DE2255287A1 - GAS CYLINDERS FOR FIRE ARMS - Google Patents

Description

D-4000 DÜSSELDORF 1 ■ ~ PATENTANWÄLTE

Malkastenstrasse 2. 'DIPL.-ING. ALEX STENGER

DIPL.-ING. WOLFRAM WATZKE

' - .. Dipl.-Ing. Hinz J. Ring

Our reference: 13 539 'Date: November 10, 1972

Laurona Armas S.A., E-Eibar (Guipuzcoa) Musategui s / n ■

Gas cylinders for firearms

The invention relates to a designed for short feed Gas cylinder for use in firearms with a magazine tube which is arranged coaxially to the barrel.

Gas cylinders are known whose function begins to reach the level of efficiency desired in automatic firearms. However, these gas cylinders still have certain disadvantages which the present invention aims to eliminate in detail.

In the conventional design, there is a gas cylinder with. short feed for use in automatic firearms with a tubular magazine made of a cylindrical hollow body, the is arranged on the lower part of the barrel and surrounds the magazine tube so as to form a ring-shaped chamber together. Of the The cylindrical hollow body is fitted over the magazine tube by means of a radial end thickening which is located at the barrel muzzle is located. Such a thickening serves to centralize the Magazine tube in order to keep it exactly coaxial with the gas cylinder. In addition, gas-impermeable ones are located between the throat effecting the centralization and the magazine tube Sealing elements that prevent any gas penetration.

On the other hand, the cylindrical body that owns the body of the cylinder comprises an opening which is in communication with the cavity of the barrel and in its interior an in

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receives the movable piston in the axial direction. This movement of the piston is precisely guided by the magazine tube . ' The outer surface of the piston should fit over the inner surface of the gas cylinder and the inner surface of the piston over the outer surface of the magazine tube, so that the gases from a shot penetrate through the opening into the annular chamber located between the gas cylinder body and the magazine tube, only after Movement of the piston can escape.

In view of the fact that when the piston retracts under the action of the gases, a number of mechanisms are operated which involves cocking the fire mechanism, ejecting the empty ammunition case and introducing a new cartridge in the firing chamber of the weapon in connection with recuperation devices effect, which puncture after the pressure of the gases is released, the direct actuation of the in question is allowed standing mechanisms by the piston without any intermediate elements can be seen as the ideal solution.

Despite the relatively great force with which the K0I7 ben moves, the resistance to be overcome to move the piston due to the tight fit to be provided is like this great that the piston has an extremely short stroke when used without an additional element, so that the piston makes its punctures can meet. ,

In order to solve this problem, it was originally thought to equip the piston with sufficient mass so that at the same time an inertial mass is formed which, after the end of the action of the gases, would be able to continue the stroke until the weapon is again in ready to fire position. However, if one takes into account, on the one hand, that a piston of this type would have to be of considerable length and, on the other hand, that the magazine tube is a relatively long part which can be bent or otherwise deformed, and finally one takes into account that the magazine tube is not If it is a precision part which can be mechanized to the required degree, the result is that the piston in these solutions, either by inserting it into the

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Magazine tube inserted or pressed onto .this and thus with the slightest deformation of the same any movement. or adjustment restricts, so poorly executed, that a high pressure loss occurred, with the result that no movement or no stroke. could take place.

The problem is solved in that a piston with a Inertial mass is combined, both elements being independent of each other. The piston 'will ^ at its outer Part mounted above the body of the gas cylinder and on its inner part above the magazine tube. The length of the piston is so small that compaction is extremely difficult. The inertial mass is loosely attached, so that by their Length and "weight", despite possible deformations or slight bending of the pipe, do not provide effective movement is hindered. . . '·

-In an arrangement corresponding to the known gas cylinders, the expansion of the gas resulting from a shot causes a short but abrupt ■ movement of the piston, which is sufficient in order to apply the necessary force to the inertial mass in such a way that the weapon is ready to fire when it is moved Position is brought.

However, it is obvious that despite extensive overcoming a complete solution to the problem has not yet been found. Despite the fact that through, one on the magazine tube loosely arranged independent inertial mass a very short piston can be used, which is on the tube has a minimal contact surface, the piston must always fit high above the tube for the device to work can. As a result, the disadvantages already mentioned above remain. ^

The improvement according to the invention is that the The piston no longer needs to be adjusted over the magazine tube, so that the displacement of the moving parts of the device (piston and inertial mass) completely independent of the more or less ideal state relative to the Outer surface of the magazine tube can be done.

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In addition, not only this becomes the main subject of the invention realizing the objective, but with the new arrangement it is also possible to use seals dispense, so that a simpler and more economical production is possible. In addition, the cleaning the gas cylinder has been improved, which makes it last longer than the well-known firearms without difficulty, in which such strong accumulations of combustion residues are released within a short time that the puncture performance decreases.

Although in the following the operation of the other mechanisms belonging to the gas cylinder and the details the arrangement of the barrel are described as assuming that that these references are only used for a better understanding of the invention. These parts are for explanatory purposes only listed and not claimed as belonging to the invention, since the invention only the arrangement and working way of the gas cylinder concerns. The invention has neither the arrangement of the locking of the locking mechanism nor the Connection of these mechanisms with the gas cylinder to the object. These mechanisms can be, for example those act as they did during WWII known rifle model Ml were used, with the inertial mass of the breechblock holder in the upcoming pail in the most convenient way to the feed sensor tube adapts.

In the accompanying drawing is a schematic representation a preferred embodiment of the proposed gas cylinder shown. .

A body of a gas cylinder 2 placed under a barrel 1 is and is connected to this in accordance with the usual arrangement via an inclined opening on the slot 8, has an inner radial thickening 21 provided at the muzzle of the barrel 1, into which a magazine tube 9 is inserted is.

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The thickening 21 also serves to hold the magazine tube 9 to keep concentric in the gas cylinder 2 to ensure the free movement of a piston 5, and the barrel 1 to support. The barrel 1 is tight-fitting with its chamber in the Äaufnahmestück 10 fits the cover for the mechanisms and is held down by a thread plug 11, · which is screwed into grooves at the end of the magazine tube 9. The device also includes an inertial mass 12 in the form of a sleeve. The inertial mass. 12 is coupled via connecting rods to the mechanisms that operate under the pressure of the piston 5 are to be moved.

The construction chosen for the gas cylinder 2 and the piston 5 as well as the type of connection between these two elements are Part of the present invention. -

As can be seen from the drawing, the gas cylinder 2 has an inner cavity graduated into two different diameters. The piston has a tubular projection from considerable length, which is coaxially extended relative to the adjustment zone and directed out towards the inner surface of the gas cylinder "is. The part of the piston that fits over the inner surface of the gas cylinder fits snugly on that with the larger one Diameter designed zone of the gas cylinder. The coaxial tubular protrusion is located in the part of the gas cylinder, which has a smaller diameter, this free end in the rest position of the device against the inner radial Thickening 21 is applied. This inner radial thickening 21 serves to hold and center the magazine tube 9.

From the drawing it can be seen that in the one with a smaller Diameter designed part of the gas cylinder a gas-impermeable Seal 3 is provided on the inner circumference, which is held in place by an elastic snap ring 4 ". It is also shown that the setting or Fit the piston 5 on the one with the larger diameter designed part of the gas cylinder 2 is secured by means of a conventional segment β. _. . '■ -

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In the rest position of the device shown in the drawing a chamber 7 is formed between the seal J and the gas-tight segment 6 of the piston 5, the gas-tight state completely independent of the possible setting or fitting of the piston 5 above the guide for the movements serving magazine tube 9 is.

The function of the weapon is initiated when it is handed in Shot some of the gases propelling the ball into the chamber 7 of the gas cylinder through the slot 8, whereby the piston 5 under the influence of the gas in the surface pressure generated on the inside of the sleeve is moved. This movement continues as long as the influx is under pressure standing gases is not interrupted and the seal 3 and the segment 6 maintain their gas-impermeable state.

Since the pressure of the gas should only decrease when the piston has emerged from the gas cylinder, the segment hears 6 guaranteed gas-tight state accordingly then up (down at this moment the piston speed drops rapidly). The length of the coaxial tubular extension of the piston and the manner of their connection to the seal 3 should be chosen so that these elements remain in contact with one another, until segment 6 is removed. It is assumed that otherwise the pressure of the gases when they enter between the piston as such and the magazine tube 9 would escape.

The already mentioned short active movement of the piston, all firearms equipped with short-stroke gas cylinders for example, of the type pending here, is sufficient to transmit a pulse to the inertial mass 12 in such a way that this actuates the locking of the firearm without interruption even after the piston has come to a standstill., until the breechblock locked, the recuperation elements compressed and the discharge battery are set up.

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Among the most outstanding features of a gas cylinder the type described herein and completely independent of the main advantage of a possible arrangement of the piston over the fact that only at least two gas-impermeable seals are required against the magazine tube counts » three of them in the case of the known, gas cylinders, with the gases never come into contact with the magazine tube, unless it is because after they have released their pressure. this has a significant effect on keeping the mechanism clean, because that for the sliding guidance of the movable elements serving magazine tube is not soiled and remains in a state for a longer period of time, which ensures perfect functioning of the device.

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Claims (3)

Claims fl.j Gas cylinder for firearms with a magazine tube that consists of a cylindrical hollow body and is attached to the lower part of the barrel and to the magazine tube is loosely connected, which is kept centered inside by means of a radial end thickening and forms an annular chamber which communicates with the cavity of the barrel through an inclined opening or slot is in connection and is sealed gas-tight at the lower end relative to the magazine tube and one inside Has piston that fits exactly into the inner surface and can be moved guided by the magazine tube can, when actuated by the gases resulting from a shot, to use the appropriate elements again Prepared to fire the mechanism, eject the empty cartridge case and one from the magazine to introduce a new cartridge into the breech, characterized in that that the cylindrical hollow body is internally stepped into two different diameters and that the piston (5) is loose attached to the magazine tube (9) and as a port setting its adjustment surface is extended with the inner surface of the cylinder to form a coaxial tubular projection, wherein a gas-impermeable seal (j5) is arranged relative to the magazine tube (9), which is on the smaller Diameter designed part of the hollow body is mounted and by an elastic snap ring (4) in their position is held. 2. Gas cylinder according to claim 1, characterized in that the length of the axial tubular projection of the piston (5) is chosen so that starting from the rest position of the piston in which the projection against the inner radial - 9 -. 3 0 9884/0936 Thickening of the hollow body of the gas cylinder serving as a centering device for the magazine tube (9) is applied, that part of the piston that forms a gas-tight seal with the inner surface of the hollow body of the gas cylinder forms, leaves the hollow body before the contact of the tubular projection of the piston with the seal (j5) get lost. '"' - 10 - 3 0 9 88 4/09 '36'