RU2816419C1 - Guided missile of combined action - Google Patents

Abstract

FIELD: military equipment.

SUBSTANCE: invention relates to military equipment, namely to guided missiles. Guided missile of combined action comprises body, sustainer plasma-jet engine with nozzle, fuel source for jet engine, warhead, autopilot, onboard computer. Onboard power supply is made in the form of magnetohydrodynamic generator on missile jet nozzle. An explosive layer is deposited on the housing of the magnetohydrodynamic generator.

EFFECT: higher destructive power of missile.

1 cl, 1 dwg

Description

The invention relates to the field of military equipment and can be used as a means of combined physical and functional destruction of weapons and military equipment with elements of radio-electronic systems.

An explosive magnetic-cumulative generator is known [RF patent No. 2468495 C1, IPC H02N 11/00, published November 27, 2012], containing a hollow cylindrical body, the internal cavity of which is filled with a working gas, a solenoid placed outside the cylindrical body concentric with it, an inductor placed between the solenoid and the cylinder concentric with them, a drive designed to rotate the cylindrical body, an explosive, wherein the explosive is located in a thin layer on the inner surface of the cylindrical body, the cylindrical body is made of high-strength material with low electrical conductivity.

The disadvantages of the analogue are limited functionality.

A known warhead is based on an explosive cumulative generator [RF patent No. 179760 U1, IPC F42B 12/20, F42B 1/02, H01N 39/00, published 05.25.2018], consisting of a warhead body, an explosive charge, and a vibrator , solenoid windings, batteries, radiation circuit windings, wherein the explosive charge consists of a main cylindrical explosive charge with a central axial cavity in which the solenoid winding, radiation circuit winding are located, and an additional cumulative precharge with a lining made of a highly magnetic material permeability, facing the main cylindrical charge.

The disadvantages of the analogue are limited functionality.

A well-known power supply system for an aircraft [RF patent No. 2710037 C1, MPK V64S 15/00, N02K 44/08, published 12/24/2019], containing an aircraft drive engine, a generator, the output ends of which are electrically connected to a rectifier device, the output ends of a rectifier the devices are connected to the inverter, and the inverter is connected directly to the consumer of electrical energy, while the aircraft engine is made in the form of a detonation engine, on the nozzle of which a magnetic field source and a winding are installed, which is electrically connected to the rectifier device.

The disadvantages of the analogue are limited functionality.

The closest in technical essence to the claimed device is a guided anti-aircraft missile [RF patent No. 93962 U1, IPC F42B 15/00, published on May 10, 2010], containing a housing inside which a sustainer jet engine is installed, made in the form of a plasma jet engine and equipped with a jet nozzle, a fuel source for the jet engine, a warhead, an autopilot, an on-board power supply on the rocket's jet nozzle in the form of a magnetohydrodynamic generator and an on-board computer.

The disadvantage of this device is its limited functionality.

The objective of the invention is to expand the functionality of a guided missile with the achievement of the following technical result: increasing the lethality of the missile due to the implementation of the magnetocumulative effect.

The task is solved, and the technical result is achieved by the fact that in a combined-action guided missile containing a housing, inside of which a sustainer jet engine is installed, made in the form of a plasma jet engine and equipped with a jet nozzle, a fuel source for the jet engine, a warhead, an autopilot, an onboard power supply on the rocket's jet nozzle in the form of a magnetohydrodynamic generator and an onboard computer; according to the invention, a layer of explosive is applied to the body of the magnetohydrodynamic generator.

The essence of the invention is illustrated by the block diagram shown in the figure.

The proposed combined-action guided missile 1 contains a housing 2, inside of which a propulsion jet engine 3 is installed, equipped with a nozzle 4, a fuel source for the jet engine (not shown in the figure), a warhead 5, an autopilot (not shown in the figure), and an on-board source power supply, which is used as a magnetohydrodynamic (MHD) generator 6 of the conduction type with permanent magnets 8, which is installed on the jet nozzle 4 of the rocket 1, and an onboard computer (not shown in the figure) to control the onboard equipment and the flight of the rocket. A layer of explosive 7 is applied to the body of the MHD generator6.

Expansion of functionality is achieved by applying a layer of explosive to the body of the MHD generator, which ensures the implementation of the magnetocumulative effect. In this case, the damaging factors of the missile have both a destructive effect due to the explosion of its warhead, and functional damage due to the magnetocumulative effect, the formation of an electromagnetic pulse and the disabling of nearby electronics.

A combined action guided missile works as follows. During the flight, the guided missile 1 is powered by an onboard power source - an MHD generator 6 installed on the nozzle 4 of the rocket 1, which converts the energy of the plasma in the nozzle 4 created by the propulsion jet engine 3 into electrical energy and provides power to the onboard equipment of the guided missile 1. during the entire time of its controlled flight. When the target is reached, a joint detonation of the warhead of the rocket 5 and the explosive substance 7 deposited on the body of the MHD generator 6 occurs. When the warhead of the rocket 5 explodes, the destruction of the target occurs; when the explosive substance 7 explodes on the body of the MHD generator 6, a rapid annular compression of the magnetic field occurs, created by permanent magnets 8 MHD generator 6, which causes the formation of an electromagnetic pulse that disables nearby electronics.

Thus, due to the combination of several influencing factors, the invention makes it possible to increase the lethality of a guided missile.

Claims (1)

A combined-action guided missile containing a housing, inside of which a sustainer jet engine is installed, made in the form of a plasma jet engine and equipped with a jet nozzle, a fuel source for the jet engine, a warhead, an autopilot, an on-board power supply on the rocket jet nozzle in the form of a magnetohydrodynamic generator and an on-board computer, characterized in that a layer of explosive is applied to the body of the magnetohydrodynamic generator.