BG2678U1 - Cumulative-explosive battle part with radially spreading striking elements - Google Patents

Abstract

The utility model relates to a cumulative-explosive battle part, designed to strike low flying targets, man force and armaments of the enemy, located in opened spaces, trenches, and field covers, in brick or concrete constructions and light armored machinery, due to a battle part, forming a high speed compact striking element with radially spreading striking ready kinetic elements. The cumulative- explosive grenade, consisting of a cumulative- explosive battle part (1) and connected to it reactive engine (13) with attached to it stabilizer (14), in which the cumulative-explosive batter part (1) comprises of a corpus (3), in which are placed the explosive compound (10) and the explosive unit (12), in which on the inside of the corpus (1) are placed prepared kinetic striking elements (4). 10 claims, 4 figures

Description

. field-type trenches and shelters in brick and concrete structures and light armored vehicles thanks to a warhead forming a high-speed compact striking element and radially propagating striking ready-made kinetic striking elements. Cumulative fragmentation grenade, consisting of a cumulative fragmentation warhead (1) and an associated jet engine (13) with a stabilizer (14) attached to it, wherein the cumulative fragmentation warhead (1) consists of a housing (3), in which an explosive substance (10) and an explosive device (12) are arranged, in which ready kinetic striking elements (4) are placed inside the housing (1).

claims, 4 figures

2678 UI (54) CUMULATIVE FRAGMENTAL COMBAT PART WITH RADIALLY DISTRIBUTED DESTRUCTIVE ELEMENTS

Field of technology

The utility model refers to a cumulative fragmentation warhead designed to hit low-flying targets, manpower and enemy firepower located in open areas in trenches and field-type shelters in brick and concrete structures and light armored vehicles thanks to combat a part forming a high-speed compact striking element with radially propagating striking elements.

BACKGROUND OF THE INVENTION

Known and used in practice is the construction of the grenade (PG-18), to hit different types of targets, which consists of a warhead, which consists of a hull, with located in front of it a cumulative warhead with an explosive, explosive device and striking elements, in which a jet engine is connected to the warhead. The hull is provided with radially oriented inclined openings, designed to release the gunpowder gases released during the operation of the jet engine, which give a rotating movement to the warhead. The rotation of the warhead around the axis improves the accuracy of firing, which has an effective action at a distance of about 200 tons, as the cumulative charge provides the ability to hit targets with a thickness of armor up to 300 mm.

The disadvantage of the described construction is the limited range of the warhead and armor penetration, as well as the impossibility of impact on targets located in trenches.

Patent publication RU 2118788 C1 is known, which describes a fragmentation grenade consisting of a front oversized part containing an explosive and an explosive device and a metal explosive block filled with prefabricated striking elements.

A disadvantage of the described above-located caliber fragmentation warhead is the insufficient effectiveness of hitting the targets due to the impossibility to use a large part of the metal mass as part of the striking elements. Until further notice - when the warhead is detonated before the target of destruction, the striking elements are scattered in a limited circular field, and practically do not spread in the axial direction.

Patent publication RU 2362962 is known, which describes a fragmentation over-caliber grenade consisting of a front over-caliber, cumulative fragmentation warhead and a associated caliber part consisting of a jet engine and a stabilizer. The over-caliber cumulative fragmentation warhead consists of interconnected front and rear sections, the front section comprising a striking unit consisting of a housing filled with explosive, in which a fuse is housed in the rear of the housing. equipped with inertial sensor and retarder. The rear section of the warhead consists of a steel body in which is located an explosive device and a pyrotechnic charge connected through a channel to the detonator. The described construction of the warhead allows variant embodiments in which the explosive device is a contact or command type.

The disadvantage of the described grenade is the limited striking ability of the shot, as long as the entire mass of the cumulative fragmentation warhead is not used, as well as the limited dimensions of the struck field.

Technical essence of the utility model

The task of the utility model is to offer an advanced cumulative fragmentation grenade, which features a simple and technological for production, providing effective action in the fight against low-flying targets, lightly armored vehicles and other enemy equipment, thanks to the effective action of the cumulative warhead forming a high-speed compact striking element with a radially propagating flow of striking elements.

The task is solved with a cumulative fragmentation warhead, which uses the energy of the detonation products of the explosive released during the explosion of the cumulative charge.

The cumulative fragmentation warhead consists of a hull in which a cumulative unit with an explosive and an explosive device are located, in which the inside of the corps

2678 UI puss are placed ready kinetic striking elements.

According to the utility model, the body of the warhead is shaped like a conical-cylindrical body, in front of which is a fairing connected to the body by a deformable connection, where in front of the body is a piezoelectric generator connected to the bottom of the detonator, located in the conical bottom of the housing, and inside the housing are located a cumulative unit and a buffer device. A sleeve with ready-made kinetic striking elements is placed radially to the inner cylindrical part of the housing.

The detonating device is made as a front-bottom device of protective type, with three degrees of protection, respectively electrical, inertial and pyrotechnic.

The cumulative unit is filled with the cumulative lining of hemispherical, segmental or conical shape, with a solution angle of 2α = 120 ° ... 160 °.

The finished striking kinetic elements are radially arranged around the charge of the cumulative node.

According to a preferred embodiment of the cumulative fragmentation warhead, the finished striking elements are spherical in shape.

The finished striking elements can be of cylindrical, spherical shape or a combination of said shapes.

It is suitable for the cumulative fragmentation warhead to be connected to the propulsion unit by a fixed, rigid connection.

The cumulative fragmentation warhead of the grenade, the object of the utility model, is characterized by increased striking ability, providing a significantly larger striking field. The warhead of the cumulative fragmentation grenade is structurally designed so that when the explosive explodes, the detonation products act on the cumulative lining and deform it, forming a high-speed compact striking element moving in the direction of the grenade's flight, together with this the finished striking elements propagate radially and thus further increases the effectiveness and probability of striking all targets located in the striking area. The efficiency and striking ability of the cumulative fragmentation warhead is significantly increased thanks to the use of a double-bottom explosive device, which has a double action, which is that in the area up to 150 m from the trajectory of the grenade, provides instant contact action on the target, the striking action being formed simultaneously by a high-speed compact striking element and a radial flow of prefabricated striking elements and a non-contact self-initiating action, the compact striking element continuing its movement in the direction of the grenade launch, from 150 m to 250 m and more, the formed "impact core" hits the target, having armor protection up to 30 ... 40 mm thick. The construction of the combat cumulative fragmentation unit is significantly simplified and at the same time technological for production.

Explanation of the attached figures

The utility model is illustrated by the attached figures, of which:

Figure 1 is a general view of the prior art grenade;

Figure 2 - General view of the cumulative fragmentation grenade, object of the utility model;

Figure 3 is a cross section of a cumulative fragmentation warhead;

Figure 4 - General view of a cumulative fragmentation grenade in flight, with open stabilizer feathers.

Exemplary implementation of the utility model

The cumulative fragmentation warhead 1 according to the utility model consists of a cumulative unit and a drive unit. The front end of the warhead 1 is made of a fairing 2, fixedly connected by a deformable connection to a housing 3, made as a cylindrical-conical body. In the cylindrical part of the housing 3 there is a monolithically made body, with a cylindrical shape, with ready kinetic striking elements 4 placed inside it. Inside the said cylindrical body there is a cumulative unit, the cumulative lining 5 of which can be spherical, semi-spherical shape, with a central dissolution angle of 135 °.

According to a preferred embodiment of

2678 UI warhead, the cumulative cladding (plate) 5 is made with a variable wall thickness, progressively decreasing from the top to the base.

According to another variant embodiment, the cumulative cladding 5 is made of a conical shape, with a central dissolution angle of 150 ° and a constant wall thickness.

In the front part of the cumulative unit is located a piezoelectric generator 6 connected to a conductive conically shaped element 7, placed inside the connecting cone 8. The cumulative unit consists of a metal plate 9, a bursting charge 10 and a buffer device 11. The bursting charge 10 is made of explosive, preferably with a mass of 0.380 to 0.400 kg with a density of 1.76 to 1.8 g.sm ³ , with a detonation velocity greater than 8000 m / s.

In the explosive is mounted a fixed, by pressing, buffer device 11 made of inert material, behind which is located the bottom part of the bottom explosive device 12, and according to a preferred embodiment of the buffer device 11, it has a conical-cylindrical shape with a central hole , through which passes a wire of the cumulative lining 5 connected to a contact of the bottom detonator 12, not shown in the figures.

A drive unit consisting of a jet engine 13 and a starting gunpowder charge 14 with a stabilizer 15 comprising at least four symmetrically arranged feathers is mounted at the rear end of the warhead 1.

A characteristic feature of the warhead 1, especially of the cumulative fragmentation unit is its structural design and sizing, as well as the relative position of the cumulative spherical lining 5, the explosive 10 and the buffer device 11, which determines their action in such a way that after initiating the explosive from the bottom detonator 12, the cumulative spherical lining 5 deforms and practically forms a high-speed compact striking element, which acts together with the radially propagating ready kinetic striking elements 4, their joint action providing effective striking action at different distances from the grenade trajectory. .

Action of the utility model

The use of the cumulative fragmentation warhead 1 described so far can be represented as follows: the warhead 1 is placed on a carrier consisting of a jet engine and a starting gunpowder charge, and after firing a grenade, the grenade begins to move due to which act the linear-inertial forces. The inertial mechanisms of the flame arrestor of the jet engine 13 and of the bottom detonator 12 of the warhead 1 are activated. After a predetermined period of time from the flight path, the inertial mechanisms cease to operate, triggering the jet engine 13 and the bottom explosive device 12 goes into combat position, ie. the grenade is ready to hit the target.

The design of the detonator 12 and the warhead 1 allow them to operate in two successive modes, contact and remote action after the formation of a certain section of the trajectory of a high-speed compact striking element.

In contact action, ie. upon meeting the barrier, the piezoelectric generator 6 of the warhead 1 generates an electrical pulse, which is transmitted along the electrical circuit of the bottom detonator 12, as a result of which a detonation pulse is applied to the explosive charge 10 of explosive. Thanks to the construction of the warhead 1, a detonation wave front with a certain shape and characteristics is formed, which dynamically deform the cumulative metal cladding 5, whereby a high-speed compact striking element is formed, the mass of which is 90% of the initial mass of the cumulative cladding 5. moves at an initial speed of 2.5 m / s. At the same time, a radially concentrated flow of the finished kinetic striking elements 4 is formed from the cylindrical surface of the housing, which have an effective area of action with a radius of not less than 30 m.

At the same time, the products formed during the detonation scatter in a radial direction a ring of ready striking kinetic elements 4, forming radially

2678 UI field of impact in the area of contact with the target. The contact action of the grenade is provided by the bottom detonator 12, in the trajectory of the grenade in the range from 30 m to 150 t.

In the event that up to 150 meters from its trajectory the grenade does not meet a target or barrier, it goes into the next mode of remote action, automatically triggering the detonator 12, which gives a detonation pulse to the explosive charge 10 of explosive. Due to the above-described structural design of the warhead 1, the detonation wave front with a certain shape and characteristics is formed during the detonation of the explosive, which dynamically deforms the cumulative metal casing 5, forming a high-speed compact striking element moving with initial velocity of 2.5 m / s. The formed high-speed compact striking element continues its movement in the direction of the initially set trajectory of the grenade, maintaining its integrity and kinetic energy at a distance of tens of meters, up to 200 m and more, causing damage to the target. The grenade can hit targets equipped with homogeneous armor steel with a thickness of 35 to 40 mm, at a distance of up to 80 tons, and the inlet of the piercing is in the range of 65 to 80 mm. The effect of armor penetration is accompanied by an armor effect, characteristic of the interaction and drilling of armor steel from kinetic ammunition.

Claims (10)

1. A cumulative fragmentation warhead with radially propagating striking elements, consisting of a cumulative fragmentation warhead and an associated drive unit consisting of a jet engine with a stabilizer attached thereto, wherein the cumulative fragmentation warhead consists of a housing, in which an explosive and an explosive device are arranged, in which ready-made kinetic striking elements are placed inside the housing, characterized in that the housing (3) of the warhead (1) is shaped like a conical-cylindrical body towards the front part. to which a fairing (2) is connected by a deformable connection, in which a piezo generator (6) is located in the front part of the housing, connected to the bottom part of a detonating device (12) located in the conical bottom part of the housing (3), and in inside the housing there is a cumulative unit with a cumulative lining (5) with a solution angle 2α = 120 ° ... 160 °, as to the explosive (10), at a distance for In the cumulative lining (5) a fixed buffer device (11) of inert material is mounted, and in the inner cylindrical part of the housing (3), a cylinder with ready kinetic striking elements (4) is placed radially. Cumulative fragmentation warhead according to claim 1, characterized in that the detonating device (12) is designed as a front-bottom device of the protective type, with three degrees of protection, respectively electrical, inertial and pyrotechnic. Cumulative fragmentation warhead according to claim 1, characterized in that the cumulative assembly consists of a cumulative lining (5), an explosive charge (10) and a buffer device (11) pressed into the explosive, located at a distance behind the cumulative lining (5). Cumulative fragmentation warhead according to claim 1, characterized in that the cumulative cladding (5) is made of a hemispherical, segmental or conical shape, with a solution angle of 2α = 135 ° ... 155 °. Cumulative fragmentation warhead according to claim 1, characterized in that the cumulative lining (5) is conical in shape, with a central dissolution angle of 150 ° and a constant wall thickness. Cumulative fragmentation warhead according to claim 1, characterized in that the cumulative cladding (5) is made of copper or mild steel. Cumulative fragmentation warhead according to claim 1, characterized in that the finished striking kinetic elements (4) are arranged radially around the explosive charge (10) in the cumulative assembly. Cumulative fragmentation warhead according to claim 1, characterized in that the finished striking kinetic elements (4) have a spherical shape. 9. Cumulative fragmentation combat unit according to Art 2678 II claim 1, characterized in that the finished striking kinetic elements (4) can be made in a cylindrical or spherical shape or a combination of said shapes. Cumulative fragmentation warhead according to claim 1, characterized in that the cumulative fragmentation warhead (1) and the jet engine (13) are connected by a rigid, fixed connection.