EA034385B1 - Fragmentation shot with ready destructive elements - Google Patents

Abstract

The invention is related to a fragmentation shot with ready-made kinetic destructive elements, aiming at destroying enemy's manpower and artillery means located outdoors in trenches and field hideaways be means of radial spread of the flow of the ready-made kinetic destructive elements. The fragmentation shot consists of a complex casing of caliber 4 and over-caliber 2 fragmentation warheads, wherein a blasting explosive is hosted inside. A front fuse device 1 is located in the front part while ready-made kinetic destructive elements 7 as one whole are technologically mounted in the cylindrical part of the casings. A gunpowder start charge 5 with a stabilizer is firmly mounted at the rear side of the caliber warhead 4.

Description

Technical field

The present invention relates to fragmentation ordnance with striking elements, designed to destroy enemy manpower and artillery weapons that are outdoors in trenches and field shelters, through a radially propagating stream of finished dynamic striking elements.

Background to the invention

Known design grenades (PG-18), which is used to destroy different types of targets and which includes a warhead and a jet engine; the warhead has a shell - a cumulative warhead with explosive, the fuse and the striking elements are located in its front. The jet engine is tightly connected to the warhead. In the shell of the warhead there are made radially oriented inclined holes, which serve to release the powder gases generated during the action of the jet engine; they also give the warhead rotational motion. The warhead, rotating around its axis, increases accuracy and works effectively at a distance of about 200 m, and the cumulative charge creates the ability to hit targets with armor thicknesses up to 300 mm.

The disadvantage of this design is the limited range of the warhead and penetration into the armor, as well as the lack of effectiveness of impact on targets in the trenches.

Known patent publication RU 2118788 C1, which describes a cumulative fragmentation grenade with a front over-caliber part containing an explosive, a fuse and a metal damaging unit, the metal damaging unit being filled with ready-made damaging elements.

The disadvantage of the described cumulative fragmentation grenade is that it is not effective enough in the sense of hitting targets due to the limited ability to use a large part of the mass of the metal of the warhead as part of the striking elements. In addition, when the warhead explodes to (achieve) the target of destruction, the striking elements spread in a limited circular area, practically not spreading in the axial direction, i.e. the described device has a very limited lesion area.

Known patent publication RU 2362962, which describes a fragmentation over-caliber grenade, consisting of a front over-caliber cumulative fragmentation warhead and connected to it a gauge part consisting of a jet engine and a stabilizer. The supercaliber shaped-charge fragmentation warhead consists of interconnected front and rear sections; the front section includes a striking unit (consisting of a shell filled with explosive), and a fuse equipped with an inertial sensor and a timer is located at the rear of the shell. The rear section of the warhead consists of a steel shell, an installed fuse and a pyrotechnic charge connected via a channel to the fuse. The described design of the warhead allows different options in production - the fuse can be a contact or command type.

The disadvantage of the described grenade is its limited destructive ability, since it does not use the entire mass of the cumulative fragmentation warhead, and also has a limited range of the affected area.

Disclosure of Invention

In view of the above-described state of equipment / devices in this field, the invention is aimed at offering an improved fragmentation munition, characterized by a simplified and technologically simpler to manufacture design, which provides effective work to destroy enemy manpower and artillery pieces located in open areas in trenches and field shelters.

The problem can be solved by using fragmentation munition, which implements the kinetic energy of the propagation of damaging elements in the radial direction. Energy arises from the detonation of explosive caliber and supercaliber warheads.

The fragmentation munition includes a composite shell consisting of a super-caliber and caliber fragmentation warhead; the explosive charge of the explosive is located inside the shell. The cylindrical part of the shell is filled with explosive, and the back of the caliber shell contains a powder charge with a stabilizer.

According to the invention (innovation), the front fuse is tightly mounted on the front of the caliber shell, and the finished striking elements (oriented radially to the longitudinal axis of the fragmentation ordnance) are located on the periphery of the caliber and caliber warheads. The initiating (knockout) assembly connected to the bottom sleeve is located at the rear of the shell of the caliber warhead. This unit consists of a capsular igniter and a charge of black powder.

The shell of the over-caliber part is tightly connected to the caliber warhead by means of a detachable unit.

The bottom sleeve has a aligned cylindrical shape. At least 12 symmetrically arranged openings are made on its front part for accommodating and orienting the finished striking elements, and its rear part is made in such a way as to be connected to a threaded block.

- 1 034385

The fuse is designed as a front fuse (as a fuse), having a slow and immediate operation. It also includes a kick (initiating) mechanism when reaching the target at a slight angle and / or rebound (indirect hit).

The supercaliber and caliber warheads are made of polyamide with a glass filler having mechanical properties not lower than a density of 1.29 g / cm ³ , impact strength 50 kJ / m ² , tensile at break 5%, modulus of elasticity in case of tension 11000 MPa.

According to one preferred method of manufacturing the invention, the finished striking elements can be made in a spherical or cylindrical shape, or in the form of metal rods, or as a combination thereof, wherein the diameter of the sphere or cylinder is 6 mm and the mass of the striking element is 0.001-0.0018 kg .

Ready-made damaging elements are made with pre-realized (added) concentrators of the stress state (force) in the radial direction.

Ready-made striking dynamic elements located radially in the gauge part of the shell are made of structural steel.

According to one preferred embodiment of the invention, the finished striking elements located in the super-caliber fragmentation warhead are made in the form of (type) metal rods with a pre-realized concentration of stress in the radial direction.

The caliber warhead can be suitably connected to the booster unit via a fixed continuous connection.

Shrapnel ammunition as an object of the invention is characterized by increased destructive ability due to the provision of a significant area of destruction. The warhead of the fragmentation ordnance is designed in such a way that after the explosion of the initiating explosive, detonation products affect the shell of the caliber and over-caliber fragmentation part. Ready-made striking elements are evenly distributed in a radial direction around the entire perimeter, thereby further increasing the effectiveness of hitting (defeating) all targets located in the affected area.

The design of the fragmentation warhead is greatly simplified and at the same time technologically advanced in manufacture.

Brief Description of the Drawings

Below in the description, we disclose one example of the manufacture of fragmentation munitions with ready-made striking elements. This example is presented in detail in the drawings attached to the description, which shows the following:

FIG. 1 is a general view of a fragmentation munition (subject of invention) in flight mode;

FIG. 2 - general view of fragmentation munitions (subject of invention); FIG. 3 is a general view of a fragmentation munition (subject of invention);

FIG. 4 is a cross section of a supercaliber and caliber fragmentation warheads.

Description of Preferred Embodiment

According to the invention, the fragmentation warhead includes a super-caliber 2 and caliber 4 warheads tightly fixed with a locking finger 3. A powder charge discharge 5 with a stabilizer is connected to the back of the caliber warhead 4. The supercaliber warhead 2 includes a shell made in the form of a conical-cylindrical body; front fuse 1 is installed in front of this body. The supercaliber warhead 2 is tightly connected, for example, by means of a threaded block, to the shell of the caliber warhead 4 (see Fig. 3, section AA). Caliber warhead 4 is made as a cylindrical body. The bottom sleeve 9 is installed in its rear part and an explosive block is located in it, which serves to ignite the starting engine. The knockout assembly includes a capsular igniter 10 and a charge of black powder 11 located in an L-shaped hole. An explosive charge, for example a blasting explosive 8, is located in the inner cylindrical part of the shells of the supercaliber 2 and caliber 4 warheads, and preformed and radially oriented finished dynamic striking elements 7 are placed around it. Depending on the design option (manufactured), the finished dynamic elements 7 can be made in a spherical cylindrical shape or in the form of metal rods. According to one preferred embodiment, ready-made dynamic damaging elements 7 with stress concentrators oriented in the radial direction can be used.

According to one preferred embodiment of the fragmentation warhead, the ready-made striking dynamic elements 7 can be made in a spherical or cylindrical form or in a combination of the above-mentioned forms, the diameter of the sphere and cylinder being 6 mm and the mass is approximately 0.0011 kg.

According to another preferred embodiment, the finished striking dynamic elements 7 can be made in the form of metal rods with a diameter of 6 mm, and they have pre-made voltage concentrators in the radial direction.

According to another preferred embodiment, the shells of the over-caliber and caliber warheads can be made of glass-filled polyamide having furs

- 2,034385 no lower than the density of 1.29 g / cm ³ , impact strength 50 kJ / m ² , elongation at break of 5%, modulus of elasticity in case of elongation of 11000 MPa.

The explosive charge 8 is made of explosives weighing preferably from 0.170 to 0.176 kg, a density of 1.74-1.78 g / cm ³ and a velocity value of more than 8000 m / s.

A jet engine including an initiating powder charge 5 is installed in the rear of the caliber warhead 4 by means of a bottom sleeve 9. It is preferable to use nitroglycerin powder as a strip.

A specific property of a fragmentation warhead, more specifically a caliber fragmentation warhead 4, is that the finished dynamic striking elements 7 are symmetrically and radially oriented along the entire length of the shell (section B-B), they can be made in a spherical and cylindrical shape or in the form of metal bars. Depending on the targets that must be hit, you can use ready-made striking elements 7 with the introduced voltage concentrators, the latter can also be oriented in the radial direction. In one embodiment, combinations of prefabricated striking elements 7 of various shapes can be used. The finished striking elements 7 can also be made as one solid body together with the shells 2, 4 of the warhead, then the elements 7 are introduced into the shells by a known technical method, for example, by jet injection.

The operation of the described design of fragmentation ammunition can be represented as follows: fragmentation ammunition is installed in a device for firing (not shown in the drawings) and oriented so that the fixing screw 3 falls into a correspondingly made cutout in the barrel of the said device, thus orienting the knockout fragment fragmentation munition on hammer (trigger) trigger (not shown in the drawings). After firing the trigger, the trigger initiates the capsule igniter 10, and the latter ignites the black powder 11, while the igniting pulse is directed to the starting powder engine. The powder gases thus obtained create a reactive force imparting forward movement to the ammunition. Then the inertial forces begin to work, which start the inertial mechanisms of the front fuse 1. After the ammunition leaves the grenade launcher under the influence of centrifugal forces and the opposite air flow, the wings of the stabilizer open. After a predetermined time on the flight path, the inertial mechanisms stop working, and then the fuse 1 is activated to enter the flight (combat) state, i.e. the grenade is ready to hit the target. After the initiation of the explosive 8 of the front fuse 1, the energy received from the detonation products destroys the shells of the over-caliber and caliber warheads and then transforms into dynamic energy, which is transferred to the finished damaging elements 7, propagating in the radial direction and providing effective damage to the range of the fragment scattering region .

The design of the fuse 1 and warheads 2.4 allows them to work in two modes, namely in immediate contact and inertial mode.

In case of contact and inertial operation, i.e. when it hits an obstacle, the front fuse 1 of the warheads 2, 4 starts the mechanism, which, in turn, initiates the ignition chain, and ultimately the detonator passes the detonation pulse to the explosive charge 8 from the explosive. Due to the design of the warheads 2, 4, a spherical front of the detonation wave is formed. The resulting detonation products transfer their energy to the finished dynamic damaging elements 7, scattering them in the radial direction and giving them acceleration due to the speed of the detonation products, they cover the effective area of the damage with a radius of not less than 30 m

The fragmentation ammunition is designed in such a way that as a result of the impact of detonation products from the supercaliber 2 and caliber 4 warheads, a large number of striking elements are formed, for example, dynamic striking elements 7 laid in advance, there may be more than 800. Fragments formed during the destruction of the shells of the caliber are added to them. 2 and caliber 4 warheads, as well as a fuse, and all fragments will be uniformly scattered in the radial direction, providing an effective radius of destruction of at least 30 m.

A specific property of the fragmentation munition after starting the powder engine 5 with the stabilizer is that it informs the munition of the initial velocity of 150-155 m / s at a distance of a direct shot of 165-170 m and at a maximum firing distance of 1000 m.

Claims (10)

CLAIM 1. Fragmentation of ammunition with ready-to-use striking elements, consisting of a shell including a supercaliber and caliber fragmentation warheads, an explosive charge of an explosive located inside it, a cylindrical part of the shell filled with explosive, a powder explosive charge with a stabilizer located at the rear of the caliber shell, front the fuse (1) is tightly mounted in front of the over-caliber shell (2), the damaging elements (7), oriented radially relative to the longitudinal axis of the fragmentation bo supplies, arranged inside and along the periphery nadkalibernoy (2) and caliber warheads and location with the originating node - 3,034,385 wives in the rear part of the shell of the caliber part (4) connected to the bottom sleeve (9), and consists of a capsular igniter (10) and a charge of black powder (11). 2. The fragmentation munition according to claim 1, characterized in that the supercaliber warhead (2) is tightly connected to the caliber warhead (4) by means of a detachable connection. 3. The fragmentation munition according to claim 1, characterized in that the bottom sleeve (9) has an aligned cylindrical shape, its front side is provided with at least symmetrically located holes (12) for installing and orienting the finished striking elements (7), and the rear part is designed so as to connect with the threaded block. 4. Shrapnel ammunition according to claim 1, characterized in that the fuse (1) is designed as a front fuse with an inertial and immediate firing mode and includes a triggering mechanism when the target is reached at a small angle and / or rebound. 5. The fragmentation munition according to claim 1, characterized in that the over-caliber (2) and caliber (4) warheads are made of polyamide with a glass filler having mechanical properties not lower than a density of 1.29 g / cm ³ , impact strength 50 kJ / m ² , elongation at break of 5%, modulus of elasticity in the case of elongation 11000 MPa. 6. Shrapnel ammunition according to claim 1, characterized in that the finished striking elements (7) are metal and have a spherical or cylindrical shape, or the shape of metal rods, or a combination of these forms and are made of metal with a sphere or cylinder diameter of 6 mm and a mass of 0.001 to 0.0018 kg. 7. The fragmentation munition according to claim 1, characterized in that the finished striking elements (7) are made with pre-inserted voltage concentrators oriented in the radial direction. 8. The fragmentation munition according to claim 1, characterized in that the finished striking elements (7) located in the over-caliber fragmentation warhead are made in the form of metal rods with pre-inserted voltage concentrators in the radial direction. 9. The fragmentation munition according to claim 1, characterized in that the finished dynamic damaging elements (7) are embedded inside the shells of the warheads (2, 4) and are evenly distributed along their entire length. 10. The fragmentation munition according to claim 1, characterized in that the bottom sleeve (9) is made in an aligned cylindrical shape, and its front part is tightly mounted on the shell of the caliber warhead (2), and its rear part is connected via a threaded block to the powder launcher engine (5).