BG3435U1 - Fragmentation grenade - Google Patents

Abstract

The utility model relates to a fragmentation grenade that finds application in warfare, providing increased combat effectiveness when defeating targets. The fragmentation grenade is characterized by stabilization of technical scattering when firing at ground targets, as well as enhanced defeating efficiency in the range of the target field. The latter is due to the fragmentation rings (2) located in the body (1), on the outer peripheral surface of which are formed attenuating grooves (10), with a triangular shape, with an angle of the opening at the tip ? from 30 ° to 70 °, as on one ring (2) there are 24 grooves.

Description

The utility model relates to a fragmentation grenade and is used in ammunition technology and in particular in ammunition that has a fragmentation circular field of destruction to smoothbore grenade launchers.

BACKGROUND OF THE INVENTION.

A fragmentation grenade OG-7 is known, which is fired by a hand-held anti-tank grenade launcher RPG-7B. The warhead of the fragmentation grenade is made of a hull with a transition and explosive bottom. When the explosive is detonated, the hull is shattered into any number of fragments by mass, which have the function of hitting targets within the range of the affected field.

Patent publication BG 606 Y1 is known, in which a fragmentation grenade with a warhead consisting of a chamber, an explosive and a detonator is described, in which a housing with a transition bottom is formed in the chamber, in which a grid is mounted and an explosive is located. The grid is shaped and located in the housing so that when the explosive explodes, it forms and determines the number of fragments on which the fragment of the fragmentation grenade is crushed.

Another patent publication BG 457 Y1 fragmentation grenade with a warhead consisting of a chamber, an explosive and a fuse is known. A housing is formed in the chamber, which is made on its outer surface with trapezoidal channels, and in its inner volume is located an explosive.

A fragmentation grenade with a warhead, BG2380 U1, consisting of a chamber, an explosive and a fuse is known. In the chamber of the fragmentation grenade is formed a plastic body with a transitional bottom, and inside it together with the explosive are located ready-made striking elements. Characteristic of this construction of a fragmentation grenade is that the finished striking elements are technologically formed (by injection molding or otherwise) and / or pressed together with the plastic housing.

This design solution automatically determines some disadvantages, expressed in reducing the useful volume of the chamber of the hull, respectively, reduces the mass of the explosive located in the hull, which together reduce the effectiveness of the fragmentation grenade, mainly in terms of range, accuracy and the effectiveness of hitting targets.

A fragmentation grenade with a warhead, BG 969 U1, is known, which consists of a chamber, an explosive and a fuse. In said chamber is formed a housing filled with a transition bottom, in which the inner surface of the housing is cut with channels weakening its strength. An explosive is located in the housing, which when detonated breaks the housing into fragments, which have the function of striking elements, the mass of which is predetermined by the layout of the attenuating channels.

The known fragmentation grenade is difficult to prepare the channels from a technical and technological point of view, which is especially true for grenades with a caliber of less than 40 mm, in which the ratio of body length to caliber is 3 times or more, at which internal cutting of the weakening channels is technically difficult or impossible.

A fragmentation grenade with a warhead is known, the subject of patent publication RU 2410631 C1, which consists of a chamber, an explosive and a fuse. The chamber consists of a housing with a transition bottom, the housing being filled on its outside with trapezoidal grooves, with a precisely defined shape, which subsequently determine the shape of the fragments (striking elements) obtained after the blasting of the housing.

In the known fragmentation grenade, a grid is structurally provided inside the hull, the function of which is to form the longitudinal size of the fragments. In the absence of a grid, the hull is shattered into fragments in the form of rings or ring-shaped segments with a large mass, which significantly reduces the striking power and efficiency of the fragmentation grenade.

The characteristic of the fragments of fragmentation grenades described so far is that the chamber of the warhead consists of two parts (body and transition bottom), which are connected by a thread.

3464 Descriptions to utility registration certificates № 02.2 / 28.02.2020 compound. This way of connecting the two elements predetermines shortcomings, which are expressed in the complexity of the manufacturability of the installation of the product, which requires security of connection and manual operations, as well as the fact that the connection of the two elements - housing and adapter bottom by connecting thread determines increased imbalance between the front and rear of the grenade, as a result of which there is increased scattering of the grenade when firing in relation to the hit targets, respectively - lower hitting efficiency. Known fragments of fragmentation grenades have limited striking efficiency due to the described design solutions, in which the fragments obtained by crushing the hull are insufficient in number, different in weight and shape and do not spread evenly within the affected field.

Technical essence of the utility model

In view of the above-mentioned prior art in the field under consideration, the task of the utility model is to propose a fragmentation grenade, which is characterized by improved striking power and efficiency, within the struck field, stabilization of technical scattering during flight of the fragmentation grenade after its launch, as well as a technologically simplified construction.

The task of the utility model is solved with a fragmentation grenade consisting of a housing, with a detonator, an explosive located in the front part of its volume, and holes are formed in the back part of the housing, in which an igniter, igniter capsule and ejector are located. engine.

According to the utility model, the shell of the fragmentation grenade is made as a monolithic body, in which fragmentation cylindrical rings are placed, with grooves formed on their periphery, pressed to the bottom of the body by means of support elements, where the explosive in the form of checkers is placed in the fragmentation cylindrical rings, which are pressed with the fuse by means of washers.

According to a preferred embodiment of the fragmentation grenade, the fragmentation cylindrical rings are made with a thickness Δ = 2.5-3.2 μm.

The channels are made with a triangular cross-section, with a solution angle at the tip a - 30 ° -70 ° and a radius of curvature at the tip R of 0.07. Δ - 0.12 Δ, at a channel depth δ from 0.3 Δ to 0.45 Δ, where Δ is the wall thickness equal to the difference between the outer diameter D and the inner diameter d of the fragmentation ring.

According to a preferred embodiment of the fragmentation grenade, the number of channels on the periphery of the fragmentation rings is 24 channels.

The fragmentation grenade according to the utility model is distinguished by a technologically improved construction, which at the same time provides increased functional indicators in its use. The increased combat effectiveness in case of fragmentation grenade defeat is achieved by appropriately shaped fragmentation rings, such as pre-cutting with grooves with a certain shape provides optimization of the mass and the number of fragments, ensuring effective hitting of targets in the target field.

The use of a monolithic housing reduces the number of elements as well as the number of technological operations when assembling the product, for example, operations involving the use of epoxy compounds or other bonding and fixing compounds are eliminated, and the application of anti-corrosion coating is significantly simplified. Increasing the internal volume of the hull at the expense of the length of the connecting thread on the bottom allows to increase the mass of the explosive, as a result of which the striking ability of the grenade increases.

At the same time, the use of the monolithic hull eliminates the connection of two elements by means of a threaded connection, as a result of which the unbalance between the front and the rear part of the grenade during flight is significantly reduced. The latter reduces and optimizes the beating of the front part compared to the bottom part of the grenade, respectively improves the flight stability and the effectiveness of the defeat.

3465 Descriptions to utility registration certificates № 02.2 / 28.02.2020

Explanation of the attached figures

An exemplary embodiment of the fragmentation grenade according to the utility model is presented in detail using the drawings accompanying the description, where:

Figure 1 shows a general view of the fragmentation grenade according to the utility model;

figure 2 - general view of the warhead;

Figure 3 - view of a fragmented ring is peripheral channels;

figure 4 is a section along AA from fig. 3.

Exemplary implementation of the utility model

Further in the description is presented an exemplary embodiment of the fragmentation grenade according to the utility model, which is characterized by a technological design providing improved functional indicators of damage when using the fragmentation grenade. The described design features - fragmentary cylindrical rings and weakening peripheral channels do not limit the use of other, equivalent in their functional impact elements, shape of channels, which provide the same striking effect of pre-set in shape and mass fragments.

The fragmentation grenade according to the utility model consists of a warhead part 1 and a drive unit 2 is fixedly connected to it (Fig. 1). The warhead comprises a cylindrical housing 1, in which fragmentary cylindrical rings 2 are housed, pressed by a compression sleeve 3 located at the front end, in which support elements 4 are housed at the rear end.

According to an embodiment of the housing 1, the fragmentation rings 2 are pressed by a transition bottom 3 'located at the front end of the housing.

In a preferred embodiment of the fragmentation grenade according to the utility model, the fragmentation rings 2 are cylindrical, on the outer peripheral surface of which are made attenuating channels 10. The number of channels 10 is determined depending on the required number of fragments and the mass of the individual fragment. The channels 10 are suitably shaped to be triangular in shape, have an angle at the apex a = 60 ° and a radius at the apex of the triangle r = 0.3 mm, where the depth of the channel is 5 = 1.2 mm. In order to obtain fragments, a mass is predetermined, it is appropriate to form 24 pieces on the periphery of one fragment ring 2. channels 10 on one ring, the thickness of the fragmentation ring being about Δ 2.95-3.00 w / w (Fig. 3).

In the opening of the fragmentation cylindrical rings 2 is located an explosive in the form of checkers 5, pressed to the located at the front end of the housing 1 fuse 6 by washers 7 (Fig. 2).

Holes are formed in the rear part of the housing 1, in which a igniter capsule 8 and an ignition unit 9, as well as an ejection motor, not shown in the figures, are arranged one behind the other.

Using the utility model

After piercing the igniter capsule 8, the fiery beam from it initiates the ignition composition of the ignition unit 9, which in turn ignites the gunpowder charge of the ejection engine, as a result of which the grenade is transmitted the required initial velocity to reach the set target distance. of shooting.

When there is a barrier, the detonator is activated and initiates the explosive 5, which crushes the housing 1 together with the fragmentary cylindrical rings 2 along the weakened sections formed by the channels 10 of fragments, in an approximate quantity of 1010 pieces, each with an average mass equal to 0.45 g. With this combination of parameters (number and mass of fragments) the striking ability of the grenade at a meeting is sharply increased.

Claims (4)

Claims 1. A fragmentation grenade consisting of a housing with a fuse and an explosive located in the front part of its volume, and in the rear part of the housing are formed openings in which are placed one behind the other flammable composition and igniter capsule, as well as stationary fixed ejection motor, characterized in that the housing (1) of the fragmentation grenade is made as a monolithic body, which houses fragmentation cylindrical rings (2) with channels formed on their periphery (10), pressed by means of support elements (4) to a sleeve (3) of the housing (1), in which the explosive in the form of checkers (5) is placed in the opening of the fragmentary cylindrical rings (2), pressed by means of washers (7) to located in the front part of the housing (1). fuse (6). Shrapnel grenade according to claim 1, characterized in that the shrapnel cylindrical rings (2) are made of steel and have a thickness Δ = 2.5-3.2 μm. Shrapnel grenade according to claim 1, characterized in that the channels (10) are made with a triangular cross-section, with a solution angle at the tip a of 60 ° -70 ° and a radius of curvature of the tip R of 0.25-0.35, at channel depth δ from 0.9 to 1.2 mm. Fragment grenade according to claim 1, characterized in that the number of channels (10) on the periphery of each of the fragmentation cylindrical rings (2) is 20-24.