WO2014139905A1

WO2014139905A1 - Mounting of a gas piston in a weapon system

Info

Publication number: WO2014139905A1
Application number: PCT/EP2014/054516
Authority: WO
Inventors: Erich Matzagg; Gerhard Bilger
Original assignee: Rheinmetall Waffe Munition Gmbh
Priority date: 2013-03-11
Filing date: 2014-03-10
Publication date: 2014-09-18
Also published as: EP2972050B1; DK2972050T3; NO3062830T3; ES2667170T3; PL2972050T3; PT2972050T; DE102013004107A1; EP2972050A1; LT2972050T; HUE037572T2

Abstract

A weapon system (10) is proposed, comprising a weapon barrel (2) and a breech mechanism (7), which is guided in a weapon housing (3) and is moved by way of at least one gas piston (4) and a return spring device (13), which structurally adjoins and interacts with the gas piston (4). In this system there are gas channels (14) between the weapon barrel (2) and the gas piston (4). To achieve the effect that a load change can be absorbed better by the return springs (5), it is provided that the gas piston (4) is now mounted on or in the weapon barrel (2) and only the return spring device (13) is integrated in the weapon housing (1).

Description

DESCRIPTION

Storage of a gas piston in a weapon system

The invention relates to a storage of a gas piston in a weapon system for the weapon and feed drive. In order to achieve that such a weapon system can better absorb increased load change, the use of longer closing springs and closing spring sleeves is being considered. In order to integrate longer closing springs and Schüeßhülsen in the weapon system, the storage of the / the gas piston for the weapon and feed drive is now made on or in the barrel, the gas piston removed from the weapon housing. As a result, the closing springs and the closing sleeves of the entire space in the weapon housing is available.

Self-propelled weapon systems, such as a gas pressure gauge, reload and move a closure by the pressure of the powder gases. These act through holes and at least one gas piston system on the closure. Such a weapon system with closing spring device is treated in DE 10 2009 056 253 B3.

CH 229 678 A discloses a gas pressure supercharger in which the gas piston influenced by the tapped gases of the barrel surrounds the barrel in a sleeve-like manner and brings the closure for unlocking and returning after the shot via rods or the like. The gas piston is designed here so that it surrounds the rear end of the barrel and also as a support member which can be locked with the barrel closure piece.

From DE 199 03 610 A a drive system for a gas pressure loader is known which comprises at least two gas piston systems. These are aligned parallel to the barrel and arranged mirror-symmetrically to the longitudinal section plane of the Gasdruckiaders. The gas piston systems are in turn guided to the front end of the gun barrel and coupled at its rear end via an intermediate piece with the closure. The proposed closing springs are in turn involved at the rear end of the closure. DE 10 2005 062 758 B relates to a gas take-off arrangement for the weapon barrel, the running bore of which is in communicating connection with a gas cylinder, which is provided with a first gas outlet opening, which cooperates with a throttle element. Run, gas cylinder, first gas outlet opening and throttle element are formed so that a temperature-induced change in length of the barrel causes a relative movement between the gas cylinder and the throttle element.

Other embodiments include, instead of a gas piston system with direct connection to the closure, a gas piston which cooperates with a closing spring system on the closure (WO 2011/066893 A).

Such closing springs and drive elements (gas piston) are housed in a common housing, the weapon housing. This fact limits the maximum possible length of the closing spring. The limited space finally brings with it the disadvantage that these closing springs can no longer sufficiently absorb an increase in the load change on the closing springs.

Here, the invention has the object to allow an increase in the load change on the closing springs to eliminate the known disadvantages.

The problem is solved by the features of claim 1. Advantageous embodiments are listed in the subclaims.

The present invention is based on the idea to absorb an increased load change of the closing springs by as long as possible, maximum springs of a closing spring. In order to implement this idea, it is therefore proposed not to provide the storage of the gas piston as before in the common housing, the weapon housing, but to take this out of the housing. As a result, the entire length of the weapon housing for the integration of longer and stronger springs available. This is achieved in that the gas piston (drive element) with the necessary gas channel / gas channels is now stored on or in the weapon barrel / weapon barrel The gas piston is connected to the weapon barrel via this gas canals / gas channels.

From DE 89 09 417 U1 discloses a device for a weapon with a gun barrel with barrel bore and a Verschlussschiitten is known, in which of the barrel bore in the the back of a gas pressure well branching off, which leads to the rear end of the Waffen- iaufs. In order to increase the repulsive force on the closing slide, this device works together with a counter-member arranged on the closing slide. Closing springs or the like are not mentioned here nor the problem of loading the closing springs, etc. thought.

A gas pressure charging device, which is arranged above the weapon barrel, describes the DE 32 44 316 A1. In this case, the properties of a recoil charger are impressed on the gas pressure charging device. The problem of the load change is also not considered here. Rather, it should be noted that the mass of the slider and the force of the spring are selected so that even with different types of ammunition a perfect charging process is guaranteed.

The gas piston (s) paged out of the weapon housing according to the present invention is / are preferably housed in a separate gas piston housing mounted on or around the weapon barrel. The necessary gas channels are in turn integrated in the gas piston housing.

Alternatively, the gas piston housing may also be part of the weapon barrel and integrated into it.

If a gas extraction at the front of the weapon barrel is desired, the gas can be guided via separate gas guides to the gas piston (gas piston housing, weapon barrel).

The closing spring device is integrated in the weapon housing so that the gas piston can actuate and move the closing spring sleeve. Accordingly, the weapon housing in this area is open to the gun barrel, so that the gas piston can continue to act directly on the closing spring device.

Thus, a weapon system with a weapon barrel, a weapon housing and a shutter guided in the weapon housing is proposed. This closure is movable via at least one gas piston and a Schiießfedervorrichtung which adjoins this structurally adjoining, with the gas piston. There are gas channels between the gun barrel and the gas piston. In order to achieve that a load change from the closing springs can be better absorbed, it is provided that the gas piston is now stored on or in the barrel and only the closing spring device is integrated in the weapon housing. By this construction, the total length of the weapon housing can now be used for the closing springs or the closing spring device alone / voil.

Reference to an embodiment with drawing, the invention will be explained in more detail. The single figure shows a sketchy representation of the invention. It is assumed that a symmetrical drive system consisting of two gas piston and two Schließfedervorrichtungen.

10 with a gas supercharger is characterized, comprising a weapon housing 1 and a weapon barrel 2. The weapon barrel 2 is integrated at the end in the front region of the weapon housing 1. The cartridge feed of a cartridge or ammunition 11 in the cartridge chamber 8 of the gun barrel 2 is conventionally via a closure 7. This is, as already stated, preferably moved by two Schließfedervorrichtungen 13 within the weapon housing 1.

The closing spring devices 13 interact functionally with one gas piston 4 each. The gas piston 4 are in turn now in a gas piston housing 3, which is arranged in the rear region of the gun barrel 2, integrated. The gas piston housing 3 may also be part of the gun barrel 2. The Schließfedervorrichtungen 13 each include a Schüeßfederhülse 6 and a closing spring 5, wherein cam 9 of the closing spring device 13 engage the closure 7. The Schließfedervorrichtungen 13 are in turn integrated in the weapon housing 1. The gas removal for the gas piston 4 of the gas pressure supercharger 10 via gas channels 14 between the gas piston 4 and the gun barrel. 2

The gas channels 14 may be part of the gas piston housing 3 at a close to the weapon housing gas sampling. If the gas removal further forward, the gas supply to the gas piston via separate feeds done, which are fed into the gas piston housing (not shown).

The operation is as follows:

After the firing of ammunition 11, propellant gases are formed at short notice, which penetrate via the bores or gas channels 14 into the piston guides of the gas pistons 4. These gases act on the gas piston or 4, which is moved backwards. As a result, the adjacent closing spring sleeves 6 are moved to the rear. By this, the shutter 7 is guided to the rear. The closing springs 5 are compressed and tensioned. The closure 7 is presented in its rear position a new ammunition 1 1. By relaxing the closing springs 5, the Schiießfederhülsen 6 and thus the shutter 7 are moved forward, the ammunition 11 of the cartridge chamber 8 of the gun barrel 2 fed. At the same time, the gas piston 4 is transferred to the starting position.

The fact that the gas piston housing 3 is part of the gun barrel 2 or attached as an independent Teii on the gun barrel 2, now longer closing springs 5 and Schiießfederhülsen 6 (= closing device) can be integrated into the weapon system.

Claims

claims

1. Weapon system (10) with a weapon barrel (2), a weapon housing (3) and a guided in the weapon housing (3) closure (7) via at least one gas piston (4) and this structurally subsequent, with the Gas piston (4) cooperating closing spring device (13) is moved, wherein Gaskanäie (14) between the gun barrel (2) and the gas piston (4) are present, characterized in that the gas piston (4) is mounted on or in the weapon barrel (2) and the closing spring device (13) is integrated in the weapon housing (1).

2. Weapon system (10) according to claim 1, characterized in that the gas piston (4) in a gas piston housing (3) is integrated, which is mounted on or around the gun barrel (2).

3. weapon system (10) according to claim 2, characterized in that in the gas piston housing (3) gas channels (14) between the gun barrel (2) and the gas piston (4) are integrated.

4. weapon system (10) according to one of claims 1 to 3, characterized in that the closing spring device (13) comprises at least one closing spring sleeve (6) and a closing spring (5).

5. weapon system (10) according to one of claims 1 to 4, characterized in that the weapon housing (1) in the region between the gas discs (4) and the closing spring device (13) is open or one or more corresponding openings for the action of the Gas piston (4) on the closing spring device (13) in the weapon housing (1).