RU2625506C1 - Method of combating with unmanned aircrafts - Google Patents

Abstract

FIELD: aviation.

SUBSTANCE: method relates to the field of counteraction to unmanned aircrafts (UACs) and can be used in the development of anti-aircraft combat systems. To combat the UACs in the anterior region of the UAC flight, at a distance no greater than the distance from it, form a spatially extended web of light-dense, lightweight synthetic fiber strips (strips) coated with antistatic composition into at least one echelon.

EFFECT: increased possibility of failure of the task of an unmanned aircraft.

1 cl

Description

The invention relates to the field of counteraction against unmanned aerial vehicles (UAVs) and can be used in the development of systems for combating them.

A known method of detecting and combating UAVs is based on its detection, calculating spatial coordinates, guiding launchers, launching missiles and damaging UAVs with elements of the warhead of a rocket [see, for example, Godunov A.I., Shishkov S.V., Yurkov N .TO. Detection and combat complex by small unmanned aerial vehicles. Reliability and quality of complex systems, No. 2 (6), 2014].

The disadvantage of this method is the need for high-precision guidance of ammunition. In addition, the limited UAV damage zone with one shot does not provide a high probability of hitting the target, and a large ammunition consumption can be economically disadvantageous from the point of view of destroying inexpensive UAVs.

There is a method of controlling UAVs using electromagnetic radiation, based on the detection of UAVs, determining the distance to it and radiation in the direction of the UAV of electromagnetic energy with a power sufficient to disable the on-board control system by inducing currents on parasitic antennas of an unmanned aerial vehicle [see , for example, patent RU 2551821, C1, IPC H01Q 1/00, publ. May 27, 2015].

The disadvantage of this method is the need to create a powerful electromagnetic microwave radiation, which has a harmful effect on humans and electronic means of other purposes.

Closest to the technical nature of the claimed method is a method of combating UAVs based on the use of network traps [see, for example, patent RU 72754, U1, IPC F41H 13/00, publ. April 27, 2008]. The method consists in detecting, direction finding the UAV and pointing the carrier with the network-trap to the target. The trap net, equipped with four sinkers, shoots toward the target. At the same time, the sinkers stretch the network-trap, ensuring the interception of the UAV, which leads to the failure of the mission.

The disadvantage of this method is the low probability of disruption in the performance of the UAV task, due to the relatively small (units of meters) geometric dimensions of the network or the complexity of its spatial deployment with large network sizes. The implementation of this method requires high accuracy of delivery and shooting of the network-trap. In addition, the guidance system of the carrier network-trap is the object of electronic suppression.

The technical result of the invention is to increase the likelihood of disruption of the UAV mission due to the formation in the area of its location (or in the front region of its flight at a predetermined distance from it) of a spatially extended web of lightweight strong bands (tapes) of synthetic fiber that impede the operation of propulsion systems. It does not require high accuracy in determining the location of UAVs and significant financial costs.

The specified technical result is achieved by the fact that in the known method of fighting unmanned aerial vehicles based on the detection and determination of the spatial coordinates of UAVs, according to the invention, a spatially-extended web of light strong synthetic bands (tapes) is formed in the front flight area of the UAVs at a given distance from it fiber in at least one train.

The essence of the invention lies in the fact that according to the results of the detection and determination of the spatial coordinates of the UAVs in the front flight area of the UAVs at a distance no greater than the specified distance from it, a spatially extended web of lightweight strong bands (tapes) of synthetic fiber of at least one echelon is formed. The formation of such a web ensures that an unmanned aerial vehicle enters it with a probability close to unity. The flight of UAVs in the area of such a web will lead to the winding of tapes on the propellers and ultimately the fall (forced landing) of the UAV, that is, to achieve the specified technical result.

The area of a spatially extended web is created by shooting projectiles in the direction of the UAV equipped with cassettes with lightweight strong bands (tapes) of synthetic fiber with an antistatic coating. When shells are detonated, cassettes are distributed in space and provide chaotic dispersion of web elements by turbulent air flows. This process is similar in dynamics to the formation of a cloud of passive interference based on dipole reflectors [see, for example, A. Paliy. Electronic warfare. - 2nd ed., Revised. and add. - M .: Military Publishing House, 1989, p. 62-77]. The size of the area necessary to achieve a high probability of UAVs entering the web is provided, for example, by shooting several shells and creating one or more echelons of web. The predetermined distance from the UAV to the web being formed and the distance between the echelons is selected from the condition that the formed web is maintained until the UAV approaches it, taking into account its flight speed and the web's “life” time.

The technical implementation of the method of combating UAVs based on the formation of a spatially extended web is provided by equipping shells with cassettes with light strong strips (tapes) of synthetic fiber, as is done, for example, with cassettes in a known projectile for setting a combined false target [see, for example, RU patent 2239777, C1, IPC F42B 12/48, publ. November 10, 2004] or a turbojet projectile of radar interference [see, for example, patent RU 2249784, C2, IPC F42B 12/70, publ. April 10, 2005].

The formation of a spatially extended web is possible both from an aircraft and from the surface of the earth (sea) using fired jamming systems similar to the PK-16 complex for protecting surface ships [see, for example, hpttps: //yandex.ru,dogswar. en> artilleriiakompleks-vystrelivae.html. Date reversed May 25, 2015]. Such complexes provide clouds of passive interference at ranges up to 5 km and altitudes up to 2000 meters.

The proposed technical solution is practically applicable, since for its implementation typical nodes and devices can be used.

The use of the invention provides an increase in the likelihood of failure to complete the UAV task.

Claims (1)

A way to combat unmanned aerial vehicles (UAVs), based on the detection and determination of the UAV spatial coordinates, characterized in that a spatially extended web is formed from antistatic composition of light durable strong bands (tapes) of synthetic fiber in the front region of the UAV’s flight at a given distance from it at least one echelon.