RU105986U1 - MANAGED INDIVIDUAL USE ROCKET - Google Patents

Abstract

 1. A guided missile for personal use, comprising a homing system and a warhead mounted on a carrier equipped with a propulsion system, characterized in that the missile is equipped with a self-contained replaceable module made in the form of a combination of a receiving element of a homing system, a control action formation unit of a homing system and a projectile forming charge of the warhead the mechanical and electrical coupling of which with the carrier is carried out by means of a quick disconnect . ! 2. Guided missile according to claim 1, characterized in that the self-contained replaceable modules are identical in mass and aerodynamic characteristics. ! 3. Guided missile according to claim 1, characterized in that the pairing of the stand-alone replaceable module with the carrier is carried out by means of a quick disconnect connection along a plane perpendicular to the longitudinal axis of the rocket. ! 4. Guided missile according to claim 1, characterized in that the receiving element of the homing system as part of an autonomous replaceable module is made responsive to thermal (infrared) radiation of the target. ! 5. Guided missile according to claim 1, characterized in that the receiving element of the homing system as part of an autonomous replaceable module is made responsive to the acoustic radiation of the target. ! 6. Guided missile according to claim 1, characterized in that as the projectile-forming part of the autonomous replaceable module, ready-made striking elements are used, mainly spherical or cylindrical.

Description

The utility model relates to high-precision weapons, in particular to guided missiles (SD) for hitting low-flying air targets.

Missile weapons are widespread and adopted by the armed forces because they have an undeniable advantage over other types of weapons in terms of the effectiveness of hitting a target. Controlled is a missile equipped with control equipment that automatically guides the missile at a target or moves in space along a predetermined path. A special case of UR - homing UR. Homing is a rocket flight control method in which a target is detected and tracked by its unmasking signs. If the element sensitive to the unmasking signs of the target is installed directly on the SD, then such a homing system is called a passive type homing system. Depending on the type of perceived SD of unmasking signs, passive-type homing systems are divided into optical, thermal (infrared (IR)) and acoustic.

Currently, man-portable air defense systems (MANPADS) are the most effective means of hitting low-flying air attack and reconnaissance systems. MANPADS are practically the only type among anti-aircraft missile weapons, the use of which can hardly be detected by enemy reconnaissance systems, which makes it possible to use MANPADS suddenly and covertly. Due to the small size and mass of MANPADS, they can be used in conditions where the use of other means is difficult, for example, in urban areas. The leading position among MANPADS is occupied by various versions of the complexes "Stinger", "Arrow", "Needle".

The anti-aircraft UR 9 M 313, which is part of the Igla-I MANPADS, is a carrier equipped with a propulsion system, on which a passive type homing system is installed as part of the receiving command, control action generating unit, and executive body coupled through the transmission line ( control wheels) and warhead as part of an explosive, projectile-forming charge, explosive initiation means. The sensing element of the homing system UR 9 M 313, selected as a prototype, made responsive to thermal (IR) contrast of the target.

The design feature of the anti-aircraft missile system, selected as a prototype, is that the missile is made in the form of functional structural elements of the homing system and the warhead that are inseparably connected to the carrier.

It is clear that the successful conduct of hostilities is largely determined by the degree of effectiveness of the use of intelligence systems that can detect the enemy and control all of his movements. At present, as indicated in [2], one of the forms of counteraction to conducting reconnaissance operations is the transfer of hostilities to the territory of cities, where the concept of a front line simply does not exist. That is why special attention in the development of promising reconnaissance systems is given to miniature unmanned aerial vehicles (weight up to 30 kg, payload 10 ... 15 kg, geometric dimensions not more than 190 cm) of short-range radius (UAV), which are capable of providing multi-level situational awareness, target designation and communication in the interests of combat units located separately from the main forces.

One of the ways to counter the enemy’s technical reconnaissance equipment is to suppress (destroy) the peripheral reconnaissance means, because in this particular case, the destruction of enemy reconnaissance UAVs. Such opposition to the technical means of reconnaissance of the enemy is possible only through the provision of personnel conducting combat operations as a part of small mobile formations in isolation from the main forces, which have sufficient destructive force for the successful conduct of any kind of military operations and are not demanding on the weapon systems providing infrastructure.

Thus, the main disadvantage of the anti-aircraft guided missile defense of individual use, selected as a prototype, is that it has a limited scope, since it allows the fight against traditional means of air attack and reconnaissance (aircraft and helicopters), but cannot be used to defeat air targets having a low signature in the IR and visible wavelength ranges, and which, first of all, include reconnaissance miniature UAVs, which generally reduces the effectiveness of its combat use.

The problem, which the utility model is aimed at, is to create a multi-purpose SD that will defeat a wide range of low-flying air targets with various types of unmasking signs. The technical result achieved using the proposed solution is to increase the operational flexibility of the combat use of SD for individual use, which is especially important for small mobile units whose target is to suppress peripheral technical means of obtaining enemy intelligence.

The inventive SD for individual use, as well as the anti-aircraft SD, selected as a prototype, contains a homing system and a warhead mounted on the carrier. The difference from the prototype is that the UR is equipped with an autonomous replaceable module made in the form of a combination of a receiving element of a homing system, a unit for generating a control action of a homing system and a projectile charge of the warhead, the electrical and mechanical coupling of which with the carrier is carried out by means of a quick disconnect.

The first additional difference is that autonomous replaceable modules are made identical in terms of mass and aerodynamic characteristics.

The second additional difference is that the interfacing of an autonomous exchangeable module with a carrier is carried out by means of a quick disconnect connection along a plane perpendicular to the longitudinal axis of the SD.

The third additional difference is that the receiving element of the homing system as part of an autonomous replaceable module is made responsive to thermal (IR) radiation from the target.

The fourth additional difference is that the receiving element of the homing system as part of an autonomous replaceable module is made responsive to the acoustic radiation of the target (acoustic signal from the target).

The fifth additional difference is that in the projectile-forming part of the autonomous replaceable module, ready-made striking elements are used, mainly spherical or cylindrical.

It should be noted that the principle implemented in the claimed design of the SD that provides the possibility of using, depending on the combat mission, one or another pre-assembled autonomous module in the form of an independent assembly unit, is known in relation to guided aircraft weapons of the "air-ground" class [3] and anti-tank guided missiles [4] (exclusively in relation to their warheads), but with reference to the UR of individual use as part of MANPADS is used for the first time.

The individual-use SD has a typical functional structure, the constructive implementation of the homing and warhead systems installed on the carrier is well known, and therefore does not require a detailed explanation.

The inventive device operates as follows. The ability to adapt the characteristics of SD to the target situation is carried out directly by the shooter-operator by selecting the appropriate autonomous module, a typical set of which is stored and transported in the direct access zone of the shooter-operator, until the combat mission is received, but separately from the transport and launch container. The self-contained module is mounted by the shooter operator onto the carrier via a quick disconnect and fed into the transport and launch container, and the time required for this operation is comparable to the time interval required for reloading the latter, which does not exceed 30 s according to current standards. Start UR is traditionally carried out from the shoulder of the arrow operator.

The use of the proposed technical solution increases the combat effectiveness of MANPADS and provides the ability to quickly respond to changes in the combat situation. In addition, the preservation of unified SD carriers and a transport and launch container reduces the cost of MANPADS, the costs of its production and operation in the army.

Literature:

1. Vasily N.Ya., Gurinovich A.L. Anti-aircraft missile systems, Republican Unitary Enterprise Publishing House Belarusian Press House, Minsk, 2001.

2. Foreign Military Review, 2008, No. 8, p.30.

3. Foreign Military Review, 2010, No. 4, p. 58.

4. RF patent No. 2277693, IPC: F42В 15/00, 06/10/2006 Bull. No. 16.

5. Kurkotkin V.I., Sterling V.L. Homing missiles, M .: Military ed. USSR Ministry of Defense, 1963.

6. Foreign Military Review, 2009, No. 4, p.64.

7. Foreign Military Review, 2005, No. 3, p.35.

Claims (6)

1. A guided missile for personal use, comprising a homing system and a warhead mounted on a carrier equipped with a propulsion system, characterized in that the missile is equipped with a self-contained replaceable module made in the form of a combination of a receiving element of a homing system, a control action formation unit of a homing system and a projectile forming charge of the warhead the mechanical and electrical coupling of which with the carrier is carried out by means of a quick disconnect . 2. Guided missile according to claim 1, characterized in that the self-contained replaceable modules are identical in mass and aerodynamic characteristics. 3. Guided missile according to claim 1, characterized in that the pairing of the stand-alone replaceable module with the carrier is carried out by means of a quick disconnect connection along a plane perpendicular to the longitudinal axis of the rocket. 4. Guided missile according to claim 1, characterized in that the receiving element of the homing system as part of an autonomous replaceable module is made responsive to thermal (infrared) radiation of the target. 5. Guided missile according to claim 1, characterized in that the receiving element of the homing system as part of an autonomous replaceable module is made responsive to the acoustic radiation of the target. 6. Guided missile according to claim 1, characterized in that as the projectile-forming part of the autonomous replaceable module, ready-made striking elements are used, mainly spherical or cylindrical.