Section I Emergencies of peace and wartime, organization of population protection _ Life safety_ study guide. Html. Chapter 3. Organization of protection of the population from emergency situations of peace and wartime. Section 3.2. The main measures carried out in the Russian Federation on protection of the population from emergency situations) it was noted that one of the main ways to protect the population from emergency situations is evacuation.

In some situations (catastrophic flooding, prolonged radioactive contamination of the area) this method is the only possible. The essence of evacuation is the organized movement of the population, material and cultural values to safe areas.

Types and methods of evacuation are classified according to different criteria (Scheme 5).

Proactive (advance) evacuation of the population from areas of possible emergency situations is carried out upon receipt of reliable data on the high probability of an beyond design basis accident at potentially dangerous objects or a natural disaster with catastrophic consequences (flood, landslide, mudflow, etc.). The basis for its implementation is a short-term forecast of an beyond design basis accident or natural disaster for a period of several tens of minutes to several days. The export (withdrawal) of the population in this case can be carried out with a short lead time and under the conditions of exposure of people to the damaging factors of the emergency.

Emergency (urgent) evacuation of the population can also be carried out in case of violation of the normal life support of the population, in which there is a threat to the life and health of people. The criterion for deciding to carry out evacuation in this case is the excess of the standard recovery time of systems that ensure the satisfaction of vital human needs.

Depending on the coverage of the population in the emergency zone with the evacuation measures, the evacuation may be general or partial. General evacuation involves the removal (withdrawal) of all categories of the population from the emergency zone. Partial evacuation involves the removal (withdrawal) from the emergency zone of the disabled population, preschool children, students of schools, lyceums, colleges, etc. The selection of the evacuation option is carried out taking into account the extent of spread and the nature of the hazard, the reliability of the forecast for its implementation, as well as the prospects for the economic use of production facilities located in the zone of influence of damaging factors. The basis for a decision to carry out an evacuation is a threat to human life and health, assessed according to criteria pre-established for each type of hazard.

However, measures for safe and quick evacuation from areas of a catastrophic nature in the event of natural disasters, laid down in the claimed technical solution, are not provided for in this method of evacuating the population.

In the work (Protection during forest, steppe and peat fires http://megaobuchalka.ru/3/11814.html), it is noted that if the fire could not be stopped and it is approaching the settlement, it should be, in addition to accepting all fire measures, proceed with the evacuation of the population. The withdrawal or removal of people should be carried out in a direction perpendicular to the spread of fire. At the same time, you should move not only along the roads, but also along streams and rivers, and, if necessary, along the water itself.

Flood evacuation, as a rule, is announced by special order of the flood control commission. The population about the beginning and the procedure for evacuation is notified by local radio broadcasting networks and local television. Workers and students, in addition, are notified through the administration of enterprises, institutions and educational institutions, and the non-working population - through housing maintenance offices and house managements. The places of deployment of prefabricated evacuation centers, the time of arrival at these points, the routes following the evacuation on foot, as well as other information consistent with the local situation, the expected scale of the disaster, and the time of its warning are informed the population.

However, measures for safe and quick evacuation from areas of a catastrophic nature in the event of natural disasters, laid down in the claimed technical solution, are not provided for in this method of evacuating the population.

A known method of evacuation from a medium with a fire extinguishing aerosol due to guiding photoluminescent systems (RF Patent No. 2419469 of 06/03/2011, CL A62B 3/00 (2006.1), in which photoluminescent systems are located at a level not higher than one meter from the floor, for example, along a plinth or wall. Photoluminescent systems contain an optimum amount of zinc sulfide and strontium aluminate coated with a transparent binder, for example, acrylic varnish, for a specific aerosol-forming composition, and Eseniya operate photoluminescent material is preferably white. In the description of the process given the optimal placement options photoluminescent system that includes a continuous indication of the direction of evacuation at the level of human waist, for example, along the walls or banisters and along baseboards.

The main disadvantage of this method is that the photoluminescent strip does not provide the necessary visibility of the evacuation path indicator in case of a fire during the entire emergency response time, for example, during an abnormal development of a fire, breakdown of the ventilation system, and the like.

Currently, the improvement of the technology for manufacturing photoluminescent materials is developing towards increasing the brightness and duration of the afterglow. In the event of a fire in a confined space with large smoke, the brightness of the luminescence of the photoluminescent system is most important, the initial value of which for modern photoluminescent materials is 3000 mcd / m ² . However, the brightness of the afterglow of the photoluminescent band decreases markedly over time, for example, after 1 hour it will already be 60 mcd / m ² (fireman.ru> of / electon / fec.html).

There is a method of ensuring visibility in a fire extinguishing aerosol environment due to special lighting by ensuring safe evacuation from a room filled with a fire extinguishing aerosol (RF Patent No. 2419470, published May 27, 2011, class A62B 3/00 (2006.1). Moreover, the optimal fire extinguishing aerosol is selected a light source that provides the maximum possible distance of visibility in an aerosol environment, after which they use specially recommended light sources on the evacuation routes of people and lifeguards.

The disadvantages of this method are that the light coming from a constant light source will be less noticeable in a smoky room than from a pulsating light source, since the latter has a more irritating effect on the retina of the human eye.

It should be noted that the above technical solutions are stationary, designed to equip narrow aisles and cannot be used when conducting large-scale evacuation measures from areas of catastrophic nature in the event of natural disasters.

Analysis of other technical solutions showed that the known methods and devices do not solve the previously mentioned problems, solved by the claimed method and device.

Based on the foregoing, we can conclude that the claimed technical solution meets the condition of patentability "inventive step", and the invention itself is new.

The invention is further illustrated by an example of its implementation.

In FIG. 1 is a diagram of a situation monitoring in a catastrophic region using on-board surveillance equipment for an unmanned aerial vehicle; in FIG. 2. - a diagram of the formation of the passage for the evacuation of the population, material and cultural values from the area of catastrophic nature by dropping along the perimeter of the passage from the unmanned aerial vehicle signal pyrotechnic charges, and in dangerous sections of the passage - additional noise charges; in FIG. 3 is a diagram of a route intended for the safe passage of columns with a population on foot or on technical vehicles and / or technical vehicles with material and cultural values in conditions of poor visibility using signal pyrotechnic charges and noise charges to indicate landmarks.

The claimed technical solution is implemented as follows.

To detect an emergency, especially of a catastrophic nature, associated with a threat to life and health of people, causing material damage and environmental pollution, the following actions are performed:

- using on-board surveillance equipment 1 unmanned aerial reconnaissance aircraft 2 monitor area 3 of a possible or real emergency (Fig. 1), which includes observation in optical, and / or infrared, and / or microwave, and / or microwave ranges in the area of catastrophic nature;

- upon detection of a real emergency, the coordinates, nature and extent of its distribution are determined and data is transmitted to the monitoring and flight control station.

After processing this data at the station, the coordinates of safe passage 4 (Fig. 3) are determined to evacuate the population, material and cultural values from the area of catastrophic nature. Then direct to the selected passage 4 (route) unmanned aerial vehicle-transport 5 (Fig. 2), equipped with signal pyrotechnic charges 6 and noise charges 7, each of which is equipped with a beacon 8.

Upon arrival of the unmanned aerial vehicle-transport vehicle 5 (UAV) in the controlled area by command from a flight control station using an electromechanical device (not shown conditionally) along the perimeter of passage 4 from this aircraft 5 (Fig. 2), the signal pyrotechnic charges are dropped on parachutes 9 6 (conditionally shown at the moment of discharge of the indicated charges from the UAV at the beginning of the selected route), and in hazardous sections of the passage - additional noise charges 7 (conditionally shown at the time of the discharge of indicated charges from the UAV to the con ie the selected route).

Charges 6 and 7 are designed for safe movement along the passage of columns with the population moving on foot or on technical means of transportation, for example, on cars or buses, and / or technical means of transportation with material and cultural values.

After landing on the earth’s surface 10 signal pyrotechnic charges 6 and noise charges 7, beacons 8 are activated on them and the launch system of these charges is checked (tested). In the future, beacons 8 are in standby mode.

In the case when, when landing on rough terrain, a parachute 9 with a charge of 6 or 7 catches on a tree, a telegraph pole and the like, it is not removed from this obstacle, since this does not affect the conditions of their “visibility” and activation.

Replacement of charges 6 and 7 is subject only to those that fell during landing, for example, into water, into a gorge and the like, in which the beacons disappear from the "visibility" zone.

Transport unmanned aerial vehicle 5 re-circulates the controlled area, checks the coordinates of charges 6 and 7 using the corresponding beacon 8 and discards additional charges 6 and 7 instead of those that failed during an abnormal landing, including when the parachute fails, the beacon breaks, and so on like that.

The evacuation of the population, material and cultural values from the area of catastrophic nature is as follows (Fig. 3).

After reporting from the flight control station about the readiness of passage 4 on a given route, the head of the evacuation body decides to immediately evacuate the population, material and cultural values in an emergency mode from an area of catastrophic nature, regardless of the time of day, weather, visibility conditions on the traffic route, related for example, with great smoke and other dangerous fire factors, fog and the like.

Upon arrival at the selected passage 4 (route), columns with a population of 11 traveling on foot or by technical means of transportation, for example, by cars or buses, and / or technical means of transportation 12 with material and cultural values, perform the following actions (Fig. 3):

- activate as the column moves using beacons 8 signal pyrotechnic charges 6, indicating landmarks for safe passage in conditions of poor visibility;

- activate on hazardous sections of the passage using beacons 8 noise charges 7, additionally warning of the danger;

- carry out the safe passage of these columns 11 and technical vehicles 12, using for this purpose the landmarks indicated along the route for safe passage in conditions of poor visibility, for example, during a fire in a fog, or associated with other dangerous factors that arise during a flood, earthquake, as well as those related to the evacuation of refugees from the war zone.

In FIG. Figure 3 shows a prefabricated evacuation convoy consisting of pedestrian columns 11, in the rear guard of which there is a closing column 13, and technical vehicles 12, at the forefront of which is the head technical vehicle 14 with the head of the evacuation body.

On the head technical vehicle 14, a device 15 for activating radio beacons is installed. When moving the head technical vehicle along the passage 4, the device 15 activates the necessary beacons 8 along the driving route, which launch the corresponding pyrotechnic charges 6 and noise charges 7.

The duration of the pyrotechnic charges 6 and noise charges 7 is selected based on the time of the complete passage of the team of the evacuation column along the passage 4.

In this case, the optimal lighting created by the signal pyrotechnic charges 6 is selected taking into account the maximum possible distance of visibility in the optical environment created, for example, during a fire. This question is considered in detail in the theory of scattering of electromagnetic radiation by spherical Mie particles [D. Deirmendjan D. Scattering of electromagnetic radiation by spherical polydisperse particles. - M .: Mir, 1971. - 303 p.].

Knowing the mass of all combustible and difficultly combustible materials located, for example, at a burning industrial facility or in a wooded area, the rate of burning of a fire load; gas exchange of the fire source with the environment and the external atmosphere, and the like, it is possible to determine the maximum concentration of combustion products in smoke (a mixture of air with combustion products and their solid particles) in a fire, which depends on the intensity of gas exchange and the amount of these products released with 1 m ² burning area.

Applying the above theory, we can calculate the volumetric coefficient of light scattering by an optical medium, depending on the wavelength of the incident light, the size of the scattering particles and their refractive index. According to the found wavelength, it is possible to recommend the use of appropriate signal pyrotechnic charges at the decision-making stage for creating safe passageways associated with saving the population, material and cultural values from catastrophic zones in the event of natural disasters.

Moreover, the pyrotechnic charges 16 and noise charges 17, the beacons 8 of which did not fall into the “visibility” zone of the device 15, continue to work in the “standby” mode until they are activated as the evacuation convoy moves.

It should be noted that pyrotechnic charges 6 are placed, as a rule, to indicate guidelines for the safe passage of a prefabricated evacuation column in conditions of poor visibility and provide the maximum possible distance of visibility in the emerging optical medium, and noise charges 7 - additionally in especially dangerous sections of passage 4, for example , on sharp bends of the evacuation route, dangerous cliffs or slopes, when approaching bridges, ferries and other difficult sections of the evacuation route that warn the columns with sound , for example, sirens about the danger.

Industrial applicability of the claimed technical solution is as follows.

The invention is intended to detect an emergency and eliminate its consequences associated with saving the population, material and cultural values from areas of a catastrophic nature in the event of natural disasters.

Currently, unmanned aerial vehicles of various designs are widely used in the Russian Federation and abroad to detect an emergency and liquidate its consequences, and their use does not require refinement of elements and components of their design when implementing the claimed technical solution.

Modern unmanned aerial vehicles manufactured by the industry have:

- efficiency in comparison with manned aircraft;

- simplified infrastructure for UAV servicing;

- the ability to quickly deploy the forces and assets given by the UAV to detect an emergency and liquidate its consequences.

The industry has launched the production of various signal pyrotechnic charges and noise charges, the use of which does not require refinement of elements and components of their design when implementing the claimed technical solution.

Delivery of small loads and dumping them from an unmanned aerial vehicle in an emergency area, including using a parachute, are described in a technical solution on command from a flight control station (Patent RU No. 2350368, А62В 99/00 (2009.01), publ. 27.03. 2009).

According to the author of the invention, it is quite obvious that when implementing the claimed technical solution, including arranging a passage for the evacuation of the population, material and cultural values from a catastrophic region, no long special training of rescue units and significant material costs are required.

The analysis of well-known information from the prior art and modern theoretical concepts of the features of the development of emergencies in the event of natural disasters, including large-scale fires, disasters and accidents, as well as the development of emergencies when a possible adversary uses modern means of destruction or as a result of terrorist acts, showed a great prospect for the application of the proposed technical solution related to the salvation of the population, material and cultural values by evacuating from a catastrophic area.

Claims (2)

1. A method for evacuating the population, material and cultural property in an emergency mode, including monitoring the situation using on-board surveillance equipment, processing this data and controlling the flight of an unmanned aerial vehicle, delivery of small cargoes, including radio communications, using this aircraft; and the use of an unmanned aerial vehicle in a catastrophic area to eliminate the consequences of an emergency, characterized in that when using the named The detachment apparatus determines the coordinates of the passage for the evacuation of the population, material and cultural values from the area of catastrophic nature, flashes the signal pyrotechnic charges along the perimeter of the passage from the unmanned aerial vehicle, and additionally noise charges on the dangerous sections of the passage, and when moving along the passage of columns with the population moving on foot or on technical vehicles, such as cars or buses, and / or technical vehicles with material and cultural with the help of radio beacons, they activate signal pyrotechnic charges, indicating landmarks for safe passage in conditions of poor visibility, and in hazardous sections of the passage they activate noise beacons with the aid of radio beacons, additionally warning of the danger that has arisen. 2. A set of means of evacuation of the population, material and cultural property in an emergency mode, including a flight control system and on-board surveillance equipment for an unmanned aerial vehicle, emergency response equipment designed to deliver them to a catastrophic area using the aforementioned aircraft, and payload made in the form of small cargoes, including radio communications and means of their delivery to a controlled area, distinguishing I mean that the payload additionally contains means of arranging passage in the controlled area for the evacuation of human and technical resources from a catastrophic area, made in the form of signal pyrotechnic and noise charges equipped with beacons designed to indicate guidelines for safe passage in conditions of poor visibility and launch them in the activation mode when traveling in an organized passage of columns with a population on foot or on technical vehicles and / or technical media stv movement with material and cultural values.

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