RU200588U1 - PROJECT TO DESTROY UNMANNED AIRCRAFT - Google Patents

Abstract

The utility model relates to the field of combating small-sized unmanned aerial vehicles (UAVs) and can be used in military equipment, in particular in air defense systems, to defeat or capture UAVs. The task of the proposed utility model is to create a device for combating small-sized unmanned aerial vehicles that is not susceptible to electronic warfare. The task is achieved by the fact that in the projectile under the discarded fairing there is a rod on which a pentagonal-shaped net-trap is wound against the direction of rotation of the projectile, a tip is attached to the end of the rod in front of the coil. The corners of the net are attached to the holes of the five sectors of the master, and the sectors of the master themselves are placed in the stop grooves on the rod following the coil with the net, and the master is also equipped with an obturating belt. In the bottom part of the projectile, there is a stabilizer attached to a rod tapering after the leading device.

Description

The utility model relates to the field of combating small-sized unmanned aerial vehicles (UAVs) and can be used in military equipment, in particular, as an air defense tool to defeat or capture UAVs.

Known device RU45 818U1 from 11.11.2004. This device is a fragmentation-beam projectile, in the body of which a block of damaging elements with an expelling charge is installed, the electric detonator of which is connected to the output of the blasting signal generator. The projectile is rotatable and additionally contains a target aiming device connected at the output to the input of the blasting signal generator.

This projectile has a drawback. Since some UAVs have a lattice frame design, the probability of hitting a target by a fragmentation-beam projectile is reduced.

Known device RU185 949U1 from 08.10.2018, which is a prototype of the proposed utility model, containing in the head, closed by a discarded fairing part of the net-trap with weights attached at the corners of the net, stretching this net-trap, providing cover and capture of the UAV.

The disadvantages of this device include the presence of electronic equipment, namely the guidance unit, which makes the device vulnerable to electronic warfare.

The task of the proposed utility model is to create a device for combating small-sized unmanned aerial vehicles that is not susceptible to electronic warfare.

The task is achieved by the fact that in the known device, which contains a trap net with weights attached at the corners of the net with weights attached at the corners of the net by a discarded fairing, which contains a net-trap, providing cover and capture of the UAV. The trap net is wound on a steel rod with a gauge stabilizer attached to it and a tip that acts as a coil carrier. The five sectors of the master are used as weights to stretch the network and are attached to the corners of the network. The number of sectors is due to the optimal pentagon shape of the net, which provides a much better coverage area than a square or triangular net. The rod is made of metal that is strong enough to withstand the load when fired, such as steel40. The sectors of the master device are made of duralumin alloy, the strength of which is sufficient to withstand the load when fired, and the net itself, made of nylon thread, has a large cell, which allows you to wind a net of a larger area on the rod under the fairing, since the total volume of the thread used will be less than in the case of a fine mesh network. In addition, the net is wound against the direction of rotation of the projectile.

The drawing shows a view and section of the proposed projectile, which shows: a dumped fairing 1, a rod 2, a tip 3, a leading device 4, a stabilizer 5, a pin 6, an obturating belt 7, a trap net 8.

The proposed device looks like this. In the head part of the projectile, under a dumped fairing with thickenings 1, assembled in two parts and installed in a groove on the driver 4, there is a rod 2, which has a smaller diameter than in other parts of the projectile, made of metal, the strength of which is sufficient to withstand the load at shot, and which is not intended to penetrate armor, for example, Steel 40. On the rod tightly, against the direction of rotation of the projectile, a net-trap 8 is wound, of a pentagonal shape made of nylon thread capable of withstanding the maximum load arising at the time of unwinding the net and having a large mesh, which makes it possible to wind a net of a larger area on the rod under the fairing, since the total volume of the thread used will be less than in the case of a fine-mesh net; in addition, a tip 3 is attached to the end of the rod in front of the coil by means of a thread; the corners of the net are attached to the holes of the five sectors of the master unit 4, made of duralumin alloy, the strength of which is sufficient to withstand the load when fired; the number of sectors is due to the optimal shape of the pentagon-shaped network, which provides a much better coverage area than a square or triangular network; the sectors of the master are placed on the thickened part of the rod 2 in special stop grooves next to the coil with the net 8; In addition, the driving device is equipped with an obturating band 7. In the bottom part there is a stabilizer 5, which is attached by means of a threaded connection and a pin 6 to a rod 2 smoothly tapering after the driving device.

The utility model works as follows: at the moment of a shot in the barrel bore, an inertial force acts on the thickening in the parts of the discarded fairing 1, which leads to its deformation. Deforming, the discarded fairing 1 slides over the tip of the tip 3 and splits into two halves. After passing the muzzle, the parts of the discarded fairing 1 are torn off by counter air currents. Further, under the action of oncoming air flows, the sectors of the leading device 4 are broken off and, under the action of centrifugal force, the coil with the net 8 is unwound. The necessary centrifugal force is obtained due to the rotation of the projectile, which is set by the stabilizer blades 5. After full untwisting, the net 8 is disconnected from the rod 2, and the swept projectile , including the tip 2, the rod 3 and the stabilizer 5, secured by the pin 6, continues to move separately from the network 8.

The technical result of the proposed utility model is the creation of a means of combating unmanned aerial vehicles that is not susceptible to electronic warfare.

Claims (5)

1. A projectile for hitting unmanned aerial vehicles, containing a master device and in the head part, closed by a drop fairing, a trap net with weights attached at the corners of the net for stretching the trap net, characterized in that the drop fairing is made with bulges, assembled from two parts and is installed in a groove on the driving device, under which there is a rod having a smaller diameter than in other parts of the projectile, on which a pentagonal-shaped net-trap is tightly wound on the coil against the direction of rotation of the projectile, a tip is attached to the end of the rod in front of the coil using a thread, the corners of the net are attached to the holes of the five sectors of the master, which are located on the thickened part of the rod in the thrust grooves next to the coil with the net, the master is equipped with an obturating belt, and a stabilizer is located in the bottom of the projectile, which has the angle of inclination of the blades necessary for untwisting the net-trap and attached with a threaded joint union and pin to the rod smoothly tapering after the master. 2. A projectile for hitting unmanned aerial vehicles under item 1, characterized in that the rod is made of metal, the strength of which is sufficient to withstand the load when fired, and which is not intended to penetrate armor, for example, Art. 40. 3. A projectile for hitting unmanned aerial vehicles according to claim 1, characterized in that the trap network has a large cell. 4. A projectile for hitting unmanned aerial vehicles according to claim 1, characterized in that the trap net is made of nylon thread capable of withstanding the maximum loads arising when the net is unwound. 5. A projectile for hitting unmanned aerial vehicles according to claim 1, characterized in that the sectors of the master device are made of duralumin alloy, the strength of which is sufficient to withstand the load when fired.

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