RU2522193C1 - Cassette-type warheads - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: proposed warhead comprises case, container with detachable cover and hitting elements. Container has circular bulge and ring flange secured to ring support by burst screws to make circular gas duct. Detachable cover is secured by breaking screws at circular bulge end and pressed from outside by circular thrust rigidly connected with ring flange by forcing elements composed of screws with attenuated cross-section and dampers from plastics, for example, polyethylene. Screws are arranged in circular support holes. Accumulating chambers are made in cassette-type warhead. First chamber is communicated via circular gas duct with container separation powder charge while the second one communicates via axial channels and circular collector with hit element propulsion charges.

EFFECT: higher efficiency of forcing elements.

1 dwg

Description

The invention relates to the field of rocketry, and in particular to cluster warheads (CCH) of rockets (PC) multiple launch rocket systems (MLRS).

When designing cluster warheads for the MLRS PC, much attention is paid to the delivery system of warheads to the target after ejecting them from the carrier. This is due to a sufficiently large spread in the opening height of the PC, reaching several thousand meters. Cassette warheads must also ensure the entry of combat elements at speeds that ensure their future performance.

A feature of these cluster warheads of the MLRS is that the reliability of the operation and the effectiveness of their action largely depends on the choice of the design and layout scheme, which allows for reliable and efficient operation of a missile with a KGCh.

Known design KGH rotating rockets according to the patent of the Russian Federation No. 2186330, F42B 12/58, publ. 02/27/2002, containing the body and placed in it a frame with military elements of a cylindrical shape.

This design of the KGCH allows us to solve the problem of the orderly placement of combat elements in the KGCh body through the use of a frame made in the form of a thin-walled tubular guide coaxial with the body of the warhead, as well as to ensure the release of combat elements at a given point on the trajectory.

However, this design does not provide structural units to reduce overloads and vibration shock loads acting on combat elements when they are ejected.

Thus, the objective of this technical solution was to place the combat elements inside the cluster head unit and eject them at a given point in the trajectory of rockets.

Common features with the proposed cartridge design of the warhead is the presence of an analogue of the hull and combat elements.

The closest in technical essence and the achieved technical result is the design of the head part according to the patent of the Russian Federation No. 2420709, F42B 12/58, publ. 06/10/2011, adopted by the authors for the prototype, comprising a housing, a container with a detachable lid at the end and combat elements.

This design of the warhead ensures the operability of the warhead and the complete release of combat elements due to the fact that the hull is equipped with a detachable lid and a nozzle mounted on its outer surface and made as part of a circular cylinder.

The reasons that impede the achievement of the technical result indicated below when using the well-known KGC design adopted by the authors for the prototype include the premature operation of forcing units that fasten the detachable container lid to the container flange under the influence of axial overloads acting when the PC comes off launchers of the launcher, or on the active part of the PC path, which leads to the premature ejection of warheads at non-calculated input speeds into the air stream from segregated container KGCH, and their destruction from the action of aerodynamic forces, and, thereby, reduce the reliability of military elements and KGCH in general.

Thus, the objective of this technical solution was to ensure the full ejection of combat elements at a given point in the trajectory of rockets.

Common features with the design of the KGCH proposed by the authors is the presence in the prototype of the hull, a container with a detachable lid at the end, and combat elements.

In contrast to the prototype in the design of the KGCH proposed by the authors, the container is equipped with an annular thickening and an annular flange fastened with an annular support by bursting screws to form an annular gas duct, and a detachable lid is fixed by bursting screws on the end of the annular thickening and is clamped externally by an annular stop rigidly connected to the annular flange by means of forcing elements made in the form of screws with a weakened cross section with dampers made of plastic material, for example, polyethylene, moreover, the screws are freely located laid in the holes of the annular support, while accumulating cavities are formed in the cassette head part, the first cavity being communicated through an annular gas duct with a powder charge of the container compartment, and the second communicated through axial channels and an annular collector with a powder charge of ejection of combat elements.

It is this that allows us to conclude that there is a causal relationship between the totality of the essential features of the claimed technical solution and the achieved technical result.

These signs, distinguishing from the prototype, and to which the requested amount of legal protection applies, in all cases are sufficient.

The objective of the invention is to ensure the reliability of the operation of the boosting units when the missiles descend from the guides, as well as on the active section of the trajectory.

The specified technical result during the implementation of the invention is achieved by the fact that the cassette head contains a housing, a container with a detachable lid at the end, combat elements, the feature is that the container is equipped with an annular thickening and an annular flange fastened with annular support by bursting screws to form an annular gas duct , and the detachable lid is fastened with rupture screws on the end face of the annular thickening and is pressed externally by an annular stop rigidly connected to the annular flange by means of in forcing made in the form of screws with a weakened cross-section, with dampers made of plastic material, for example, polyethylene, moreover, the screws are freely located in the holes of the annular support, while accumulating cavities are formed in the cassette head part, the first cavity being communicated through an annular gas duct with a powder charge container compartment, and the second is communicated through axial channels and an annular collector with a powder charge of the ejection of combat elements.

A new set of structural elements, as well as the presence of connections between them, allows, in particular, due to:

- supplying the container with an annular thickening and an annular flange fastened with annular support by rupture screws to form an annular gas duct, as well as securing the detachable lid with rupture screws at the end of the annular thickening and pressing it from the outside with an annular stop rigidly connected to the annular flange by means of forcing elements made in the form of forcing elements screws with a weakened cross-section with dampers made of plastic material, for example, polyethylene, and the screws are freely located in the holes of the ring support, to ensure unloading of explosive screws securing the detachable lid during the movement of the PC along the launcher guide and along the path, reduce the force of forcing the explosive screws securing the detachable lid, as well as vibration shock when the container is separated, minimize overloads when ejecting combat elements, and thus to increase the reliability of the functioning of the forcing units during the descent of rockets from guides, as well as in the active section of the trajectory;

- the formation of the first accumulating cavity, which is communicated by means of an annular gas duct with a powder charge of the container compartment, to increase in time the front of the rise of pressure and decrease its amplitude in the accumulation cavity when the powder charge of the container separates the KGC from the rocket engine, and thereby dramatically reduce vibration shock loads on a container with combat elements, increase the safety of combat elements and the reliability of their functioning;

- the formation of a second accumulating cavity, which is communicated through axial channels and an annular collector with a powder charge of the ejection of combat elements, to ensure that the accumulation cavity is filled with powder gases, while extinguishing vibrational loads from the operation of the powder charge of the ejection in the collector, and thereby reduce overload and vibration shock load on combat elements when they are ejected, and, therefore, ensure their persistence and high reliability of the operation of the boosting units during the descent of reactive missiles a series of guide, as well as the boost phase.

The essence of the invention lies in the fact that in the well-known KGC, comprising a body, a container with a detachable lid at the end and combat elements, in contrast to the prototype, the container is equipped with an annular thickening and an annular flange fastened with an annular support by rupture screws to form an annular gas duct, and detachable the lid is fixed with breakaway screws at the end of the annular thickening and is pushed from the outside by an annular stop rigidly connected to the annular flange by means of forcing elements made in the form of screws with In this case, with dampers made of plastic material, for example, polyethylene, the screws being freely located in the axial holes of the ring support, while accumulating cavities are formed in the cassette head part, the first cavity being communicated through an annular gas duct with a powder charge of the container compartment, and the second communicated through axial channels and an annular collector with a powder charge of the ejection of combat elements.

The essence of the invention is illustrated in the drawing, where figure 1 shows a General view of the cassette head part.

The proposed KCH contains a housing 1, a container 2, equipped with an annular thickening 3 and an annular flange 4, a detachable cover 5, warheads 6, a powder charge of the compartment 7, a powder charge of the discharge 8, explosive screws 9, screws with a weakened cross-section 10, explosive screws 11, annular support 12, annular emphasis 13, dampers 14, command device 15, squib 16 and 17.

Cassette head part operates as follows.

At a given point of flight PC, the command device 15 gives an electric signal to the squib 16, which activates the powder charge of the compartment 7. The gases generated from the actuation of the powder charge of the compartment 7 flow along the annular gas duct A into the first storage cavity D ₁ located between the container 2 and the rocket engine 18. When the pressure in the first accumulating cavity D _{1 is} equal to the forcing pressure, the blasting screws 9 are destroyed and the container 2 is ejected from the housing 1 screwed with a rocket engine 18, at when moving the container 2, screws with a weakened cross-section 10 pass through holes B, an annular stop 13 hits an annular support 12, the screws with a weakened cross-section 10 fastening the annular stop 13 are destroyed. Due to the dampers 14 made of plastic material, vibration shock loads are reduced, arising from the impact of the ring stop 13 on the ring support 12, on the combat elements 6 located in the container 2. After a predetermined time of unstabilized flight of the container 2, designed to damp the flight speed container 2 before the release of combat elements 6, the command device 15 gives a command to release combat elements 6 in the form of an electrical impulse to the igniter 17, which activates the powder charge of the discharge 8. The powder gases generated from the operation of the powder charge of the emission 8 in the annular collector B are filled through the axial channels D the second storage cavity D ₂ . Upon reaching the pressure of the powder gases in the storage cavity D ₂ equal to the forcing pressure, the blasting screws 11 are destroyed, the detachable cover 5 of the container 2 is reset, and the combat elements 6 are released from the container 2 into the air stream.

Thus, the reliability of the operation of the boosting units during the descent of rockets from the guides, as well as in the active section of the trajectory, is ensured.

The specified positive effect is confirmed by flight design tests of multiple launch rocket shells with a cluster head made in accordance with the invention.

Currently, design documentation for the proposed cluster head has been developed, flight tests have been conducted.

Claims (1)

A cassette head containing a body, a container with a detachable lid at the end, combat elements, characterized in that the container is equipped with an annular thickening and an annular flange fastened with annular support by bursting screws to form an annular gas duct, and the detachable lid is fixed by bursting screws on the end of the annular thickening and pressed from the outside by an annular stop rigidly connected to the annular flange by means of forcing elements made in the form of screws with a weakened cross-section and dampers made of plastic m of the material, for example, of polyethylene, the screws being freely located in the holes of the annular support, while accumulating cavities are formed in the cassette head, the first cavity being communicated via an annular gas duct with a powder charge of the container compartment, and the second is communicated through axial channels and an annular collector with a powder charge ejection of combat elements.