RU2138763C1 - Jet projectile cluster warhead - Google Patents

Abstract

FIELD: military equipment, applicable in development of cluster warheads of jet projectiles of salvo-fire systems. SUBSTANCE: cluster warhead has a body, aerodynamic fairing, cluster with war components, gas-dynamically interconnected powder charges and a timer. The cluster warhead additionally comprises a container with front and rear flanges and symmetrically arranged longitudinal spars engageable with the body inner surface through its outer surfaces. The clusters with the war components are located between the spars and fixed in the front part by axial trapezoid lugs made on the container front flange and located symmetrically between the clusters. The length of the lugs exceeds the clearance between the container flanges and cluster end faces forming air intakes in the form of longitudinal slots and an air conduit in the form of a free space between the spars container flanges and clusters in its bottom part in pairs by the outer surfaces. Installed under the locking war components are pistons made in the form of a cup with a powder charge gas-dynamically interconnected to a transfer powder charge through a pyroretarder. Through holes are made in the rear part of the spars, in the zone of location of the diffuser positioned on the front end face of the container rear flange. The invention allows to create an ammunition with an increased area of spread of motion of the jet projectile, with an enhanced reliability of functioning. EFFECT: enhanced efficiency. 6 dwg

Description

 The invention relates to military equipment, namely to warheads of rockets, and can be used in the development of cluster warheads (CBC) rockets of multiple launch rocket systems.

 The main disadvantage of rockets with warheads of concentrated action is the relatively low efficiency of their action and, as a consequence of this, the need for a large expenditure of shells and in attracting a large number of combat vehicles to solve a combat mission.

 Developed to date, cluster warheads have improved the effectiveness of their combat use. However, the increase in efficiency was not significant due to their small size and the limited number of combat elements placed in them.

 Currently, the caliber of promising shells and warheads has increased significantly, respectively. Along with this, the number of combat elements (EBs) in cluster warheads has also increased. This circumstance significantly complicated the conditions for the ejection and dispersal of combat elements on the ground. In addition, with an increase in the total number of emitted BEs from the BCF, the probability of collision of BEs with each other and other structural elements at the initial moment of their autonomous flight has increased. In this regard, requirements for reliable fastening of combat elements inside the hull, the exclusion of their collisions at the initial moment of an autonomous flight, and the increase in the spread area have increased.

 Known cluster munition according to the patent of France N 2702557, class. F 42 B 12/58, publ. 09/16/94, ISM, issue 81, N 12, 95, containing a body with combat elements placed in it, an aerodynamic fairing, powder charges and a temporary device.

 The fastening of the combat elements inside the hull is provided by strips evenly spaced around the circumference, each of which has a supporting surface that comes into contact with the internal surface of the hull, and two holding surfaces that come into contact with at least two adjacent combat elements. Each bar is divided into at least two parts that are in mutual contact at the level of the inclined guide surface, which allows for relative sliding of each bar to separate both holding surfaces and fix the BE inside the case. However, this leads to the bursting of combat elements inside the shell of the projectile from arising overloads during firing.

 Such a phenomenon inevitably leads to a significant increase in the pressure of the combat elements on the shell of the shell and the shell of the shell on the combat elements, which requires substantial strengthening. Strengthening the hull inevitably leads to an increase in its thickness, mass and passive weight. This reduces the overall quality of the projectile.

 Thus, the objective of this technical solution is to ensure reliable fastening of combat elements inside the body of the warhead.

 Common signs with the warhead proposed by the authors are the presence of the warhead housing, the warheads placed therein, aerodynamic fairing, powder charges and a temporary device.

 The closest in technical essence and the achieved technical result, namely the reduction of loads acting on the shell of the shell and combat elements, is the design of cluster munition according to the application of the UK N 1406471, class. F 42 B 13/50, publ. 09/17/75, ISM, issue 42, N 5, 76, adopted by the authors for the prototype.

 The warhead of the ammunition contains a housing, aerodynamic fairing, cartridges with warheads, gas-dynamic interconnected powder charges and a temporary device.

After dropping the aerodynamic fairing, the cassettes fan out at a small (15-20 ^o ) angle. In this case, powder charges are ignited, which emit combat elements in the direction of the target. To ensure vertical descent of the warhead before the ejection of combat elements, shields or a parachute can be used.

 The reasons that impede the achievement of the result indicated below when using a known warhead adopted by the authors for the prototype include the fact that it is impossible to deploy the cartridges at a large angle because of their inevitable destruction from the influence of aerodynamic forces and thereby provide the required combat dispersion area elements.

 Thus, the objective of this technical solution (prototype) was to ensure the dispersion of combat elements on the ground at low speeds of the warhead and low loads on the BE.

 Common signs with the warhead proposed by the authors are: the presence of a body, aerodynamic fairing, cartridges with warheads, gas-dynamic interconnected powder charges and a temporary device.

 Unlike the prototype according to the invention, the warhead proposed by the authors additionally has a container with front and rear flanges and symmetrically arranged longitudinal spars interacting with their outer surfaces with the inner surface of the body, cartridges with combat elements are placed between the spars, while the cartridges in the front part are fixed axial trapezoidal protrusions made on the front flange of the container and having a length exceeding the gap between the support the surface of the container flanges and the ends of the cartridges, forming their outer surfaces in the bottom part in pairs of air intakes in the form of longitudinal slots and an air duct in the form of free space between the side members, container flanges and cartridges, with pistons mounted under the closing combat elements made in the form of a glass with a powder charge gas-dynamically interconnected with the transfer powder charge through the pyro-retarder, and in the rear part of the side members, in the zone of the diffuser located on the one end of the rear flange, through holes are made.

 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, distinctive from the prototype, to which the requested amount of legal protection applies, in all cases are sufficient.

 The objective of the invention is the creation of the design of the cluster warhead, providing an increase in the dispersion area of warheads at significant speeds of the projectile and warhead without increasing the load on the warheads in the process of ejection.

The new design of the individual nodes of the cluster warhead, as well as the introduction of new nodes in its design and their relative position lead to a new technical result compared to the prototype:
- placement in the warhead of the container with front and rear flanges and longitudinal side members allows for reliable fixation of cartridges and combat elements when fired and in flight,
- ensuring the interaction of the outer surfaces of the side members with the inner surface of the housing eliminates the sagging and bending of the cassettes and allows you to protect them from destruction,
- placing the cartridges between the spars, fixing them in the front of the housing with axial protrusions of a trapezoidal shape, made on the front flange of the container, the length of the protrusions exceeding the gap between the container flanges and the ends of the cartridges eliminates premature ejection of cartridges and their destruction by the aerodynamic forces of the incoming air flow ,
- the formation of the outer surfaces of the cassettes in the bottom of the pair of air intakes in the form of longitudinal slots and an air duct in the form of free space between the spars, container flanges and cassettes allows you to laminate the air flow and ensure reliable ejection of the cassettes from the container after it is completely out of the housing,
- the presence of a diffuser at the front end of the rear flange allows you to change the direction of action of the aerodynamic forces of the incoming air flow and it is useful to use it to eject cartridges with warheads. In the prototype, the oncoming air flow makes it difficult to eject combat elements, since it is necessary to overcome the force of its high-speed pressure,
- the placement under the closing combat elements of the pistons, made in the form of a glass with a powder charge, gas-dynamically interconnected with the transfer of the powder charge through the pyro-moderator allows for the delay to separate the cartridges to a sufficient distance and thereby eliminate possible collisions of the combat elements when they are ejected,
- execution in the rear part of the side members, in the area of the diffuser, through holes allows you to equalize the pressure from the windward and leeward sides, and thereby ensure the same conditions for the ejection of cartridges.

 Thus, the proposed constructive implementation of the cluster warhead allows you to create ammunition with an increased dispersion area of warheads at significant speeds of the movement of a rocket with increased reliability and operational effectiveness compared to existing ones.

 The essence of the invention lies in the fact that the warhead contains a body, aerodynamic fairing, cartridges with warheads, a system of gas-dynamically interconnected powder charges and a temporary device.

 Unlike the prototype according to the invention, it additionally has a container with front and rear flanges and longitudinal spars that interact with their outer surfaces with the inner surface of the body, cartridges with combat elements are placed between the spars and fixed in front with trapezoidal protrusions made on the front flange of the container and located symmetrically between the cassettes, while the protrusions have a length exceeding the gap between the container flanges and the ends of the cas a set of air intakes in the form of longitudinal slots in pairs in their bottom part along their outer surfaces and an air duct in the form of free space between the side members, container flanges and cartridges, with pistons installed under the closing combat elements, made in the form of a glass with a powder charge, gas-dynamically interconnected with the transfer a powder charge through a pyro-moderator, and in the rear part of the side members in the area of the diffuser located on the front end of the rear flange of the container, enes through holes.

 The invention is illustrated by drawings, where in FIG. 1 and FIG. 2 shows longitudinal and transverse sections of a cluster warhead; FIG. 3 shows a bottom section of the cartridge, in FIG. 4 is a view of two adjacent cassettes forming an air intake; FIG. 5 shows a diagram of the flow of air around the cassettes when they are ejected from the container and in FIG. 6 shows a diagram of ejecting cassettes from a container.

 The cartridge warhead consists of a housing 1, aerodynamic fairing 2, cartridges 3 with warheads 4, a container 5 with a front 6 and a rear 7 flanges and longitudinal spars 8 with through holes 9, gas-dynamic interconnected powder charges 10, 11, 12 and 13 and temporary device 14.

 Cassettes 3 are placed between the side members and fixed in front of the axial protrusions 15 of a trapezoidal shape, made on the front flange 6 of the container and having a length L exceeding the gap δ between the container flanges and the ends of the cartridges (see Fig. 1).

 Spars with their outer surfaces D interact with the inner surface of the body.

 The outer surface of the cassettes 3 is made stepwise, and the cassettes are stacked so that in their front part they are tightly pressed against each other, and in the bottom part they form air intakes 16 in pairs (see Fig. 4) in the form of longitudinal slots and an air duct 17 (see Fig. 1, 2, 5) in the form of free space between the side members 8, flanges 6 and 7, the container 5 and the cartridges 3 (see Fig. 1, 2), limited by surfaces B and C, while under the closing combat elements 18 are installed pistons 19, made in the form of a glass, with a powder charge 13, gasdynamically interconnected through with a transfer powder charge 11 through a pyrotechnic moderator 20, and through holes 9 are made in the bottom of the side members 8, in the area of the diffuser 21.

 The inventive cluster warhead operates as follows: before firing into the temporary device of the cluster warhead of a rocket, the time of its operation is introduced, based on the required firing range. At a given time, the temporary device 14 is activated, using the igniter 10 and the transfer 11 of the powder charges, which, in turn, activate the pyro-retardants 20 of the cartridges and the powder charge 12 of the opening of the warhead. When the powder charge 12 is triggered and the required pressure is reached in the working cavity G, the forcing elements 22 are destroyed, and the container 5 with cartridges 3 is fired from the body.

 After the container leaves the casing of the head of the cartridge, aerodynamic forces are ejected from the container and begin an autonomous flight.

 After a predetermined time, the pyro-retardants 20 and the powder charges 13 are triggered, and the combat elements are thrown into autonomous flight.

 Thus, all of the above design features of the claimed cluster warhead can provide an increase in the area of dispersion of warheads at significant speeds of movement of a rocket with relatively small loads on warheads.

 The indicated positive effect is confirmed by tests of prototypes made in accordance with the invention.

 Currently, design documentation has been developed, state tests have been carried out, and mass production is being prepared.

Claims (1)

 Cassette warhead of a rocket projectile, comprising a housing, aerodynamic cowling, cartridges with warheads, powder charges gas-interconnected, and a temporary device, characterized in that it additionally has a container with front and rear flanges and symmetrically located longitudinal spars interacting with their outer surfaces with the inner surface of the body, cartridges with combat elements are placed between the side members and fixed in front of the axial trapezoidal protrusions made on the front flange of the container and located symmetrically between the cassettes, while the protrusions have a length exceeding the gap between the container flanges and the ends of the cassettes, forming in its bottom part the outer surfaces in pairs in the form of longitudinal air intakes and air ducts in the form of a free the space between the side members, container flanges and cartridges, with pistons installed under the closing combat elements, made in the form of a glass with a powder charge house gasdynamically interconnected with the transmission through pirozamedlitel powder charge, and in the rear of the side members in the area of the diffuser arrangement disposed at the front end of the rear flange of the container is provided with through holes.

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