RU2649689C1 - Hand grenade launcher ”vakoba” particle grenade with the warhead opening umbrella device - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to ammunition, namely: to the hand grenade launchers anti-personnel particle grenades. Grenade contains a warhead consisting of an axial rod and several longitudinal projectile blocks. These blocks are articulated to the rod front part. Each longitudinal projectile block is made of two articulated parts. First part is articulated to the axial rod. Second part is articulated to the first part. At that, both parts are configured to change their position relative to each other and to the axial rod. Each finished warhead body can be made of steel. Body central part can be made of lead.

EFFECT: technical result is increase in the grenade action effectiveness.

1 cl, 7 dwg

Description

The invention relates to ammunition, and in particular to anti-personnel beam grenades of hand grenade launchers.

Recently, the development of hand grenade launchers is on the way to developing caliber schemes with grenades that are entirely located in the barrel. These include domestic RPG-18 "Fly" grenade launchers, RPG-22 "Net", RPG-26 "Aglen", RPG-27 "Tavolga", RPG-29 "Vampire". For grenades of these grenade launchers, an increase in the “explosive (BB) - GGE layer” contact area can be achieved by using the cylindrical surface of a grenade for throwing GGE.

Known ammunition (aerial bomb) containing a warhead consisting of an axial rod, several longitudinal throwing units pivotally attached to the front of the rod and connected to the umbrella mechanism to rotate the blocks to a position perpendicular to the axis of the rod, while the throwing unit has a cross section in the form of an incomplete sector, contains an explosive charge, a layer of ready-made striking elements (GGE) on the outer surface of the block and a detonator located in front of the block and connected to the trajectory explosion body, and the trajectory fuse contains blocks for sequentially activating the opening mechanism of the warhead (mechanical or pyrotechnic) and its detonation (Prev. Pat. 2340652 Germany, F42B 13/50, decl. 10.08.73, publ. 4.04.74).

Disadvantages include an unfavorable cross-sectional shape of the propelling unit. The block is obtained by dividing the cylinder into several sector parts. Obviously, the expansion angles are excessively large, which will lead to a rapid drop in the density of the GGE field. Another disadvantage is the fixed action pattern - disclosure-detonation, which eliminates such useful types of actions as trajectory and ground explosions in the assembly, without disclosing the warhead.

Known beam grenade with an umbrella device for opening the warhead, comprising a warhead consisting of an axial rod, several longitudinal throwing units pivotally attached to the front of the rod and connected to the umbrella mechanism to rotate the blocks to a position perpendicular to the axis of the rod, while the throwing block has a transverse a section in the form of an incomplete sector, contains an explosive charge, a layer of finished striking elements on the outer surface of the block and a detonator located in front of the bloc it can be connected to a trajectory fuse, while the external cylindrical surface of the block is capable of increasing the radius with respect to the radius of the grenade body, and a switch for three types of action is introduced into the trajectory-impact fuse: opening the warhead and trajectory detonation, trajectory detonation without disclosure, shock blasting without disclosing (RF Patent No. 2512052, application: 2012158041/11, 12/28/2012, IPC: F42B 12/00, F42B 12/22, F42B 30/04 - prototype).

The specified grenade is used as follows.

Before a shot, the type of fire is determined: range to the target, flight time to the disclosure of the warhead or to undermine. Installation in a non-contact way is introduced into the trajectory-impact fuse. When shooting the first view, when approaching the opening point, the fuse gives a command to open the warhead. The umbrella mechanism, under the influence of a pyrotechnic drive, opens the warhead, i.e. sets throwing blocks in a position perpendicular to the axis of the projectile. Then the fuse gives a command to detonate the throwing blocks. As a result of detonation, a total beam of ready-made striking elements or fragments of a given crushing is formed, striking a target. When firing a second type of grenade, it is undermined over the target - a trench, an embankment - in its original state. The defeat of the target is carried out by the circular field of the GGE or fragments. When firing a third type of grenade, it is blown up when it hits the ground or another obstacle, for example, transport, a building wall, etc.

The main disadvantage is that when the throwing blocks are installed in a position perpendicular to the axis of the projectile, the bundles of finished striking elements overlap and overlap each other, which reduces their effectiveness. In addition, when a grenade is detonated, only one field of finished striking elements is provided - either circular, in the case when the throwing blocks are in the initial position, or axial when the throwing blocks are in the position perpendicular to the axis of the projectile, which reduces the effectiveness of the striking effect of the grenade.

The objective of the invention is to remedy these disadvantages.

The solution to this problem is achieved by the fact that in the proposed beam grenade with an umbrella device for opening the warhead, comprising a warhead consisting of an axial rod, several longitudinal throwing units pivotally attached to the front of the rod, forming a hollow cylinder in cross section, covering the axial rod, and connected to the umbrella mechanism of rotation of the blocks in a position perpendicular to the axis of the rod, while the propelling unit has a cross section in the form of an incomplete sector, contains a charge of jerky substance, a layer of ready-made striking elements on the outer surface of the block and a detonator located in front of the block and with the possibility of connecting with a trajectory fuse, while the outer cylindrical surface of the block is made with the possibility of increasing the radius with respect to the radius of the grenade body, and a switch for three types of actions is introduced: an opening of the warhead and a trajectory blasting, a trajectory blasting without opening, a shock blasting without opening, according to the invention, Each longitudinal throwing unit is made of two parts pivotally connected to each other, the first pivotally connected to the axial rod, and the second pivotally connected to the first, while both parts are made with the possibility of changing their position with respect to each other and to the axial rod.

In an embodiment, the body of each finished striking element is made of steel, and the central part of the body is made of lead.

This design will increase the overall density of the GGE material while maintaining strength properties.

The invention is illustrated by drawings, where in FIG. 1 shows a general view of the grenade in its initial position, in FIG. 2 shows a general view of a grenade in a starting position in a perspective view, in FIG. 3 shows the appearance of a grenade with deployed throwing blocks in the embodiment when the first and second plates are perpendicular to the longitudinal stop of the grenade, in FIG. 4 shows a variant when the first plate is perpendicular to the axis of the grenade, and the second plate is parallel to the longitudinal axis of the grenade, in FIG. 5 shows a variant of the arrangement of the plates, in which the first plate is located at an angle of 45 ° to the longitudinal axis of the grenade, and the second plate is parallel to the longitudinal axis of the grenade, in FIG. 6 shows a variant in which the first plate and the second plate are located at an angle of 45 ° to the longitudinal axis of the grenade, in FIG. 7 shows a cross section of a longitudinal propelling unit. The arrows in all the figures show the direction of motion of the GGE.

A bundle grenade with an umbrella device for opening the warhead (hereinafter referred to as the grenade) contains a warhead 1 consisting of an axial rod 2 (hereinafter the rod), several longitudinal throwing units consisting of two plates, the first 3 and second 4, articulated between each other. Each plate 3, the first in flight, is pivotally attached at one end to the front of the rod 2, and the other pivotally connected to the other plate 4. Both plates 3 and 4 are pivotally connected to the umbrella rotation mechanism (not indicated) of the first plate 3 in a position perpendicular axis of the rod 1. In the warhead there is a trajectory-impact fuse 5. At the rear of the grenade there is a rocket engine of solid fuel 6 and drop-down stabilizers 7. The detonator 8 is connected to the trajectory-shock fuse 5 and is located in front grenades.

Each plate 3 or 4 consists of a housing 9 containing a charge 10 of explosive (BB) and a fragmentation plate made in the form of a set of 11 compact ready-made striking elements. GGE can be made both from steel and from heavy alloys based on tungsten or tantalum.

The proposed pomegranate is used as follows. The grenade launcher is equipped with a laser rangefinder, a ballistic computer and a device input device into the fuse. There are three types of shooting:

- with the disclosure of the warhead, detonation at a pre-determined point in front of the target and hitting the target with a radial-axial field (beam),

- with an air blast over the target without disclosing the warhead,

- with ground detonation without disclosing the warhead.

The first and second types are used for hitting targets both in open areas and for hitting targets in trenches, bunds, on reverse slopes, behind structures, and the third type - when the rangefinder or calculator fails, when shooting at structures and vehicles.

When approaching the target, when firing the first view, the warhead opens and the plates 3 and 4 advance into position, depending on the tasks being solved.

The first option is the location of the plates. The first 3 and second 4 plates are located perpendicular to the longitudinal rest of the grenade. In this case, a continuous axial flow of GGE is formed.

The second option is the location of the plates. The first plate 3 is perpendicular to the axis of the grenade, and the second plate 4 is parallel to the longitudinal axis of the grenade. In this case, two flows of GGE are formed - axial, from the plates 3 located perpendicularly, and radial, from the plates 4 located horizontally. At the same time, the GGE flows practically do not intersect and do not affect each other.

The third option is the location of the plates. The first plate 3 is located at an angle of 45 ° to the longitudinal axis of the grenade, and the second plate 4 is parallel to the longitudinal axis of the grenade. In this case, two GGE flows are formed - radial-axial, from the plates 3 located at an angle of 45 °, and radial from the plates 4 located horizontally. At the same time, the GGE flows do not intersect with each other and do not affect each other.

Fourth arrangement of plates. The first plate 3 and the second plate 4 are located at an angle of 45 ° to the longitudinal axis of the grenade. In this case, two radial-axial GGE flows are formed - the first from the plates 3, located at an angle of 45 °, and directed forward along the direction of movement of the grenade, and the second from the plates 4, located at an angle of 45 °, and directed towards the opposite direction grenade movements.

At the same time, the GGE flows do not intersect with each other and do not affect each other.

When firing the 1st type when approaching the opening point, the fuse gives a command to open the warhead. The umbrella mechanism, under the influence of a pyrotechnic drive, opens the warhead, i.e. sets throwing blocks in one of four positions. Then the fuse gives a command to detonate the throwing blocks. As a result of the detonation, a total beam of GGE or fragments of a given crushing and direction is formed, striking the target.

When firing a second type of grenade, it is undermined above the target (trench, embankment) in the initial state. The defeat of the target is carried out by the circular field of the GGE or fragments.

When firing a third type of grenade, it is blown up when it hits the ground or other obstacle (transport, building wall, etc.).

The proposed caliber beam grenade is intended mainly for RPG-29 type reusable hand grenade launchers equipped with a range finder, ballistic computer and non-contact input device. When firing from disposable grenade launchers of the RPG-18 “Fly” type, the specified equipment should be located outside the grenade launcher. For example, a laser rangefinder can be mounted on a shooter's helmet, and a ballistic computer in a bag.

Calculations show that the proposed design of the beam caliber grenade has a noticeable superiority in efficiency over other structural schemes with the disclosure of warheads.

Using the proposed technical solution will improve the combat effectiveness of beam grenades for hand grenade launchers.

Claims (2)

1. Beam grenade with an umbrella device for opening the warhead, comprising a warhead consisting of an axial rod, several longitudinal throwing units pivotally attached to the front of the rod, forming a hollow cylinder in cross section, covering the axial rod, and connected to the umbrella rotation mechanism of the blocks to the position perpendicular to the axis of the rod, while the propelling unit has a cross section in the form of an incomplete sector, contains an explosive charge, a layer of ready-made striking elements on the inside the external surface of the block and the detonator located in the front of the block and with the possibility of connecting with the trajectory fuse, while the outer cylindrical surface of the block is made with the possibility of increasing the radius with respect to the radius of the grenade body, and a switch for three types of action is introduced into the composition of the trajectory-impact fuse : disclosure of the warhead and trajectory blasting, trajectory blasting without opening, shock blasting without disclosing, characterized in that each longitudinal throwing unit is made of two articulated interconnected parts, the first pivotally connected to the axial rod, and the second, pivotally connected to the first, while both parts are configured to change their position with respect to each other and to the axial rod. 2. A bunch grenade according to claim 1, characterized in that the body of each finished striking element is made of steel, and the central part of the body is made of lead.

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