DE2726551C2 - - Google Patents

Description

The invention relates to a recoil-free firearm according to the preamble of claim 1.

In the case of known firearms of a similar type, the insulating disk is like this trained that they reach a predetermined pressure is thrown backwards in the ignition or cargo space, whereby the disk usually in a large number of small Pieces torn. There is one when firing such weapons Risk of injury or damage due to the rear thrown pieces of disc.

From GB-PS 12 04 904 is a firearm of the generic type moderately known at the rear end of the floor fin-shaped approaches are provided, the peripheral edges of which essentially follow the inner wall of the pipe and its rear edges on a flange of the pipe. Furthermore the floor is long with a fin as well stretched part provided, the front edges to the axial Support the insulation panel. The insulation panel is through a detachable connection between the floor and the langge stretched section against the flange of the gun barrel presses. The insulation panel is provided with predetermined breaking points, which they tear up or split into different sectors Leave after the ignition or cargo space on a predetermined pressure has come. These sectors are under the pressure of the combustion gases thrown backwards, however  caught by the fins on the elongated section and lay around the fins. This fallback function of Fins are unreliable and require accurate adjustment and Alignment of the fins and predetermined breaking points when installing the Insulation washer ahead. Through the fins and attached to them holding insulation pane sectors becomes the gas passage cross cut narrowed and therefore a limited recoil effect called.

This known firearm design has several disadvantages. Despite the presence of the fins in the region of the elongated section, the case may arise that parts of the torn insulating disk pass through the fins or that the insulating disk is further broken up when caught by the fins, so that parts of the insulating disk are ejected to the rear. In addition, the attachment of appropriately shaped fins or the like, both on a special elongated section and on the floor, is an expensive and maneuverable matter. The rear end of the tube also has a funnel, and the flange against which the fins and the insulation disc are pressed forms a nozzle body. The greatest speed of the escaping combustion gases results precisely at the point where the fins of the elongated section have to catch the torn or burst insulation panel. This gives the tube a reduced flow cross-section just at the part where the combustion gases get their greatest velocity, and this can result in eddy currents or other turbulence in the gas flow, which leads to unfavorable deflection or lateral movements of the tube or an undesirable recoil of the firearm in one Unbalance between the forward and backward pressures inside the cargo area.

The invention has for its object a recoil-free Firearm with particularly simple and effective bullets in the pipe, where there is a risk of complete reliable or partial ejection of the insulation panel is eliminated and the reduction in cross section in the nozzle section after firing the firearm is minimized.

To solve the problem, the mark according to the invention the features of claim 1 provided.

In the following the invention based on one in the drawing illustrated embodiment explained in more detail. In the Drawing shows

Fig. 1 is a longitudinal section of a recoilless gun, which is designed according to the invention;

FIG. 2 shows the part of the firearm relating to the invention in an enlarged illustration compared to FIG. 1;

Fig. 3 shows the illustration of Figure 2 after firing from the projectile. and

Fig. 4 shows the part shown in Fig. 2 in a view from behind.

The firearm shown in the drawing has a tube 1 , at the rear end of which a projectile 2 is attached. The projectile 2 is partially surrounded in the tube by a propellant charge 3 , with which the projectile is fired.

The tube 1 has the same caliber as the floor 2 at the front end 4 and is provided at the rear end with a transition cone widened to the cargo space 5 . The propellant charge 3 is located in the cargo space 5 . A funnel-shaped extension 6 is provided in a conventional manner at the rear end of the tube.

The projectile 2 is extended at the rear end by an elongated ignition tube 7 which extends centrally through the propellant charge 3 and is connected to an igniter 8 . The ignition tube is preferably made of metal and is provided with a number of radial holes through which pilot lights can be directed to the propellant charge 3 . Immediately in front of the funnel 6 , an inner nozzle body 9 is attached to the tube by means of a threaded ring 10 fastened in the tube 1 . The ignition tube may be made of any suitable material, e.g. B. consist of glass fiber reinforced plastic, and in this case the threaded ring 10 is poured into the plastic material. From the threaded ring 10 in the forward direction, the nozzle body 9 initially has a reduced outer diameter and ends in an outer flange 11 with a slightly enlarged outer diameter. To this flange 11 is a cup-shaped Dämmscheibe set 12 which engages with an outer flange 13, the back of the Düsenkörperflansches. 11 The annular space between the nozzle body flange 11 and the inner wall of the tube should be chosen so that it is completely filled by the insulating disk and the insulating disk between the nozzle body flange 11 and the inner wall of the tube is clamped.

The insulation disk 12 has a central through opening 14 , which is penetrated by a pin 15 provided with external and internal threads. At the back of the insulation disc 12 , a retaining nut 16 is screwed onto the external thread of the threaded pin 15 , which holds the ignition tube and with this the projectile in the axial direction relative to the insulation and the ignition chamber section of the tube.

In the internal thread of the pin 15 , a nipple 17 is screwed, via which the igniter 8 is fixed in the ignition tube. The cup-shaped insulating disk has breaking notches 18 extending from the central opening 14 and extending as far as the bending region in the vicinity of the flange 13 . The predetermined breaking notches 18 are designed so that they tear at a predetermined pressure in the combustion chamber between the floor and the pane, so that sector-shaped tabs 19 ( FIG. 3) are formed, which are connected to one another along the outer flange 13 .

When the ignition charge in the ignition tube 7 is ignited via the igniter 8 , as a result of which pilot flames are directed through the radial bores in the ignition tube 7 onto the propellant charge 3 , the pressure in the cargo space 5 increases and attempts to propel the projectile 2 out of the tube 1 . Since the insulating washer is slightly elastic, it bulges forward slightly until the opening 14 moves away from the holding nut 16 ; depending on the resulting high pressure in the cargo space, the break notches 18 tear immediately thereafter, and the sector-shaped tabs 19 are applied by the pressure of the combustion gases to the inner wall of the nozzle body 9 , thereby creating a free space for the combustion gases to escape from the propellant charge to the rear. This accelerates the projectile out of the pipe.

The insulation disc 12 can be made of any suitable material that is itself sufficiently break-resistant so that it does not burst into uncontrolled small pieces under the pressure in the cargo chamber. Preferably, the insulating washer is made of a metal or a metal alloy, and the breaking notches 18 , which can be designed as cut grooves, shaped grooves, perforations or similar weak points, should be designed to tear at the right moment for any form of recoil to avoid. It is essential that the notches break quickly and seamlessly and that the pane releases a correspondingly rapid gas outlet, since otherwise a recoil to the rear can occur.

In an alternative embodiment, the insulating disk is provided with a weak point 20 surrounding the retaining nut 16 , which breaks or tears at the moment when the Ge shot 2 begins to move forward in the tube under a predetermined force.

Since the insulating disc is firmly clamped between the nozzle body flange 11 and the pipe, the risk is eliminated that the entire disc is ejected in reverse. Furthermore, since the predetermined breaking notches 18 end in front of the outer edge of the pane, no parts of the pane can be thrown out to the rear. The insulating disk forms an integral unit with the nozzle body 9 , the tube 1 , the projectile 2 , the propellant charge 3 and the ignition tube 7 , in which the projectile, the propellant charge and the ignition tube are held in the tube only by attachment to the insulating disc. The insulation disc is designed and arranged in the pipe so that it allows an undisturbed outflow of the combustion gases. Since the insulation panel is elastic within certain limits, the projectile 2 can carry out slight forward and backward movements in the pipe without any risk of damage. At the same time, the insulating disc centers the ignition tube and the projectile, eliminating the need for protruding fins or other centering elements.

In another embodiment, the insulating washer arranged at one end of a sleeve, the opposite set end is open and preferably on the inner wall of the pipe is attached. The insulation disc can also be used as integral bottom wall of the sleeve can be provided. The sleeve can be a so-called car sleeve.

Claims (7)

1.Battery-free firearm with a projectile pick up the tube, which is funnel-shaped behind the point receiving the projectile, and with an insulating disc arranged on the back of the projectile, which is provided with predetermined breaking notches in such a way that it tears into sector-shaped flaps when the projectile is fired , characterized in that the insulating disk ( 12 ) is provided as the centering of the projectile ( 2 ) in the tube ( 1 ) and is firmly held on the inner wall of the tube ( 1 ) so that the sector-shaped tabs ( 19 ) are held on the inner circumference of the tube after tearing will. 2. Firearm according to claim 1, characterized in that the tube ( 1 ) near its rear end ( 6 ) with a in the tube ( 1 ) attached nozzle body ( 9 ) is provided and that the insulating disc ( 12 ) around the front edge ( 11th ) of the nozzle body and is held on the pipe ( 1 ). 3. Firearm according to claim 2, characterized in that the nozzle body ( 9 ) is provided in the region of its front edge with a flange ( 11 ) and that the insulating disc ( 12 ) is cup-shaped and folded back over the nozzle body flange ( 11 ) so that its outer flange ( 13 ) points to the rear. 4. Firearm according to claim 2 or 3, characterized in that the nozzle body ( 9 ) in a tube ( 1 ) cast or molded threaded ring ( 10 ) is screwed. 5. Firearm according to one of claims 1 to 4, characterized in that the projectile ( 2 ) has a rear extension in the form of an ignition tube ( 7 ) which engages with a pin ( 15 ) through a hole ( 14 ) in the insulating disc ( 12 ) and on the pin and a retaining nut ( 16 ) is fixed on the back of the insulating washer. 6. Firearm according to one of claims 1 to 5, characterized in that the predetermined breaking notches of the insulating disc ( 12 ) from a central through opening radially outwards to a point near the outer flange ( 13 ) of the insulating disc. 7. Firearm according to claim 5 or 6, characterized in that the insulating disc ( 12 ) has a retaining nut ( 16 ) of the ignition tube ( 7 ) surrounding predetermined breaking notch.