WO2013174821A1

WO2013174821A1 - Weapon system having a recoil-free or low-recoil weapon and having a shell that can be shot by means of the weapon

Info

Publication number: WO2013174821A1
Application number: PCT/EP2013/060425
Authority: WO
Inventors: Sven Guth
Original assignee: Rheinmetall Waffe Munition Gmbh
Priority date: 2012-05-24
Filing date: 2013-05-21
Publication date: 2013-11-28
Also published as: DE102012010142A1; EP2856064A1

Abstract

The invention relates to weapon system (1) comprising a recoil-free or low-recoil weapon (2), which has a weapon barrel (3), and further comprising a shell (4) that can be shot by means of the weapon (2) and which has a rod-shaped rear region (5) that protrudes into the weapon barrel at the opening end. According to the invention, in order for the shell (4) to have an increased exit speed in comparison with comparable known weapon systems having a recoil-free or low-recoil weapon for such a weapon system (1), the weapon (2) is designed as a light-gas accelerator in order to pre-accelerate the shell (4). Thus, exit speeds of the shell (4) above the speed of sound can be produced in a simple manner. The post-acceleration of the shell (4) then occurs outside of the weapon barrel (3) by means of an athodyd (ramjet drive) associated with the shell (4).

Description

DESCRIPTION

Weapon system with a recoilless or low recoil weapon and one with the

Weapon shootable grenade

The invention relates to a weapon system with a gun barrel having a recoilless or low-recoil weapon and a gun-fire grenade having a mouth side projecting into the gun barrel, rod-shaped rear area.

In recoilless weapons are often portable reactive Panzerbüchsen (Panzerfäuste), in which the grenade initially fired recoil-free or recoil-poor from the corresponding gun barrel (pre-accelerated) by means of a starter charge. Some time after the grenade has left the gun barrel, a rocket propellant is fired at the grenade, which then accelerates the grenade and transports it to the target.

A disadvantage of these known weapons systems, in particular, the relatively long flight time of the grenades to the target, since their flight speeds are in the subsonic range. This makes it possible for the opponent to locate the corresponding projectile before striking the target and initiate countermeasures. In addition, these known weapons systems due to the occurring during firing fire jet and smoke development on a clear (acoustic and visual) Aufusssignatur that betray the position of the shooter the opponent.

The invention has for its object to provide a weapon system with a recoilless or low recoil weapon, in which the grenade has compared to comparable known weapons systems increased exit speed, so that there are hardly any possibilities for locating the grenades and thus to initiate countermeasures. This object is achieved by the features of claim 1. Further, particularly advantageous embodiments of the invention disclose the dependent claims.

The invention is based essentially on the idea to build up the pre-acceleration of the respective grenade recoilless weapon as a light gas accelerator. As a result, exit speeds of the grenades which are above the speed of sound (i.e., greater than 340 m / s) can be readily generated. The acceleration of the grenade is then not within the gun barrel, but after leaving the gun barrel with the help of one of the grenades associated Sta u stra hltriebwerkes (RAM Jet Antri e b).

From DE 10 2007 023 966 B4 weapons are known as Leichtgaskanonen known in which a light gas, in particular hydrogen or helium, is used to accelerate located in the gun barrel projectile. Since the molecules of such gases at a corresponding kinetic energy much higher velocities than the molecules of decomposition products of conventional propellant charges, can be achieved with the light gas guns over conventional weapons much higher exit velocities of the projectiles to be accelerated.

Furthermore, from DE 43 31 395 A1 a weapon is known in which the projectiles located in the barrel are first pre-accelerated by means of a light gas gun to supersonic speed and then subsequently receive a Nachbeschleunigung in the gun barrel by means of a ramjet engine.

Such weapons have a relatively long gun barrel for the pre- and post-acceleration and are also elaborate, since for the post-acceleration in several, separated by slices of pipe sections of the gun barrel, a reactive gas mixture must be included.

Neither DE 10 2007 023 966 B4 nor DE 43 31 395 A1 discloses how the light gas accelerators could be used in recoilless or recoil arms. In such a weapon system with a recoilless or recoil-poor weapon not only much higher departure and flight speeds of the grenade are achieved over comparable known weapon systems, but also a low visual and / or acoustic launch signature. In addition, such weapons systems have a relatively low weight.

In a preferred embodiment of the invention, the weapon comprises an expansion chamber, which is closed at the rear with a Dämämmungskörper. The front side of the expansion chamber is adjoined by a driving tube in which a piston provided for compressing light gas trapped in the driving tube is displaceably guided. The driving tube is connected at its front end with a high-pressure part in connection, which is followed axially by a running tube, in which the rod-shaped rear region of the projectile to be fired is arranged.

The grenade preferably consists of a central projectile body and the shell body enclosing the circumference, tubular jacket, on the inside of a solid propellant is arranged. In this case, the outer shape of the projectile body with respect to the inner wall of the tubular outer shell is selected such that there is a ram nozzle arrangement.

If the grenade is to be used for antitank defense, the projectile body can consist of a heavy metal (for example a tungsten alloy).

The tubular jacket can, for example, on the outside have a steel cladding acting as a splinter shell, which generates a splinter rain around the target when hitting a target.

Further details and advantages of the invention will become apparent from the following, with reference to figures explained embodiments. Show it:

Fig. 1 shows a longitudinal section through a simplified illustrated, inventive weapon system, consisting of a recoilless weapon and a shootable from this weapon grenade and Fig. 2 is an enlarged view of the grenade shown in Fig. 1. In Fig. 1, 1 denotes a weapon system according to the invention, which consists essentially of a recoilless or recoil arms 2 with a gun barrel 3 and a firing of the barrel 3 grenade 4. The grenade 4 is an over-caliber ammunition firmly attached to the weapon 2 (disposable weapon).

The grenade 4 has a projecting into the barrel 3 of the weapon 2, rod-shaped rear region 5.

According to the weapon 2 is constructed as a light gas accelerator. It therefore comprises an expansion chamber 7 which is provided with an igniter (not shown) and filled with a propellant charge 6, to which end a tube part 9 filled with a confining body (counterweight) 8 adjoins on the rear side.

On the front side, the expansion chamber 7 is adjoined by a blowing tube 10 filled with a light gas (for example hydrogen or helium), which is closed at the rear by an axially displaceable piston 11.

At the front of the driving tube 10, a conically tapered high pressure part 12 and at this a barrel 13, which receives the rod-shaped rear portion 5 of the grenade to be fired 4 close. The high pressure part 12 and the barrel 13 are separated by a rupture disk 14.

The grenade 4 of the weapon system 1 according to the invention (FIG. 2) essentially consists of a central projectile body 15, for example of a heavy metal, with the rod-shaped rear region 5 and a tubular outer casing 16 enclosing the projectile body 15 on the circumference. In this case, the outer shape of the projectile body 15 is formed such that the projectile body 15 forms a Staudüsenanordnung together with the inner surface of the outer shell 16, wherein on the inner surface of the outer shell 16, a solid propellant 17 is arranged.

In the following, the operation of the weapon system 1 will be described in more detail: Upon actuation of a trigger 18 of the weapon 2, the propellant charge 6 located in the expansion chamber 7 is ignited. As a result, on the one hand, the damming body 8 is pushed out of the tubular part 9 on the rear side and, on the other hand, the piston 11 is accelerated within the driving tube 10 in the direction of the high-pressure part 12. Here, the light gas is highly compressed. If the pressure of the light gas reaches a predetermined value, the rupture disk 14 is destroyed and the light gas expands into the barrel 13 and drives the grenade 4 so that it leaves the gun barrel 3 in the direction of a corresponding target at supersonic speed. The piston 11 is braked by the conically tapering shape of the high-pressure part 12.

By means of a front part 19 of the projectile body 15 that widens conically in the direction of the air flow, there is a constriction between the projectile body 15 and the outer casing 16 for the air flow, and thus a reduction in the flow velocity for the superimposed air flow. The air is compressed and the air pressure rises.

In a subsequent combustion chamber 20 of the shell 4, the diameter of the projectile body 15 decreases again, and the air heated by the compression ignites the solid propellant 17, so that an expansion of the gas takes place. The hot gas then exits the rear of the outer shell 16, and the shell 4 is accelerated by the relaxation of the gases in the nozzle-shaped end portion 21 of the outer shell 16.

LIST OF REFERENCE NUMBERS

1 weapon system

2 weapon

3 weapon

4 grenades

5 rod-shaped rear area

6 propellant charge

7 expansion chamber

8 damming body

9 pipe part

10 driving tube

11 pistons

12 high pressure part

13 barrel

14 rupture disk

15 projectiles

16 outer jacket

17 solid fuel

18 deduction

19 front part

20 combustion chamber

21 end area

Claims

Has a weapon system with a gun barrel (3) having recoilless or recoil arms (2) and a gun (2) firing grenade (4) having a mouth side in the barrel (3) projecting, rod-shaped rear region (5) , with the features: a) the weapon (2) is constructed as a light gas accelerator, which accelerates the grenade (4) on supersonic speed when shooting down, and b) the grenade (4) comprises a ramjet engine, which after reaching the supersonic speed outside the gun barrel (3) nachbeschieunigt.

2. weapon system according to claim 1, characterized in that the weapon (2) comprises an expansion chamber (7), which is closed at the rear with a Dämämmungskörper (8), to the expansion chamber (7) on the front side a driving tube (10) connects, in the drive tube (10) is displaceably guided - for compressing light gas trapped in the drive tube (10) - provided piston (1 1), and the drive tube (10) at its front end with a high-pressure part (12) is in communication axially adjoining a running tube (13), in which the rod-shaped rear region (5) of the grenade (4) to be fired is arranged.

3. Weapon system according to claim 1 or 2, characterized in that the grenade (4) comprises a central projectile body (5) and the projectile body (15) peripherally enclosing, tubular outer shell (16) that on the inner surface of the outer shell ( 16) a solid propellant (17) is arranged, wherein the outer shape of the projectile body (15) is formed such that the projectile body (15) together with the inner surface of the outer shell (16) forms a ram nozzle arrangement.

4. weapon system according to claim 3, characterized in that the projectile body (15) consists of a Schwermeta! L.

5. Weapon system according to claim 3 or 4, characterized in that the rohrför- mige Außenmantei (16) has on the outside a steel cladding acting as splinter shell.

6. Weapon system according to one of claims 1 to 5, characterized in that it is at the grenade (4) is Überkalibermunition.

7. Weapon system according to one of claims 1 to 6, characterized in that it is a shoulder shot weapon.