RU2634937C1 - Tank cassette overcase with fragmentation submissiles - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: tank cassette overcase contains body with trajectory fuze placed in it with pyrotechnic channel, propulsive primer charge, on the axial rod-pusher and a set of fragmentation submissiles. Fragmentary submissiles are made spherical or close to it. They are provided with flat end areas on their outer surface and contact each other with said areas. The set of fragmentation submissiles of the shell contains central, intermediate and radial fragmentation submissiles having different diameters. Axial rod-pusher is made of a central fragmentation submissiles, fastened together with flat end areas using discontinuous fasteners so that the said submissiles form a cylinder with profiled surface, mostly consisting of repeated monotonously spherical surfaces of the central fragmentation elements. Fragmentation elements that form the main charge of the shell are located in the shell in the form of several autonomous modules. Each autonomous module consists of one central fragmentation element and several radial fragmentation elements, evenly distributed around it. Central and radial fragmentation submissiles are fastened together by means of fastening explosive pyrotechnic elements. Between the autonomous modules intermediate fragmentation elements are located.

EFFECT: increase the effectiveness of shell by performing an axial rod-pusher from the fragmentation submissiles.

3 dwg

Description

The invention relates to ammunition, namely to cluster shells with fragmentation warheads.

Known cluster artillery shells containing both fragmentation and fragmentation-shaped warheads (V. Odintsov. Main directions of development of field artillery ammunition and problems of transition to 155 mm caliber // Defense Equipment. - 1996. - No. 8-9) .

Known 152 mm domestic cluster projectile 3-O-13, containing a housing with a head trajectory fuse, expelled powder charge, an axial push rod fastened with a screw bottom and a set of eight cylindrical fragmentation warheads placed in two tiers and having two natural crushing corps (VA Odintsov Designs of fragmentation ammunition. Ch.P. Artillery shells. Publishing House of MSTU named after N.E.Bauman, 2002, p. 17, Fig. 9).

The main design flaw in relation to a tank shell is the unsuccessful cylindrical shape of the combat element. For tank guns, the main type of shooting is shooting along a flat trajectory with an incidence angle of combat elements of less than 5 °. The expansion of the fragments occurs mainly in the plane perpendicular to the axis of the combat element, i.e. the bulk of the fragments goes into the air and into the ground, and only a small part of them, spread along the surface of the earth, is used to hit targets. Another significant drawback is the lack of the ability of the shell to undermine its assembly (without ejection of combat elements), which excludes its use for firing at durable targets.

Known tank cluster missile with fragmentation warheads, comprising a housing with a trajectory fuse with a pyrotechnic channel, an expelled powder charge, an axial push rod and a set of fragmentation warheads containing a housing with an explosive charge and an impact fuse, the axial rod being the pusher is made with an internal cavity in which the explosive charge is placed; hemispherical recesses are located on the surface of the pusher rod, in which fragmentation fragments are located oevye elements formed of spherical or near shape with a trajectory detonation fuse is further provided with a channel (RF Patent №2247930, application for the invention №2003118033 / 02 dated 19.06.2003, IPC F42B 12/62 prototype).

The main disadvantage is the insufficiently effective use of the internal cavity of the projectile, due to the presence of an axial rod-pusher.

The objective of the proposed invention is to eliminate these disadvantages and increase the efficiency of the projectile by performing an axial pusher rod, consisting of fragmentation warheads.

The solution to this problem is achieved by the fact that in the proposed tank cluster shell with fragmentation warheads (hereinafter - RBE), comprising a housing with a trajectory fuse with a pyrotechnic channel, an expelled powder charge, an axial rod-pusher and a set of fragmentation warheads containing a shell with an explosive charge and a fuse, while the fragmentation warheads are made spherical or close to it, equipped with flat end pads on their outer surface contacting each other with the indicated sites, according to the invention, the set of fragmentation warheads of the projectile contains central, intermediate and radial fragmentation warheads having different diameters, while the axial pusher rod is made of central fragmentation warheads fastened to each other along flat end platforms using explosive fasteners in such a way that the said combat elements form a cylinder with a profiled surface, mainly consisting of monotonously repeating xia spherical surfaces of the central fragmentation elements, while the said fragmentation elements forming the main charge of the projectile are located in the shell in the form of several autonomous modules, each autonomous module consists of one central fragmentation element and several radial fragmentation elements uniformly located around it said central and radial warhead fragmentation elements are fastened together by means of fastening explosive pyrotechnic elements, while between vtonomnymi modules disposed intermediate shrapnel elements.

In the proposed projectile, the axial pusher rod is made of central fragmentation warheads fastened together by flat end pads using explosive fasteners so that the said warheads form a cylinder with a profiled surface, mainly consisting of monotonously repeating spherical surfaces of the central fragmentation elements on which fragmentation warheads are located, made spherical or close to her shape.

The projectile can be made with the possibility of throwing a set of fragmentation warheads in the direction opposite to the direction of movement of the projectile, while the expelling powder charge is located in front of the projectile, and the pusher rod is fastened with a screw bottom or is capable of throwing a set of fragmentation warheads in the direction of movement the projectile, while the expelling charge is located at the rear of the ammunition body, and the push rod is attached to the head cap.

The trajectory fuse is either temporary, or non-contact, or command execution.

The detonation channel of the trajectory fuse is equipped with instant and delayed blasting devices.

The shell of the fragmentation warhead can be made with either natural or predetermined crushing, or with ready-to-use striking elements.

The shell of the fragmentation warhead can be made with curly tides on the outer surface, with a one-sided thickening of the wall in the form of a truncated sphere bounded on one side by a cylindrical surface made with a radius equal to the radius of the inner surface of the hull.

The charge of the rod can be equipped with an autonomous fuse with the ability to provide trajectory or shock blasting.

The invention is illustrated by drawings, where in FIG. 1 shows a longitudinal section of a tank cluster shell, FIG. 2 is a cross-sectional view of a projectile along central and radial RBEs; FIG. 3 - cross section of the projectile in the intermediate RBE.

The proposed tank cluster shell with fragmentation warheads (hereinafter referred to as the projectile) comprises a housing 1 with a trajectory fuse 2 with pyrotechnic 3 and detonation channels 4, respectively, an expelling powder charge 5 and an axial rod-pusher 6 (hereinafter the rod).

A set of fragmentation warheads (RBE) projectile contains a central 7 and radial 8 fragmentation warheads. The fragmentation warheads 7 and 8 are made spherical or close to their shape, equipped with flat end pads 9 and 10, respectively, on their outer surface and are in contact with each other by these sites.

The axial rod-pusher 6 is made of central fragmentation warheads 7, fastened together by flat end pads 9 using explosive fastening pyrotechnic elements 11 so that the said warheads form a cylinder with a profiled surface, mainly consisting of monotonously repeated spherical surfaces of the central fragmentation elements 7. The fragmentation elements, the central 7 and radial 8, which form the main charge of the projectile, are located in the shell in the form of several autonomous modes muzzle 12. Each autonomous module 12 consists of one central fragmentation element 7 and several radial fragmentation elements 8 evenly spaced around it, and the said central and radial fragmentation warheads are fastened together by means of fastening explosive pyrotechnic elements. In the housing 1, a screw bottom 13 with a stabilizer 14 is installed. The fuse is equipped with a command receiver 15. Intermediate fragmentation elements 16 are located between the autonomous modules 12.

The proposed projectile is used as follows.

There are options for oriented and non-oriented flight of RBE.

In the first case, the orientation is carried out either by gyroscopic stabilization — by setting the RBE axis in the flow and spinning it due to curly tides, or by shifting the center of mass of the RBE. In these cases, a conventional contact or inertial impact fuse may be used. In the case of an unstabilized RBE flight with free rotation, it is necessary to use an inertial fuse of all-slaughter action.

When approaching the target, a command is sent from the command receiver 15 to trigger the trajectory fuse 2, and then, through channels 3 and 4, ignition and actuation of the expelling powder charge 5 occurs.

Or, when the installation for detonating the complete assembly is introduced, the fuse 2 in the region of the target detonates the charge 5 of the axial pusher rod through the detonation channel. Detonation through a spherical contact surface is transmitted by the explosive charge of the RBE. In this case, the shell of the shell is destroyed and a fragmentation field is formed containing both fragments or ready-made RBE striking elements, as well as fragments of the natural fragmentation of the shell.

Further, depending on the purpose, the rod 6 can separate from the RBE 7 and 8, or the RBE can be separated along the path in the form of autonomous modules 12 containing one central RBE 7 and the RBE 8 and 16 attached to it, which, in turn, can either continue to move along the trajectory in the form of a module, or be divided into separate components, which will significantly increase the damaging effect of the projectile.

To separate the RBE 7, 8 and 16 from each other, a command is issued to trigger the fastening pyrotechnic elements 11.

When RBEs fall on the ground or hit other obstacles, their fuses detonate and RBEs are detonated with the formation of a fragmentation field close to spherical and a lesion zone on the earth's surface that is close to oval, taking into account the intrinsic velocity of the projectile.

The presence of four types of action of a tank cluster shell - cluster action, trajectory undermining assembly, instantaneous and delayed assembly undermining - gives it the properties of an adaptive type of weapon suitable for solving various fire missions, which is of great importance with limited tank ammunition.

Using the proposed technical solution will improve the effectiveness of the projectile by performing an axial pusher rod, consisting of fragmentation warheads.

Claims (1)

A tank cluster shell with fragmentation warheads comprising a body with a trajectory fuse with a pyrotechnic channel, an expelled powder charge, an axial push rod and a set of fragmentation warheads containing a body with an explosive charge and an explosive fuse, with fragmentation warheads spherical or close to it shape, equipped with flat end pads on their outer surface and in contact with each other by said pads, characterized in that The orth fragmentation warhead of the projectile contains central, intermediate and radial fragmentation warheads having different diameters, while the axial pusher rod is made of central fragmentation warheads fastened together along flat end pads using explosive fasteners so that the said warheads the elements form a cylinder with a profiled surface, mainly consisting of monotonously repeating spherical surfaces of the central fragmentation elements, while the aforementioned fragmentation elements forming the main projectile charge are located in the shell in the form of several autonomous modules, each autonomous module consisting of one central fragmentation element and several radial fragmentation elements evenly spaced around it, said central and radial fragmentation warheads being fastened between by means of fastening explosive pyrotechnic elements, while intermediate fragmentation elements are located between the autonomous modules.

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