RU2789825C1 - Underbarrel grenade launcher ammunition to destroy unmanned aerial vehicles - Google Patents

Abstract

FIELD: military technology.

SUBSTANCE: invention relates to the field of military technology, in particular to ammunition for grenade launchers, grenade launchers designed for remote destruction or capture of low-flying unmanned aerial vehicles. Ammunition, made in the form of a grenade, contains a warhead and ammunition body. On the outer side surface of the body of the ammunition there is a leading belt and an annular groove, in which a mechanical distance switch is located. The warhead of the ammunition - grenade consists of a two-segment fairing (6) and a two-segment steel cup (7) with pins. The inner surface of the two-segment steel cup (7) is covered with a protective gasket (8), inside which a net (9) is laid with striking elements (10) attached to its corners. A wad (12) is located behind the two-segment steel cup (7). The body of the ammunition - grenade consists of a cylindrical steel cup (11), which plays the role of a combustion chamber and a guide for firing a two-segment steel cup (7) with a network (9) and striking elements (10). In a cylindrical steel cup (11) in the space behind the wad (12) there is a powder charge (13). The wad (12) is designed to prevent the breakthrough of powder gases between the wall of the cylindrical steel cup (11) and the two-segment steel cup (7). Behind the wad (12) and powder charge (13) there is a mechanical distance switch, consisting of front (25) and rear (19) fixed parts made of aluminum, an aluminum adjusting ring (20), three powder retarders (21), three gas generating powder charges (23), three steel balls (24), acting as valves for shutting off powder gases in the cylindrical part of the body, a bolt (17), a washer (26) with holes for transmitting a flame beam, a nut (18), connecting screws that regulate compression force of the adjusting ring, and screws (22) for laying gas-generating powder charges (23) and balls (24) into the channels of the front (25) fixed part, rubber ring (27) for tight connection of a cylindrical steel cup (11) with a mechanical distance switch . Behind the mechanical distance switch there is a transfer charge (16) and the bottom of the grenade (15), in which the propellant charge (14) of the underbarrel grenade launcher grenade is installed.

EFFECT: creation of a device with a large amount of internal space occupied by the net, which increases the area of the striking plane after shooting the net on the trajectory, due to which firing errors are leveled.

5 cl, 8 dwg

Description

The invention relates to the field of military technology, in particular to ammunition for grenade launchers, underbarrel grenade launchers used as independent means of destruction, as well as machine guns fixed under the barrel (for example, Kalashnikov - AK, AK-74, etc.), intended for remote destruction or the capture of low-flying unmanned aerial vehicles (UAVs).

Known device RU 30964 U1 dated 10.07.2003. This device is a warhead, a combustion chamber housing, the outer surface of the tail of which is made under the pre-chamber of the barrel with a guaranteed minimum clearance, a propellant powder charge and an igniter capsule, placed in the combustion chamber. The warhead of the grenade and the body of the combustion chamber are made by individual modules.

This projectile has a flaw. Since the implementation of the detonation of a grenade occurs after a meeting with a target or on a timer, the use of this device against flying targets is complicated.

Known device RU 2744277 C1 dated 03/03/2021, which is a prototype of the proposed utility model, contains a warhead and ammunition body. On the outer side surface of the body of the ammunition, there is a leading belt and an annular groove, in which a mechanical distance switch is located.

The disadvantages of this device include a large amount of internal space occupied by striking elements, which leads to a decrease in the volume occupied by the network, which in turn leads to a decrease in the area of the striking plane after shooting the network on the trajectory due to which firing errors can be leveled.

The objective of the invention is to create a device with a large amount of internal space occupied by the net, which will increase the area of the striking plane after shooting the net on a trajectory due to which shooting errors can be leveled.

This task is achieved by the fact that in a well-known device containing the warhead and the body of the ammunition. On the outer side surface of the body of the ammunition, there is a leading belt and an annular groove, in which a mechanical distance switch is located. The warhead consists of a two-segment plastic fairing inside which there is a cavity to increase the internal volume of the ammunition, two-segment steel cup with pins, the segments of which are in the form of a semi-cylinder with a bottom and bent petals, providing forcing pressure necessary to shoot a two-segment steel cup with pins with striking elements and a network . The inner surface of the two-segment steel cup with pins is covered with a thin paper or plastic protective pad that prevents the threads of the network and damaging elements from getting into the slots of the petals of the two-segment steel cup with pins. Inside two segmented steel cups with pins, a net is laid on the gasket with striking elements attached to its corners, the net is made of kelaur, kapron or any other threads capable of withstanding stresses arising from the contact of the net, while having a small cross section to ensure a larger net after deployment. Behind the two-segment steel cup with pins there is a wad, which protects against the breakthrough of powder gases between the wall of the cylindrical steel cup and the two-segment steel cup with pins, in the space behind the wad there is a powder charge. The body of the ammunition consists of a cylindrical steel cup, which plays the role of a combustion chamber and a guide for firing a two-segment steel cup with pins and a net with striking elements attached to its corners. The cylindrical steel cup has a leading belt on the outer side surface and slots at the outlet end of the cup, located at an angle and in the direction of rotation of the grenade on the trajectory, intended for bayonet connection with pins of two segmented steel cups. The bayonet connection when shooting a two-segment steel cup with pins with a net and striking elements attached to its corners sets an additional rotation for the radial expansion of the striking elements with a network and obtaining a striking plane. The case includes a transfer charge and a grenade bottom, made according to the type of a standard grenade bottom for an underbarrel grenade launcher with holes for igniting the transfer charge and attaching a mechanical distance switch. A standard propelling grenade charge of an underbarrel grenade launcher is installed at the bottom. The body is equipped with a mechanical distance switch, consisting of a front and rear fixed parts made of aluminum, an aluminum adjusting ring, three powder retarders, three gas-generating powder charges, three steel balls acting as valves for locking powder gases in the cylindrical part of the body, a bolt, a washer with holes for transmitting the flame beam, nuts, connecting screws that regulate the compression force of the adjusting ring and screws for laying gas-generating powder charges and balls into the channels of the front fixed part. For tight connection of a cylindrical steel cup with a mechanical distance switch, a rubber ring is used.

Figure 1 shows a structural diagram of ammunition for a grenade launcher (general view - side); figure 2 shows the ammunition (sectional view - side) with the location of the structural elements; figure 3 shows a section of the bottom of the grenade; figure 4 is a section of the rear fixed part of the mechanical distance switch; figure 5 - section of the adjusting ring; in fig. 6 - section of the front fixed part of the mechanical distance switch; in fig. 7 - segment of a steel cup with pins and bent petals; in fig. 8 - a network with striking elements, forming a striking plane.

The proposed device consists (figure 1) of two components: the warhead 1 and the body of the ammunition 2. On the outer side surface of the body of the ammunition, there is a leading belt 3 and an annular groove 5, in which the mechanical distance switch 4 is located. The warhead 1 consists of (Fig. .2) from a two-segment plastic fairing 6, a two-segment steel cup with pins 7, the segments of which are in the shape of a half-cylinder with a bottom and bent petals (see Fig.7), providing forcing pressure necessary to shoot a two-segment cup with striking elements 10 and a net 9. The inner surface of the two-segment cup with pins 7 is covered with a thin paper or plastic protective pad 8, which prevents the threads of the network 9 and striking elements 10 from getting into the slots of the petals of the two-segment steel cup with pins 7. Inside the two-segment steel cup with pins 7, a net 9 is laid on the gasket 8 with striking elements 10 attached to its corners, the network is made of elaure, kapron or any other threads capable of withstanding the stresses arising from the contact of the network, while having a small cross section to ensure a larger network after deployment. Behind the two-segment steel cup with pins 7 there is a wad 12, which protects against the breakthrough of powder gases between the wall of the cylindrical steel cup 11 and the two-segment steel cup with pins 7, in the space behind the wad 12 there is a powder charge 13. The body of the ammunition consists (figure 2) of cylindrical steel cup 11, which plays the role of a combustion chamber and a guide for shooting a two-segment steel cup with pins 7, a network 9 and striking elements 10 attached to its corners. Cup 11 has a leading belt 3 (see Fig. 1) on the outer side surface and slots on at the outlet end of the glass, located at an angle and in the direction of rotation of the grenade on the trajectory, designed for bayonet connection with pins of two segmented steel cup 7. Cylindrical steel cup 11 is screwed onto the external thread of the mechanical distance switch 4 (see Fig. 1) for tightness of the connection in the groove of the mechanical distance switch 4 fits the rubber ring 27. The bottom of the grenade 15 is screwed onto the internal thread of the mechanical distance switch 4, made like a standard grenade bottom of an underbarrel grenade launcher with holes for igniting the transfer charge (see Fig. fig. 3). a transfer charge 16 is located between the bottom of the grenade 15 and the mechanical distance switch 4. A standard propelling grenade charge of the underbarrel grenade launcher 14 is installed in the bottom. to transmit the flame beam 26, a nut 18 is screwed on. The mechanical distance switch 4 consists of an aluminum front fixed part 25, screwed into a cylindrical steel cup 11. The front fixed part 25 has a central hole for connection with an adjusting ring 20 (see Fig. 6) three a channel with holes for placing gas-generating powder charges 23 and steel balls 24, which act as valves. Gas-generating powder charges 23 and steel balls 24 are placed in the channels of the front fixed part 25 of the mechanical distance switch 4 and pressed with screws 22 (see Fig. 6) The front fixed part 25 has three threaded holes for connection with the rear fixed part 19 using connecting screws 28 The rear fixed part 19 is equipped with three holes (see Fig. 4) for transmitting the flame beam, holes for connecting screws 28 and bolt 17. Between the front fixed part 25 and the rear fixed part 19 of the mechanical distance switch 4 there is an adjusting ring 20 with slots (see Fig. 5) to enable rotation to the required angle of the adjusting ring 20, holes for laying retarders 21 and bolt 17, which acts as an axis for the adjusting ring 20.

The invention works as follows: before firing, the distance to the low-flying UAV is estimated and the adjusting ring 20 is set to the desired position, as a result of which one of the channels of the adjusting ring 20 with a pyrotechnic retarder 21 is set coaxially with one of the holes in the rear fixed part 19 of the mechanical distance controller 4 and perpendicular the axis of one of the channels with a ball 24 and a gas-generating charge 23 of the front fixed part 25 of the mechanical distance controller 4. At the time of the shot, the propellant charge 14 of the ammunition burns out and the transfer charge 16 ignites. During the movement of the projectile along the trajectory, the transfer charge 16 burns, ignition and combustion moderator 21. The gases formed as a result of combustion are vented through holes in the bottom 15 of the projectile. After the moderator 21 burns out, the powder charge 13 ignites, which in turn ignites the gas-generating charges 23. As a result of the combustion of the gas-generating charge 23, located in the channel of the front fixed part 25 of the mechanical distance adjuster 4 perpendicular to the axis of the channel of the adjusting ring 20, the steel ball 24 is ejected products of combustion and blockage with a steel ball 24 of the conical part of the channel of the adjusting ring 20. As a result, a sealed space is formed in the central part of the ammunition, in which, as a result of the combustion of the powder charge 13, pressure builds up, which acts on the wad 12, and through it on a two-segment steel cup with pins 7, which, due to the petals resting against the wall of the cylindrical steel cup 11, provides the necessary forcing pressure. As a result, two segment steel cups with pins 7 with a network 9 and striking elements 10 attached to its corners and two segment fairing 6 are fired. movement through the bayonet connection with a cylindrical steel cup 11 receives an increased rotation speed. Under the action of centrifugal forces, separation and expansion of parts of a two-segment steel cup with pins 7 and striking elements 10, which stretch the network 9. As a result of the increased rotation speed of the fired parts, namely the segments of the steel cup with pins 7, striking elements 19 with a network attached to them 9, the striking elements 10 expand to the maximum possible size of the network 9 (see Fig. 8) The network 9 forms a plane to defeat or capture the UAV. Due to the larger volume of the internal cavity formed by a two-segment steel cup with pins 7 and a two-segment fairing 6, as well as a decrease in the volume occupied by striking elements10, the volume occupied by the network 9 increases. when meeting with the network, while having a small cross section to ensure the maximum possible size of the network in expanded form, which ensures the leveling of shooting errors.

The technical result of the invention is: the creation of a device with a large amount of internal space occupied by the network, which increases the area of the striking plane after shooting the network on the trajectory due to which shooting errors are leveled.

Claims (5)

1. Ammunition for an underbarrel grenade launcher for destroying unmanned aerial vehicles, made in the form of a grenade, containing a warhead and an ammunition body, where a leading belt and an annular groove are made on the outer side surface of the ammunition body, in which a mechanical distance switch is located, characterized in that the warhead ammunition - a grenade consists of a two-segment fairing, a two-segment steel cup with pins, the inner surface of the two-segment steel cup is closed by a protective gasket, inside which a network is laid with striking elements attached to its corners, a wad is located behind the two-segment steel cup, the body of the ammunition - grenade consists of a cylindrical steel glass, which plays the role of a combustion chamber and a guide for shooting a two-segment steel cup with a net and striking elements, a powder charge is located in a cylindrical steel cup in the space behind the wad, while the wad is made with the ability to protect between the wall of a cylindrical steel cup and a two-segment steel cup, behind the wad and powder charge there is a mechanical distance switch, consisting of front and rear fixed parts made of aluminum, an aluminum adjusting ring, three powder retarders, three gas-generating powder charges, three steel balls acting as valves for shutting off powder gases in the cylindrical part of the body, a bolt, a washer with holes for transmitting a flame beam, a nut, connecting screws that regulate the compression force of the adjusting ring, and screws for laying gas-generating powder charges and balls into the channels of the front fixed parts, a rubber ring for hermetic connection of a cylindrical steel cup with a mechanical distance switch, behind the mechanical distance switch there is a transfer charge and the bottom of the grenade, in which the propelling charge of the underbarrel grenade grenade is installed that. 2. Underbarrel grenade launcher ammunition for destroying unmanned aerial vehicles according to claim 1, characterized in that the segments of the two-segment steel cup are in the form of a half-cylinder with a bottom and bent petals that provide forcing pressure necessary to shoot a two-segment steel cup with a net and striking elements. 3. Underbarrel grenade launcher ammunition for destroying unmanned aerial vehicles according to claim 1, characterized in that the protective gasket that prevents the threads of the net and striking elements from getting into the slots of the cup petals is made of paper or plastic. 4. Underbarrel grenade launcher ammunition for destroying unmanned aerial vehicles according to claim 1, characterized in that the network is made of Kevlar or nylon threads that can withstand the stress that occurs when the network contacts the target. 5. Underbarrel grenade launcher ammunition for destroying unmanned aerial vehicles according to claim 1, characterized in that the cylindrical steel cup has a leading belt on the outer side surface and slots at the output end of the cylindrical steel cup, located at an angle and in the direction of rotation of the grenade, designed for bayonet connection with the pins of a two-segment steel cup, in turn, the bayonet connection during firing sets the rotation of the two-segment steel cup with a network and striking elements to obtain a striking plane.

Images