RU2649684C1 - Tank cluster projectile “vakob” - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: invention relates to ammunition, namely to cluster projectiles with fragmentation warheads. Device contains a trajectory fuse with a pyrotechnic channel, a head fairing, a feather stabilizer and a set of spherical or close in shape to the sphere of fragmentation warheads. Fragmentation warheads are made in the form of a hollow housing with an explosive charge inside and a shock fuse. Fragmentation warheads have a diameter equal to the calibre of the projectile, are equipped with two flat areas normal to the projectile longitudinal axis, and contacting to each other with said flat areas. Fragmentation warheads are interconnected by means of bursting pyrotechnic fastening elements, made in the form of a “screw-nut” threaded pair. Internal thread is made on the fragmentation warhead cavity inner surface. External thread is made on a cylindrical element fixed to the corresponding jointing fragmentation warhead flat area with the help of separation bolts.

EFFECT: technical result is increase in the projectile damaging effect.

1 cl, 1 dwg

Description

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

The RBE of cluster shells is usually cylindrical, but for tank shells it is unacceptable. This is due to the fact that for tank guns the main type of fire is shooting along a flat trajectory with an RBE incidence angle of less than 5 °. The expansion of the fragments occurs mainly in the plane perpendicular to the axis of the RBE, 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.

Known tank cluster missile with a RBE of a spherical shape for a smooth-bore tank gun, comprising a housing with a trajectory fuse with a pyrotechnic channel, an expansive powder charge, an axial rod and a set of RBEs containing a body with a blast charge

volatile matter (BB) and shock fuse (RF patent for the invention No. 2297930, IPC F42B 12/62).

The main disadvantage of the projectile is the presence of a large inert mass of the hull, performing essentially a transport function and not used directly to hit the target.

Known tank cluster missile with fragmentation warheads containing a trajectory fuse with a pyrotechnic channel, expelling powder charge, axial rod, feather stabilizer and a set of spherical fragmentation warheads that are spherical or close in shape to the sphere, made in the form of a shell with an explosive charge and an explosive fuse, however, it has a frameless design, and fragmentation warheads have a diameter equal to the caliber of the projectile, and are interconnected by an axial rod passing through their axial channels (RF patent for the invention No. 2400698, application No. 2009113061/02 dated 04/09/2009, IPC F42B 12/20, F42B 12/28, F42B 12/62 - prototype).

The projectile is mainly intended to suppress tank-dangerous manpower. The projectile is as follows. Before the shot, the installation is inserted into the fuse. After departure from the bore, the feathers of the stabilizer open and the curl begins to twist due to the impact of the incoming air flow on the one-sided bevels of the feathers. At a given point in the trajectory, the trajectory fuse gives an impulse to ignite the expelled powder charge, as a result of which the head cone is fired with the fuse and rod with its thread cut. In this case, the undocking of combat elements takes place. After undocking of the RBE, they are diluted relative to the trajectory due to centrifugal forces due to the displacement of the center of mass of the RBE due to the lateral location of the fuse.

The main disadvantage of this projectile is the inefficient use of cavities of fragmentation warheads, which leads to a decrease in the amount of explosive placed in these cavities, due to the fact that inside each cavity a channel is made through which an axial rod passes and when the walls of these channels are crushed during an explosion, the flows the fragments will be directed towards each other, to the center of the combat element, which will lead to a decrease in the effectiveness of their destructive action. In addition, in this projectile, the RBE separation occurs at almost one point on the trajectory, which significantly narrows the scope of the projectile.

The objective of the proposed invention is to remedy these disadvantages and create a tank cluster shell with fragmentation warheads with optimal use of their internal cavity.

The solution to this problem is achieved by the fact that in the proposed tank cluster shell with fragmentation warheads containing a trajectory fuse with a pyrotechnic channel, a head fairing, a feather stabilizer and a set of spherical fragmentation warheads that are spherical or close in shape to the sphere, made in the form of a hollow shell with an explosive charge substances inside and a fuse, while fragmentation warheads have a diameter equal to the caliber of the projectile, are equipped with two flat sites normal to the longitudinal axis projectile, and are contacted by said flat areas, according to the invention, fragmentation warheads are interconnected by means of fastening explosive pyrotechnic elements made in the form of a screw-nut threaded pair, while the internal thread is made on the inner surface of the cavity of the combat element, and the external the thread is made on a cylindrical element attached to a flat platform of the corresponding abutting combat element using explosive bolts.

The invention is illustrated by drawings, where in FIG. 1 shows a longitudinal section through a projectile in an embodiment for connecting RBEs to each other using explosive screw-nut pyroelements.

A tank cluster shell contains a trajectory fuse 1 with a pyrotechnic channel, a head fairing 2, a feather stabilizer 3, and a set of spherical fragmentation warheads 4 that are spherical or close in shape to the sphere and are made in the form of a hollow body with an explosive charge 5 inside and an explosive fuse 6. Fragmentation warhead the elements 4 have a diameter equal to the caliber of the projectile, are equipped with two flat platforms 7, normal to the longitudinal axis of the projectile, and are in contact with the indicated flat platforms. The fragmentation warheads 4 are made with a cylindrical protrusion 8 and a cavity 9, located diametrically opposite on these platforms 7, and are interconnected using fastening explosive pyrotechnic elements 10 located on the respective surfaces of the said protrusion and cavity. The feather stabilizer 3 is mounted on the protrusion of the last flight of the fragmentation warhead 4, and the head fairing 2 is installed by fixing in the cavity of the first flight of the warhead 4. Between the RBE installed rings 11 made of light material, such as foam.

In an embodiment, the inner surface of the combat elements 4 in the place of their docking with each other is made normal to the longitudinal axis of the projectile.

RBE 4 can be performed both with the body of natural crushing, and with the body of a given crushing. In this case, stress concentrators in the form of corrugations with a given pitch and depth are applied to the surface of the housing. It is also possible execution of the body with ready-made striking elements, including those made of heavy alloys. It is advisable that the body of natural crushing be made of high-fragmentation steels 60С2, 80Г2С, 80С2.

It is possible to equip RBE with cold pouring into the plastisol compound housing. This equipment method allows filling the housing without shrinkage shells. Plastisol has high ductility and can tolerate intense compression without cracking, leading to the appearance of foci of ignition of the explosive. For tank shells with a high level of overload coefficient of up to 30,000 when fired, this property is crucial.

The front edges of the feathers of the stabilizer 3 are made with one-sided bevel.

The proposed projectile is mainly intended to suppress tank-dangerous manpower.

The projectile is as follows.

Before firing, the setpoint is entered into fuse 1. After the projectile leaves the barrel, the stabilizer feathers 3 open and the projection begins to twist due to the impact of the incoming air flow on the one-sided bevels of the feathers.

At a given point in the trajectory, the trajectory fuse 1 gives an impulse to the operation of the pyroelements 10, as a result of which all elements of the projectile are undocked from each other. After undocking the elements of the projectile, the RBE is diluted relative to each other and relative to the trajectory due to centrifugal forces due to the displacement of the center of mass of the RBE due to the lateral arrangement of the fuse 6.

The triggering of the pyroelements 10 can be performed with a time delay, with simultaneous or sequential separation of the RBE from each other, according to the scheme "one-one-one", "one-two" or "two-one" depending on the flight path of the projectile and tasks. Accordingly, when the number of RBEs is more than three, there will be more separation options.

Variants of a non-oriented and oriented flight of RBE are provided. In the first case, it is necessary to use an inertial fuse of all-double action. The oriented flight of the RBE can be accomplished by gyroscopic stabilization by setting the axis of the RBE in the flow and spinning it using curly tides. In this case, a conventional inertial fuse can be used.

When RBEs fall to the earth's surface, their fuse 6 detonates and RBE 4 is detonated with the formation of a fragmentation field close to spherical.

If necessary, the projectile can be used for impact shooting on the ground or structures with the undermining of the RBE 4 assembly.

Using the proposed technical solution will allow you to create a tank cluster shell with fragmentation warheads with the optimal use of their internal cavity, which ultimately will increase the damaging effect of the projectile.

Claims (1)

A tank cluster shell with fragmentation warheads containing a trajectory fuse with a pyrotechnic channel, a head fairing, a feather stabilizer, and a set of spherical fragmentation warheads that are spherical or close in shape to the sphere and are made in the form of a hollow body with an explosive charge inside and an explosive fuse, combat elements have a diameter equal to the caliber of the projectile, are equipped with two flat sites normal to the longitudinal axis of the projectile, and are contacted by the indicated flat areas docks, characterized in that the fragmentation warheads are interconnected by means of fastening explosive pyrotechnic elements made in the form of a screw-nut threaded pair, wherein the internal thread is made on the inner surface of the cavity of the combat element, and the external thread is made on a cylindrical element, attached to a flat platform of the corresponding mating combat element using explosive bolts.

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