RU2803627C1 - Method for hitting area target by group activity of cluster munition subamunitions - Google Patents

Abstract

FIELD: explosives.

SUBSTANCE: method of defeating an area target by the group action of cluster munition submunitions consists in undermining the submunitions delivered to the area target and placed at a given distance, creating an information monitoring centre for the delivery of submunitions to the area target, each of which is equipped with a beacon that is triggered by the interaction of the submunition with the area target. After the delivery of all submunitions is recorded by the information monitoring centre, a general command is formed to detonate the submunitions. In this case, submunitions for their delivery to the area target are removed from the cluster munition at the given points of the trajectory. At the same time, the information centre additionally determines the density of distribution of submunitions over the surface of the area target, compares the existing density of distribution of submunitions with that required to hit the area target, generates a command to deliver additional submunitions if their distribution density is lower than required, forms a general command to detonate all submunitions, if the density of distribution of submunitions over the surface of an area target is equal to or higher than that required to destroy it with the required degree.

EFFECT: increased effectiveness of the damaging of multiple launch rocket systems and cluster aviation munitions.

4 cl, 1 dwg

Description

The invention relates to group explosion technology and can be used to increase the effectiveness of the lethal effect of multiple launch rocket systems and aviation cluster munitions.

There is a known method of destruction by the group action of ammunition [1], which includes equipping ammunition casings with charge components based on explosives, rubbers and metal combustibles with a total content of more than 20% by weight, installing ammunition on the ground, installing initiating ammunition, activating ammunition with a charge of initiating ammunition and ensuring the interaction of the charge components of installed ammunition in the detonation and afterburning mode with the release of energy, the charges use rubber that ensures adhesion of the ammunition charge to the walls of the housing and a detonation speed not exceeding 6000 m/s, ammunition with an initiating charge with a detonation speed not lower than 7600 m/s are located in the center of the ammunition location, while the ammunition is installed on the ground, at a given distance from each other, determined from the expression

where, m; m - charge mass, kg; R - distance between ammunition,

which ensures the interaction of gas-dynamic flows of reacting substances and afterburning of the mixture of active products with atmospheric oxygen.

The disadvantage of this method is the lack of information content, since when using multiple launch rocket system shells and aviation cluster munitions, there is a difference in the landing time of their submunitions, which leads to non-simultaneous detonation of the submunitions. In addition, the distribution density of ammunition over the target surface is not determined, which can lead to an underestimated probability of hitting an area target.

The closest to the claimed invention is a method of hitting an area target with the group action of cluster munition submunitions [2], based on the detonation of submunitions delivered to an area target and placed at a given distance, determined from the expression:

m - charge mass, kg,

R - distance between submunitions, m;

which ensures the interaction of gas-dynamic flows of reacting substances and the afterburning of a mixture of active products with atmospheric oxygen, while creating an information center for monitoring the delivery of submunitions to an area target, each of which is equipped with a beacon that is triggered when the submunition interacts with an area target, after the observation information center has recorded the fact of delivery of all submunitions form a common command to detonate submunitions, while submunitions for delivery to an area target are extracted from a cluster munition at specified trajectory points.

The disadvantage of this method is the lack of information content, since during its implementation the current distribution density of ammunition over the surface of an area target is not determined and the required distribution density is not formed to ensure the destruction of the target at a given degree of destruction.

The technical objective of the present invention is to develop a method for hitting an area target with the group action of cluster munition submunitions according to a given degree of destruction.

The technical result is an increase in the probability of hitting an area target by ensuring the required distribution density of submunitions over the surface of an area target, as well as the simultaneous detonation of landed submunitions formed as a result of the detonation of several (for example, N) cluster warheads of multiple launch rocket system or cluster aircraft projectiles along the trajectory ammunition.

The technical result is achieved by using a new method of hitting an area target with the group action of submunitions of cluster munitions, which consists in detonating submunitions delivered to an area target and placed at a given distance, creating an information center for monitoring the delivery of submunitions to an area target, each of which is equipped with a beacon that is triggered by interaction submunitions with an area target, after the observation information center has recorded the fact of delivery of all submunitions, a general command is formed to detonate the submunitions, while the submunitions for delivery to the area target are removed from the cluster munition at specified trajectory points, while the information center determines the distribution density of the submunitions over the surface of the area target , compares the existing distribution density with that required to hit the target at a given degree, generates a command to deliver additional ammunition if the distribution density is lower than required, generates a general command to detonate submunitions if the distribution density of submunitions over the target surface is equal to or higher than that required to hit the target at a given level type.

New features of the invention:

- the information center determines the distribution density of submunitions over the surface of an area target;

- compares the existing distribution density with that required to hit a target at a given degree;

- forms a team to deliver additional ammunition if the distribution density is lower than required;

- forms a general command to detonate submunitions if the distribution density of submunitions over the target surface is equal to or higher than that required to hit the target to a given degree.

A new set of essential features, including new and known ones, ensures the solution of the problem with the achievement of a technical result - increasing the probability of hitting an area target by ensuring the required distribution density of submunitions over the surface of an area target, as well as the simultaneous detonation of landed submunitions formed as a result of the detonation of several submunitions along the trajectory (for example, N) cluster warheads of multiple launch rocket systems or aircraft cluster munitions.

The use of a single set of essential distinctive features in known technical solutions has not been found, which characterizes the compliance of the technical solution under consideration with the “novelty” criterion.

The above set of new essential features in combination with common known ones ensures the solution of the problem with the achievement of the required technical result and characterizes the proposed technical solution with significant differences compared to the known level of technology.

In a particular case, it is provided that if a command from the surveillance information center to detonate a submunition is not received after a specified time, it will be detonated from the submunition fuse.

In a particular case, the surveillance information center is placed on an autonomous unmanned aerial vehicle.

In a particular case, the surveillance information center is placed on a remotely piloted aircraft.

The inventive method is the result of research and experimental work to increase the probability of hitting an area target by ensuring the required distribution density of submunitions over the surface of an area target, as well as the simultaneous detonation of landed submunitions formed as a result of the activation of several (for example, N) cluster warheads along the trajectory multiple launch rocket systems or cluster munitions.

The figure shows a typical implementation diagram of the method, where

1 - observation center;

2 - area target;

3 - primary submunition;

4 - additional submunition.

The method is implemented as follows. Before attacking an area target 2, an information surveillance center 1 is created, which is placed on board an autonomous or remotely piloted unmanned aerial vehicle. In this case, area target 2 is understood as a group object, in which the exact number and relative position of elementary (single) objects is not taken into account, and the impact of weapons is carried out over the area of the object as a single whole, assuming an equally probable distribution of elementary (single) objects [3].

For area targets, three degrees of destruction are usually used: destruction, suppression, disorganization [3]. The operational-tactical content of the above concepts is as follows:

destruction - inflicting such damage on the target as a result of which it loses the ability to solve the task as intended without replenishment with manpower and military equipment (loses combat effectiveness);

suppression - inflicting such damage on the target as a result of which it temporarily loses the ability to solve the task as intended (temporarily loses combat effectiveness);

disorganization - causing such damage to a target (creating such conditions), as a result of which its controllability, maneuverability, mobility or functional and technological relationships both between the elements of the target itself and with other targets are temporarily disrupted.

The on-board systems of an autonomous or remotely piloted unmanned aerial vehicle, for example, a radar station, an optical-electronic system, etc., can be used as the surveillance information center 1. With the help of the surveillance information center 1, the state of the area target 2 is monitored. Then, a time-spaced set of cluster warheads of multiple launch rocket system projectiles or cluster aircraft munitions are delivered to the area target area 2, which in the target area form a “swarm” of primary submunitions 3, which with some time delays, an area target 2 is covered. Each of the submunitions 3 is equipped with a beacon (for example, a radio beacon), which begins to operate after the submunition 3 lands.

The presence of 3 beacons on the submunitions makes it possible to inform the surveillance information center 1 about the fact of their landing. Also, at the moment of landing, submunition fuses 3 are switched to firing position.

The fact of landing and the coordinates of all submunitions 3 is recorded by the observation information center 1. After the landing of the last submunition 3, the information center 1 analyzes the distribution density of the primary submunitions 3 over the surface of the area target 2, compares the existing distribution density with that required to hit target 2 to the required degree, and forms a team to deliver additional submunitions 4 if the distribution density is lower than required, a general command is formed to detonate the primary 3 and additional submunitions 4 if the distribution density of submunitions over the surface of an area target 2 is equal to or higher than that required to destroy target 2 with a given degree.

If a command is not received after a specified time from the surveillance information center 1 to detonate the primary 3 and additional 4 submunitions, they are detonated from the submunition fuses.

When using the on-board systems of a remotely piloted unmanned aerial vehicle as a surveillance information center 1, a general command to detonate submunitions can be given by the operator of the remotely piloted unmanned aerial vehicle. The simultaneous detonation of submunitions 3 with their required distribution density over the surface of the target 2 makes it possible to increase the probability of hitting an area target 2 with a given degree.

Thus, the proposed method can be used to hit an area target with the group action of cluster munition submunitions. The use of the proposed method will increase the probability of hitting an area target by ensuring the required distribution density of submunitions over the surface of an area target, as well as the simultaneous detonation of landed submunitions formed as a result of the detonation of several (for example, N) cluster warheads of multiple launch rocket system or cluster rockets along the trajectory aviation ammunition.

Information sources

1. Patent RU 2233426, IPC 7 F42B 23/00, publication date 07.27.2004

2. Patent RU 2713683, IPC 7 F42B 12/58, publication date 02/06/2020

3. Burenok V.M., Pogrebnyak R.N., Skotnikov A.P. Methodology for substantiating the prospects for the development of general-purpose weapons. M. Mechanical Engineering, 2010.

Claims (4)

1. A method of hitting an area target with the group action of cluster munition submunitions, which consists in detonating submunitions delivered to the area target and placed at some distance from each other, creating an information center for monitoring the delivery of submunitions to the area target, each of which is equipped with a beacon that is triggered by interaction submunitions with an area target, after the surveillance information center has recorded the fact of delivery of all submunitions, a general command is formed to detonate the submunitions, while the submunitions for delivery to the area target are removed from the cluster munition at specified trajectory points, characterized in that the information center additionally determines the distribution density of the submunitions along the surface of an area target, compares the existing distribution density of submunitions with that required to destroy an area target, generates a command to deliver additional submunitions if their distribution density is lower than required, generates a general command to detonate all submunitions if the distribution density of submunitions over the surface of an area target is equal to or higher than required to defeat it with the required degree. 2. The method according to claim 1, characterized in that if a command from the surveillance information center to detonate the submunition is not received after a specified time, it is detonated from the submunition fuse. 3. The method according to claim 1, characterized in that the surveillance information center is placed on an autonomous unmanned aerial vehicle. 4. The method according to claim 1, characterized in that the surveillance information center is placed on a remotely piloted aircraft.