DE102007017395B4 - Shooting system and method of operating the shooting system - Google Patents

Abstract

Shooting system with a housing 1 and relatively movable parts pipe (2), pipe closure (3) and muffler (5), and a non-self-locking threaded spindle, in one of its halves a left-hand threaded portion (4a) and in the other half a right-hand Threaded portion (4b), wherein the muffler (5) and the pipe closure (3) are mechanically coupled via a respective nut to a respective spindle threaded portion, so that in a translational displacement of the muffler 5 whose movement into a rotational movement of the spindle (4) is converted and their movement is in turn converted into a translational movement of the pipe closure (3), so that due to the right and left handedness of the spindle (4) perform both components translational movements in opposite directions, characterized in that the tube (2) is also arranged relative to the housing (1) movable and with the tube closure ( 3) can be coupled in such a way that, at least in the case of a translational movement of the tube closure (3), in which the tube closure (3) moves from the tube closure (3) ...

Description

The The invention relates to a shooting system for firing large-caliber Projectiles and shells and a method of operating the shooting system.

It are large-caliber Firearms are known which in terms of target setting and manual operation be operated and be transported by a person. To the Target setting, manual operation and transportability to ensure, must be such a shooting device be easy and easy to use and high accuracy exhibit. To get a high effectiveness, the shooting system should to be able to take several shots fast in a row, so in a high frequency, deliver. For the Use in the field Furthermore, it is necessary that the shooting system a simple and has a robust construction, so that with dirt or shocks their functionality not impaired is. This should be the shooting system as quiet as possible work to complicate their location. Because of Safety of the shooter and increase the effectiveness of the shooting system Furthermore, it is necessary that the shooting system in a short time in shooting readiness can be brought. To high costs in the operation of the shooting system To avoid it, it is advantageous if the shooting system is cheaper to use Ammunition allows.

It However, it is also known that in large caliber shooting facilities Due to the high mass of the projectiles to be accelerated large recoil forces occur and that the heavy caliber Ammunition is difficult to reload manually. That is, up Reason of the big one Recoil forces is independently from the target assets of the shooter at relatively fast successive shots the required accuracy not guaranteed. Furthermore, due to the high weight of the ammunition a fast Recharge by the shooter difficult.

It is from the DE 692 11 563 T2 a weapon system with a damping device is known, in which a fired when shooting a projectile recoil is directed to a launching tube and this launching tube shifts due to the recoil force in the opposite direction to the firing direction of the projectile, where it is decelerated during the displacement process and continue after the deceleration shifts. That means that in the in the DE 692 11 563 T2 shown recoil two-stage, so that does not affect the full recoil pulse when shooting at a shooter.

In the US 2003/0056639 A1 there is disclosed a recoil control mechanism in which the expansion of explosive gases and the pressure applied by the gases to adjacent components serves to momentarily displace the launch tube in the same direction as the missile moves into the projectile. This largely minimizes recoil on the entire system.

Part of the above-mentioned drawbacks has already been overcome by a shooting system disclosed in the Georgian patent GE P 2006-3883 is disclosed. This document discloses a shooting system in which a muffler and a tube closing a tube closure are each coupled via a nut to a spindle, wherein the muffler is coupled to a threaded portion of the spindle with right-handed thread and the tube closure to a left-hand threaded portion of the spindle. The respective spindle threads have such a pitch that the spindle or its threaded portions do not act self-locking, ie the spindle is fixed in the middle by two thrust bearings and is in the rotatable state. The central spindle bearing takes place in the housing of the shooting system. The tube or the barrel of the shooting device is also firmly connected to the spindle bearing or the housing. When an explosive charge of a projectile explodes in the pipe of the shooting system, explosive gases expand in the shooting system in such a way that they act laterally on the muffler. Due to the pressurization, the muffler performs a translational movement in such a way that it moves away from the pipe support in the housing. By coupling the muffler via a nut to a spindle portion and by the non-self-locking action of the spindle, the spindle begins to rotate, resulting in entrainment of the nut for coupling the tube closure to the spindle, resulting in an opposing pitch of the spindle portion on which the nut of the tube closure is arranged, the tube closure moves with the tube in the locked state in the opposite direction to the muffler relative to the housing. That is, as the spindle rotates, the muffler and the tube shutter synchronously move away from each other in opposite directions. The recoil pulse of the movement of the tube closure is thus directed counter to the recoil impulse of the projectile and the silencer. This results in a minimization to the cancellation of the bullet recoil impulse, since the silencer and the pipe closure are connected by nuts to the spindle and the weight of the pipe closure corresponds to the weight of the silencer and the explosion gas pressure surface of the silencer corresponds to the explosion gas pressure surface of the pipe closure.

One Disadvantage in this embodiment is that, to the recoil pulse from the projectile in the muffler to compensate, the pipe closure designed accordingly heavy must be in order to move the tube closure an approximately equal recoil pulse like that generated by the movement of the projectile and the muffler Recoil pulse to create. The relatively high weight of the tube closure causes thus, however, an increase in weight of the entire shooting facility, whereby the handling and transportability of the shooting device difficult.

Of the The present invention is therefore based on the object, a shooting system with reduced recoil and method of operating a shooting system set, which with low weight and easy handling accurate shooting of large caliber cost-effective Projectiles in high frequency.

These The object is achieved by the features mentioned in claims 1 and 40 solved. Advantageous embodiments are specified in the respective subclaims.

It becomes a shooting system with housing and to relatively moving parts pipe, pipe closure and muffler and a non-self-locking threaded spindle (i.e., a freely rotatable spindle) to disposal placed, in which the threaded spindle in one of its halves a left-handed Threaded section and in the other half a right-hand thread section having, wherein the muffler and the pipe closure mechanically via one nut to each one Spindle threaded portion are coupled, so that in a translational Displacement of the muffler whose movement is converted into a rotational movement of the spindle and their movement turn into a translatory movement of the pipe closure, so that, on the basis of the legal and left-handedness the spindle or its sections, the two components silencer and pipe closure translational movements in opposite directions To run. The pipe of the shooting system is also arranged relative to the housing movable and is coupled with the pipe closure such that it is at least at a translational movement of the tube closure, in which the pipe plug from the silencer removed from its firing position, is taken from the tube closure. By the system according to the invention takes place while shooting a movement of the mass of the pipe and the pipe closure in the opposite direction to the movement the projectile and the muffler, whereby by the movement of the tube and the tube closure a recoil is generated, the recoil of the projectile and the muffler is directed opposite.

The Threaded spindle is advantageously a ball screw, the at their two halves one thread with different orientation of the edge slope that means that the threaded portion at a spindle end is left-handed and the threaded portion right at the other end is. The slope itself can be at both threaded sections to be the same or different in amount. The bigger the Slope in the threaded portion is coupled with the tube closure the more effective the recoil will be of the projectile reduced. At the same slope value in the two Threaded sections of the spindle are the translatory movements of pipe closure and silencer synchronous in opposite directions.

In a preferred embodiment variant the shooting system Furthermore, an automatic triggering mechanism, upon achievement of a Path-end position of the pipe plug and pipe in a maximum Distance from the muffler a solution of the tube caused by the tube closure. With the design of the shooting system with the automatic release mechanism It is achieved that in the movement in which the pipe closure from the muffler and thus removed from the storage of the spindle in the housing, the pipe from Pipe lock is taken, so that the weight of pipe and Tube closure or its total inertial force to minimize the recoil of the projectile, wherein upon reaching a path-end position this connection between pipe and pipe closure is canceled.

Of Furthermore, it is provided that the shooting system comprises a first force-applying device, on the tube at least in its path-end position in a maximum Distance from the muffler exerts a force in the direction of the silencer. These force exerting Device is advantageously a spring, the like on the pipe acts that after solution the coupling of the pipe from the pipe closure at the maximum distance from silencer that this without the pipe closure in the direction of silencer or shot firing position moved back. An ammunition chamber formed by pipe closure and pipe is open with it and one after the shot still in the ammunition chamber Sleeve can through the opening be taken from the ammunition chamber.

Furthermore, it is provided that the shooting device has a fixing element, which in the position of the pipe closure in the maximum distance from the muffler causes a latching and thus fixation of the tube closure in the housing. By means of this fixing element ensures that the pipe closure is held at this maximum distance from the muffler in the housing. As a result, as already described, the ammunition chamber formed by the pipe and the pipe closure can open when the pipe is loosened from the pipe closure and the pipe is returned to the firing position.

In an advantageous embodiment of the shooting system is further provided that between the spindle and at least one of the two components silencer and tube closure provided a second force applying means is that when removing the respective component from the middle of the Spindle a force on the component in the direction of the center of the spindle exercises. As the center of the spindle in this case the anchoring or storage the spindle in the housing Understood. The second forceful Device acts in such a way on the muffler or on the pipe closure, that in the direction of storage of the spindle in the housing or in Direction transition between the two differently aligned spindle thread sections depressed become.

Of Furthermore, it is provided that the tube has a driver, when moving the pipe from the coupled position at maximum distance from the muffler back in the firing position at a stop of a train mechanism comes to the plant and thereby actuates the pulling mechanism such that the coupled with the pulling mechanism fixing element the latch with the tube closure picks up, leaving the tube closure under Action of the second force-exerting Device returns to its firing position again. This means, that just before reaching his firing position (position of the shooting readiness) the pipe over a driving lug actuates another mechanism, the causes a movement of the fixing element, which thereby also releases the tube closure under the force of the second force applying device towards the silencer and thus in the direction of firing position drives and thus the ammunition chamber closes again. Before this closure of the Ammunition Chamber has added this new ammunition. The levy a new shot can thus be initiated.

In Advantageously, the second force-applying device consists of two Federzüge, where each spring pull comprises at least one pull rod and both spring pulls and tie rods located in the hollow core of the spindle and one of the tie rods one end by means of a nut in the muffler and the second pull rod is secured by a nut in the pipe closure.

The second ends of the tie rods of the second force applying device are in the starting position freely on the inner flange of the spindle and have at their ends flanges to limit the displacement of Balancers or for their plant on.

In advantageous embodiment is provided that the spindle their outer end areas each having a flange on which a second coil spring supported, around a pulse generated by a mother in the translational Movement of the muffler and cushion the pipe closure. At the same time this causes second spiral spring in the depressed Condition also a force on the sound and the pipe closure in the direction of the opposite one Component, ie in the direction of transition between the two differently aligned threaded sections the spindle.

In a further advantageous embodiment of the shooting system is provided on the housing two handles are arranged relative to each other displaceable, wherein the second handle has a second driver, which with a third driver on the silencer cooperates such that at a distance increasing Displacement of the two grips of the silencer can be carried along by the second handle is and is also removable from the first handle. It means that the two handles relative to each other and relative to the housing displaceable are and that when moving relative to each other a shift of the muffler (and the tube with tube closure in opposite directions to the stop) via whose driver and thus a rotation of the spindle is effected without causing a detonation of ammunition in the ammunition chamber, the is formed by the pipe and pipe closure takes place. This is first loading a cartridge into the tube and making it ready to fire, when under the force of the first and second force-applying devices the tube and the tube closure back to their original positions or shot trigger positions returned are. In the relative movement of the two handles to each other, that they are pulled apart, a triggering mechanism is stretched, so that the shooting facility now in ready to fire. When triggering a trigger mechanism Thus, a new shot can be delivered.

to activity the automatic release mechanism is on the case a paragraph provided in the movement in which the pipe closure from the muffler removed, the solution realized of the pipe from the pipe closure.

there It is envisaged that the automatic release mechanism in the tube closure is arranged and has a separator which at maximum distance the pipe plug from the silencer comes on the paragraph to the plant, wherein, due to the relative movement the tube closure to the housing, the automatic triggering mechanism operated in this way that he will unlock the coupling between the pipe and causes the tube closure. That is, a separator in automatic trigger mechanism on the heel of the case strikes, this separator is moved and thus the automatic release mechanism operated in this way is that under the action of a constantly acting on the pipe Force the tube from the tube closure dissolves and moves back towards the muffler, which the ammunition chamber opened becomes.

advantageously, is further provided that the separator having automatic trigger mechanism Furthermore, a pivotally mounted in the pipe closure rocker arm comprises, one end of which is pivotally mounted on the separator and the other end in ready to fire state and during the Movement of the tube closure and the tube in which this from the muffler remove, is engaged in a recess in the pipe and thus the pipe closure with the pipe coupled and a relative movement of the pipe to the pipe lock locks. The rocker arm thus forms a lock connecting the pipe with the pipe closure.

at Attachment of the separator on the paragraph, the rocker arm from the recess swung out in the tube. The coupling of the pipe with the pipe closure in the distance movement from the muffler thus happens a rocker arm, the one-end in one of pipe and pipe closure jointly formed recess engages. When applying the trigger mechanism or the separator on the shoulder on the housing, the rocker arm is actuated in such a way that he is swung out of the recess in the tube and thus the coupling picks up between pipe plug and pipe. The tube can now, like described, under the action of a constant force in the direction silencer and thus in the firing position return.

In A further embodiment of the invention provides that concentrically arranged on the tube relative to this longitudinally displaceable sleeve is whose longitudinal displacement on the pipe by a first and a second paragraph on the Tube is limited. The first paragraph on the tube is located here at the mouth end of the tube from which the bullet emerges after firing.

It Further, it is envisaged that the first power institution at least one spiral compression spring is essentially concentric on the sleeve and in the muffler is arranged between these components, wherein the spiral compression spring on the one hand on a mouth-side outer heel at the end of the sleeve, which is opposite to the coupling of the tube to the tube closure, supported and wherein the other end of the spiral compression spring at an inner Paragraph on the silencer supported. When moving apart of silencer and pipe and pipe closure in opposite directions pushes the inner shoulder of the muffler of one side against the spiral compression spring and the mouth side outer shoulder the sleeve lies at the mouth side first paragraph on the pipe, whereby by the movement of the pipe itself the sleeve relative to the muffler moves and thus the spiral compression spring pressed together or stretched. Thus, it turns out that when the separator on the heel of the case the rocker arm is pivoted out of the recess in the pipe and that the spiral compression spring on the one hand against the inner paragraph on silencer and on the other hand against the mouth-side outer shoulder at the end of the sleeve suppressed, the turn on the first mouth side The pipe abuts the pipe so that the pipe is again in the direction of the silencer this is involved.

The The shooting system further includes a cartridge chamber or ammunition chamber, the inner wall substantially of the pipe and the pipe closure is trained. This means, that the inner wall, for example, essentially as a hollow cylinder designed cartridge chamber is the part through the pipe and is formed in part by the pipe closure. When shifting the Pipe due to the spring force in the muffler inside, opens hence the cartridge chamber.

The cartridge case is with a locking hook in the pipe closure until the full opening of the Cartridge chamber held by the shock of the reflector, the on the way back (Moving to the starting position) tube is ejected.

This structural design has the advantage of venting and cooling of the exposed cartridge chamber interior. The venting of the cartridge chamber after each shot results in a temperature reduction of the cartridge chamber even with a large number of shots fired in a short time, so that ammunition can be used with housing materials having a low melting point. Unlike conventional ammunition, this material used to make the ammunition can be used, for example play a plastic.

In Advantageous embodiment is further provided that the The shooting system a reloading device which mechanically so to the pipe and / or coupled to the tube closure is that movement the tube and / or the tube closure a recharge a new Cartridge from one to the shooting range coupled magazine causes in the cartridge chamber. It can therefore be automatic new ammunition can be recharged, with the kinetic energy of the Pipe and / or the pipe closure for the reloading of a new cartridge is used in the cartridge chamber of the shooting system.

to release a shot of the shooting system is provided that these a spring-assisted firing pin wherein the spring acting on the firing pin is a compression spring, those in the compressed Condition on the firing pin acts in the direction of the muffler. Under Utilizing the spring force, the firing pin can move towards silencer and pressed in the direction of the cartridge be with the firing pin with its tip in the cartridge pushes and thus one Explosion of the explosive charge of the cartridge causes.

In a particular embodiment of the shooting system is further provided that the shooting system a trigger mechanism, which incorporates the functions of combined autonomous and automatic trigger and designed in such a way is that the autonomous-automatic trigger mechanism the firing pin in the approach movement the pipe closure to the silencer in a position in front of the tube closure position of the shot readiness holds, and the achievement of the position of the shot readiness of the pipe closure the firing pin releases, so that these under the action of a Spring force also moves in the direction of the cartridge chamber and while pushing into a cartridge. In order to is achieved that a new shot by the collision of the Striker in the cartridge is only triggered when the tube closure again in the position of ready to fire and one new cartridge was invited.

In this embodiment is provided that the autonomous automatic Trigger mechanism has a stop which is connected to a tilting element is coupled, on which the firing pin in its fixed position comes to rest and is thus blocked, the stop, the Coupling to the tilting element and the tilting element itself designed in such a way are that the tilting element then causes the release of the firing pin, when the disconnector is approaching to the muffler comes to the stop to the plant and this moves. The stop and the tilting element can be coupled together by means of a coupling rod. On the firing pin, the spring force of a compression spring, which causes that the firing pin is suddenly moved in the direction of the silencer, if the striker is released when the disconnector is installed against the stop becomes. Thus, the shot firing be effected autonomously without manually initiating a process must become.

Prefers is provided that arranged in the tilting element a compression spring is, whose spring force the tilting element in the blocking position suppressed. This means, that the compression spring presses the tilting element in such a position that the tilting element blocks the movement of the firing pin, until the disconnector comes to rest against the stop and against the pressure spring force the blockage of the firing pin picks up, so this under Federkraftbeaufschlagung towards the silencer drives and thus piercing a cartridge.

Around to allow a repetitive firing, it is envisaged that the firing pin and the autonomous automatic trigger mechanism are configured such that in the removal movement of the pipe closure and the striker mounted in it from the muffler over the striker Tipping element passes, without being blocked by this. For this purpose has the needle at the muffler opposite side a slope, which causes, when the striker bears against the tilting element in the distance movement with respect to the muffler of Firing pin simply moves the tilting element against the spring force and thus over the tilting element can pass.

Of Furthermore, it is provided that the stop, the separator and the Rocker arms are designed such that when the separator at the stop of the disconnector, the rocker arm back into such position pivots that the rocker arm engages in the recess in the tube again and thus the tube is locked with the tube closure. This embodiment causes a new shot of the tube due to Friction and gas pressure forces do not release from the pipe closure can.

In a further embodiment of the shooting system does this have a hand-operated trigger mechanism, which in turn comprises a gear coupled to a trigger, which acts on a tilting rocker.

To connect the trigger or the gear of the manually operated trigger mechanism with the tilting rocker is provided that the manually operated trigger mechanism at least a drawbar between the trigger and the tilting rocker includes. By means of this tie rod is ensured that the movement of the trigger cock is converted into a tilting movement of the tilting rocker.

It is advantageously provided that the tilting rocker so in the case rotatably mounted, that they are the firing pin in the approach movement the pipe closure to the silencer holds in a position in front of the position of the shot readiness. By the detention of the firing pin during the approach movement of the tube closure, on which the firing pin is arranged, it is ensured that the on the Firing pin acting spring is stretched. By the operation of the Trigger can over the gearbox or over the drawbar of the hand-operated Trigger mechanism, the tilting rocker be tilted so that they releases the firing pin. Under the influence of the tensioned spring or their spring force thus shoots the firing pin towards the muffler and beats into one Cartridge and dissolves the explosion of the explosive charge in the cartridge, whereby a new shot is initiated.

Around the flexibility the shooting system according to the invention to increase, it is provided that the firing pin is designed such that the tilting rocker of the hand-operated Trigger mechanism as well as the tilting element of the autonomous-automatic trigger mechanism next to each other on the firing pin for the purpose of blocking can be applied are. This means, that the shooting system both the hand-operable Trigger mechanism as well as the autonomous-automatic trigger mechanism can have. Both trigger mechanisms are designed in this way, that the actuation one trigger mechanism, the operation of the other trigger mechanism not disabled. Both trigger mechanisms include some of the same Components.

It is further expediently provided that the firing pin and the hand-operated Trigger mechanism are designed such that during the removal movement the tube closure and the firing pin mounted in it the firing pin on the Tilting seesaw, without to be blocked by this. For this purpose, the needle has on the muffler opposite side a slope, which causes when the impact of the firing pin on the tilting rocker during the removal movement of pipe, pipe closure and firing pin from the muffler away the firing pin the tilting rocker just against one on the Tilting rocker acting spring force shifts and thus over the Tilting rocker can go over.

In a preferred embodiment the hand-operated The trigger mechanism further comprises a two-toothed carriage, wherein a first tooth is rotatably mounted on the carriage and the second tooth is fixedly arranged on the carriage and wherein the first Tooth against a spring force from a substantially vertical Position relative to the slide exclusively in the direction of the trigger is tiltable. This means, that the first tooth is acting on it in the direction of the trigger Force can be tilted in the direction of the trigger, the first tooth when force applied in the opposite direction is fixed.

Out establish the constructive simplification can be provided that the carriage with the drawbar in one piece accomplished is.

Of It is further provided that on a rocker beam of the tilting rocker a pressure spring supported on the housing works in the compressed Condition presses the tilting rocker in the direction of the position, in with a provided on the tilt rocker first tooth of the firing pin is blockable. This means, that when sole action on the tilting rocker with the compression spring force blocked the tilting rocker of the firing pin. In another embodiment is provided that the tilting rocker articulated in the housing is and at its opposite end of the first tooth a second Tooth, each of the teeth starting from the rocker beam in opposite directions substantially perpendicular to the rocker beam extends.

Furthermore, it is provided that the second tooth of the tilting rocker is in blocking the firing pin by the tilting rocker in such a position that it can be contacted by the sliding of the carriage in the direction of one of the two teeth on the carriage, so that a shift of the second tooth and thus a rotational movement of the tilting rocker such that it gives up the blocking of the firing pin. This means that when the first tooth rests against the firing pin, it is blocked. However, if the tilting rocker is moved because a tooth of the carriage presses against the second tooth of the tilting rocker, then this turns and releases the blockage of the firing pin. The released firing pin shoots towards the cartridge and penetrates into it, causing a shot is fired. The rotational mobility of the first tooth on the carriage has the advantage that the trigger can first be pulled through quickly, whereby a first shot is triggered. The tooth on the tilting rocker is then between the two teeth on the slide. The carriage can thus be pulled further in the direction of the trigger, whereby the second tooth on the carriage comes into engagement with the second tooth on the tilting rocker. at Pressure of the second tooth on the carriage on the second tooth on the tilting rocker is thus triggered a continuous fire, since in this situation only the autonomous trigger mechanism is operated, which runs automatically. After releasing the trigger, the carriage moves away from the trigger, the second tooth presses on the tilting rocker against the first tooth on the carriage, which is rotated about its pivot and against a spring force, so that at unchanged angular position of the tilting rocker of the carriage in the Position can be reached, in which single fire is triggered by pressing the trigger. This means that the second tooth on the tilting rocker rotates the first tooth on the carriage, so that the entire removal mechanism can again reach such a position that corresponds to the resting state of the shooting system.

In preferred embodiment of the shooting system is further arranged in this a disconnector, which at displacement the first handle relative to the housing and thus taking place Movement of the plunger firmly connected to the first handle movable This causes the disconnector to push the tube in a firing position fixing lock of the entire lock opens. This can be about the Relative displacement of the first handle unlocking the tube be made to allow that this is taken from the tube closure and thus from the silencer in the case can remove.

It It is provided that the separator a rotatably arranged in the housing Rocker arm is the force application by the plunger a Performs rotational movement in such a way that he is on a printing surface of the likewise rotatably arranged in the housing lock presses and this moves in such a way that a volume element of the castle the entire lock of a complementary configured to the volume element recess is moved out in the tube. By pulling out the volume element of the lock from the recess in the pipe is thus ensured that the tube can move relative to the housing in this.

It may further be provided that between the housing and the first handle a detection device is arranged, the allows a fixation of the first handle and the plunger in one position, in which the pestle over the Disconnector an opening the lock causes the entire lock. Thus, a permanent Release of the pipe in the firing position in the direction of Movement of the removal of the pipe and the pipe plug from silencer guaranteed become. This will make the permanent Repetition of the shooting process (Continuous fire) allows without constantly the handles relative to the housing to have to move.

In particular embodiment of the shooting system is provided that the pipe together with the muffler and the sleeve in a ready to fire state at least one chamber is formed, wherein the tube forms at least one wall of the chamber and the tube at least one connecting the interior of the tube with the interior of the chamber Discharge opening so that when detonation of the explosive charge of the cartridge resulting Explosive gases flow from the inside of the tube into the chamber. at the explosion of the explosive device of the cartridge caused by the impact of the firing pin fired into the cartridge will, create explosive gases that are within the shortest possible time Extend time while the bullet is still running. The explosion gases are under a very high pressure in the Pipe so that it passes through the gas discharge opening into the chamber the pipe and the muffler stream.

On The reason of the all-round pressurization press through the flowing explosive gases gas-discharging openings on the one hand to the muffler and on the other hand on the sleeve. Because the sleeve, the muffler, the tube and the tube closure are in the locked state, act the explosion gases on the cushioned sleeve, which presses on the separator and the shooting system opens. By the Movement of the muffler relative to the housing the mother is at the muffler moved on the spindle so that it rotates and thus also the nut on the tube closure in translation, so that the pipe closure together with the pipe on the one hand and the silencer on the other in opposite directions from each other. This described Procedure begins, however, only if, before the shot firing on a Relative displacement of the first handle and the plunger that Lock, which locks the position of the tube in the housing has been opened. In the above fixation of the first handle and the plunger in a position in which the plunger on the Disconnector an opening of the castle, it is thus possible to realize sustained fire, without further manual action on the shooting system. In order to results in the advantage of the shooting system according to the invention that they operated can be without while of the sustained fire mode an operator must be present.

It is further provided that the tube forms a tube paragraph, where the sleeve can be applied with an end-side paragraph in their Gasdruckbeaufschlagung. By applying pressure to the sleeve in the chamber, the sleeve moves in the direction of the tube closure, wherein they are after pressing the spring in a certain Spring travel to the plant on the pipe paragraph comes and thus in addition to the translation generation of the tube, due to the coupling of the pipe to the pipe closure and spindle rotation and nut displacement, also generates a force on the pipe to move the pipe closure in the opposite direction to the movement of the muffler.

to better handling for the shooter is provided that the shooting system at the housing at least a support post having. The support support is designed in such a way that it provides a comfortable support of the shooting system on the shoulder of a shooter allows and for the shooter the Relative movement of the handles easier. When arranging a plurality of support columns can these are shaped and arranged so that they are stable Setting up the shooting system on the ground allows. In particular, in the continuous fire mode can thus be the permanent Operation of the shooting system set up without the presence of an operator.

to better alignment of the shooting system is provided that between the support bracket and the housing at least one Joint is arranged, which is a change in position of the housing relative for aligning the support support allows.

The Integration of a fixation device on the joint makes it possible In addition, the shooting system off the ground and position accurately and in continuous fire operate, with a fixed lineup of the shooting system on the floor in a simple way a change in the shooting angle of the shooting Systems can be made. Conveniently, There are two joints between the housing of the shooting system and the support post provided so that a rotation of the shooting system made in all three rotational degrees of freedom can be.

Of Further, an object of the invention is a method of operation a recoil minimized Shooting system in the case of explosion of an explosive charge of a projectile in a pipe of the shooting system due to the explosion pressure wave, a silencer in Direction of the shoot out Projectile and a pipe closure in the opposite direction relative to a housing of the shooting system shifts, with the tube with the tube closure during its removal movement from the muffler connected so that the pipe also removed from the muffler becomes. Thus, you can Recoil momentum generated in opposite directions in the shooting system and the recoil pulse of the projectile.

It is provided that the removal movement of the muffler on the one hand and from the pipe and pipe closure on the other hand, at the earliest then starts when the bullet has passed at least the gas discharge opening, so about two One third of the way back in the pipe Has.

Of Furthermore, it is provided that after reaching a path end position of the pipe stopper and the pipe at a maximum distance from silencer a solution of the pipe is effected by the pipe closure, leaving the pipe under action one towards the silencer acting force is shifted in this direction, the tube closure is fixed at the maximum distance from the muffler. Through this Procedural step will be the opening ensured by a tube and tube closure formed cartridge chamber.

Besides that is provided that the tube is essentially reaching its Starting position in the position of ready to fire a suspension the fixation of the tube closure causes, so this under Influence of a force acting in the direction of the silencer also is moved in this direction. Thus, after opening the Cartridge chamber and removal of the cartridge case from the cartridge chamber by the movement of the pipe closure in the direction of the silencer the cartridge chamber be closed again, taking the kinetic energy of the tube and / or the tube closure for the mechanical recharging the shooting device with another Cartridge is exploited.

Of Another is a method for manually producing the shot readiness a shooting system to disposal a relative movement of two on the housing of the shooting Systems arranged handles are transformed into movements by the muffler and by pipe and pipe closure, so that the muffler on the one hand and the tube and the tube closure on the other hand from each other remove. This will allow Tension springs so that their spring forces are triggered when needed can and operate mechanisms, which in turn trigger a new shot. By means of the relative movement the on the housing arranged handles leaves thus invite the first cartridge in the shooting system.

The The invention will be described with reference to the accompanying drawings. It shows:

1 : the housing of the shooting system in side view,

1a : A schematic representation of the shooting system according to the invention in side view at shot triggering (starting position),

1b : Schematic representation of the shooting system according to the invention in a side view shortly after firing, when the projectile moves past the gas-discharging openings,

1c : schematic representation of the shooting system according to the invention in side view shortly after the exit of the projectile from the shooting system,

1d : schematic representation of the shooting system according to the invention in side view between firing and reloading,

2 : the tube of the shooting system in side view,

3 : the tube lock of the shooting system in front view and in side view,

4 : the spindle of the shooting system,

5 : the silencer housing of the shooting system,

6 : the sleeve of the shooting system,

7 : the first handle with pusher of the shooting system,

7a : the second handle with pusher of the shooting system,

8th : the disconnector of the shooting system,

9 : the lock of the entire lock of the shooting system,

10 : the rocker arm of the shooting system,

11 : the disconnector of the shooting system,

12 : the firing pin of the shooting system,

13 the tilting element,

13a : the hand-operated release mechanism,

14 : the first stop,

15 : the fixator of the tube closure,

16 : the train paddock,

17 : the second stop,

18 : the heel in the case,

19 : the support support

20 : first joint on the support post

21 : second joint on the support post

101 1: partial view of the shooting system according to the invention, showing the manually operable triggering mechanism and the autonomous triggering mechanism,

102 : Partial view of the shooting system at the beginning of the actuation of the manually actuable release mechanism,

103 : Partial view of the shooting system according to the invention at the beginning of the movement of the firing pin for shot firing due to the actuation of the manually actuable trigger mechanism,

104 : Shot trigger,

105 : Partial view of the shooting system according to the invention prior to actuation of the manually actuable trigger mechanism in the continuous fire mode,

106 : Partial view of the shooting system according to the invention during shooting initiation due to the actuation of the manually actuable trigger mechanism in the continuous fire mode,

107 FIG. 2: partial view of the shooting system according to the invention when the hand-actuable trigger mechanism is displaced back,

108 : Partial view of the shooting system according to the invention on the return of the manually operable release mechanism at the moment of overrunning the first tooth of the hand-operated release mechanism.

First, will the structural design of the shooting system according to the invention in their individual parts described. Subsequently the description of the dynamic operation of the shooting system according to the invention.

The shooting system according to the invention comprises a housing 1 in which, relative to the housing 1 slidably arranged, a pipe or barrel 2 and a pipe closure 3 are arranged. The pipe closure 3 closes in the state of firing readiness of the mouth of the tube 2 opposite end of the tube 2 , On the tube and concentric to the longitudinal axis of the tube 2 is the return spring 24 , which is designed as a spiral compression spring. Above the pipe ver Enough 3 and the tube 2 There is a threaded spindle, which in its center by means of a flange O in the housing 1 is stored. The flange O forms two opposing coaxially arranged support bearings D1 and D2. Coaxial is on the spindle 4 at its two opposite ends in each of sections in which the spindle has no thread, a second coil spring Z is arranged. At a threaded portion of the spindle 4 there is a right-hand thread 4b on which a nut N is arranged, which is an integral part of the pipe closure 3 is executed. At the other threaded section of the spindle 4 there is a left-hand thread 4a on which the nut N1 is arranged, which is an integral part of a muffler 5 is executed. The silencer 5 consists essentially of a cylindrical element, which in the ready to fire state the tube 2 surrounds as well as other housing elements, at least in part the spindle 4 surround. In the muffler 5 disposed, there is a second force-applying device, which is located substantially in the core of the left-hand threaded portion 4a is arranged. This second force-applying device A consists of a pull rod which is anchored in the muffler at one end, wherein a coil spring is arranged on the pull rod on a flange of the tie rod and coaxial with the longitudinal axis of the tie rod. Analogous to the second force-applying device A is in the housing of the pipe closure 3 a second force-applying device B arranged. Like the second force-applying device A, this second force-exerting device B consists of a pull rod, on whose uniquely arranged flange a spiral compression spring is supported, wherein the pull rod and the coaxial arranged on the pull rod coil spring in the region of the longitudinal axis of the right-hand threaded portion 4b located. In the position of firing readiness form the pipe 2 and the tube closure 3 together a Patronenkammer 27 off, in the case of firing readiness of the shooting system a bullet 30 is arranged.

In the pipe closure 3 arranged, is located under the spindle 4 a rocker arm 10 (the lock of the pipe with the pipe closure), which shows the position of the pipe 2 relative to the tube closure 3 in certain positions of the two components in the housing 1 locked together. At this rocker arm 10 (the lock of the pipe with the pipe lock) is a disconnector 11 coupled to the rocker arm 10 (the lock of the pipe with the pipe closure) for the purpose of opening or closing the coupling of the pipe 2 to the pipe closure 3 actuated. Also in the tube closure 3 arranged, is the firing pin 12 and coupled to the firing pin compression spring 12a , Under the pipe closure 3 is the autonomous trigger mechanism 13 . 14 with the compression spring 13b and the hand-operated trigger mechanism. The autonomous trigger mechanism includes a first stop 14 , Furthermore, it is located under the pipe closure 3 a fixator 15 the pipe closure, which is connected to a train coupling, which in turn with a stop 17 connected is. On the second stop 17 the force of a compression spring acts 17a ,

Furthermore, on the housing 1 a paragraph 18 arranged. In the lower part of the housing is also a joint 21 to which hinged over another joint 20 a support post 19 connected.

Under the pipe 2 are also two handles 7 . 7a arranged, being in the area of the first handle 7 a releaser 23 is arranged to release the relative movement of the handles 7 and 7a in opposite directions. The relative movement of the two handles 7 . 7a is used to manually invite a new cartridge. At the first handle 7 is also the trigger 22 arranged. The first grip 7 is over a pestle 7b with a disconnector 8th in connection, the rotatable in the housing 1 is stored. The disconnector 8th In turn, its rotary motion acts on a lock 9 on which the power of a lock spring 9a acts.

Further details of the shooting system according to the invention are explained in connection with the dynamic behavior of individual components during firing. For firing from the shooting system according to the invention this is with the support support 19 preferably placed on the shoulder of a shooter, and then the Freigeber 23 activated, which is a relative displacement of the two handles 7 and 7a allows. Subsequently, the two handles 7 . 7a pulled apart in opposite directions. He then shifts the first handle 7 firmly attached ram 7b over one at the end of the pestle 7b arranged second driver 7d the angular position of the separator 8th , Whose rotational movement acts on the lock of the entire lock 9 that a volume element 9b of the lock from a recess 3a on the pipe closure 3 is tipped out. Contrary to the spring pressure of the lock spring 9b Thus, the release of the pipe closure takes place 3 for a translational movement in the housing 1 , Due to the relative movement of the two handles 7 and 7a the muffler shifts 5 towards the mouth of the shooting system and the first handle 7 moves the pipe and the pipe closure 3 in the coupled state back, that is, in the opposite direction with respect to the movement of the muffler 5 , This becomes the first force-applying device 24 , which consists of a spiral compression spring, stretched and acts on one side of the tube 2 and on the other side on the muffler 5 on each provided on the components flanges. The initiation of the pressure force by the first force applying device 24 on the pipe or on the silencer 5 is in the 1c and 1d seen. At the same time, the second force-applying devices A and B, which consist of the tie rods and compression springs, stretched, so that in the second force-applying devices A and B fixing nuts N and N1 forces on the tube closure 3 and the muffler 5 be exerted in the direction of these components in firing position. To retract the nuts N and N1 on the left- or right-handed threaded sections of the spindle 4 Beyond their ends to avoid, on the threaded portions second coil springs Z are arranged, the displacement of a boundary of the nuts N and N1 on the threaded portions 4a and 4b the spindle 4 realize, wherein the second coil springs Z also an impact absorption at the end of the spindle sections 4a and 4b serve.

By the displacement of the tube closure and the translational movement of the nut N1 on the spindle section 4a becomes the non-self-locking spindle 4 set in rotational movement, which also causes the mother N translational on the spindle in the threaded portion 4a moves, so that at the same pitch of the two threaded sections 4a and 4b a synchronous movement of muffler 5 and pipe closure 3 in opposite directions.

By locking the tube 2 with the pipe closure 3 the pipe also moves counter to the movement of the silencer analogous to the pipe closing movement 5 and against the direction of a projectile to be fired until the disconnector 11 at the heel 18 , the case 1 is fixed, applies. Due to the system or the backpressure of the disconnector 11 at the heel 18 becomes the separator 11 relative to the tube closure 3 moves, resulting in a release of the coupling connection between the pipe 2 and pipe closure 3 results. Due to the power of the first force-applying device 24 on the pipe 2 this shifts after decoupling from the pipe closure 3 again in the direction of its starting position in firing position. This process is in 1c shown.

Because of the fixator 15 the pipe closure 3 , as in 1c shown in the stop position of the separator 11 at the heel 18 fixed, the tube closure remains 3 in this position, leaving the pipe 2 returns alone to the firing position. About 5 mm before reaching the firing position of the pipe 2 presses on the pipe 2 arranged driver 2 B against the second stop 17 , Contrary to the force of the spring 17a at the second stop 17 then shifts the second stop 17 so he over the train paddock 16 so on the fixator 15 acts, that this performs a rotary motion. Due to this rotational movement of the fixator 15 this tilts from a recess on the pipe closure 3 out, eliminating the locking of the tube closure 3 at the maximum distance from the muffler 5 in the case 1 will be annulled. Due to the effects of the second force-applying devices A and B, the tube closure moves 3 also in the direction of the mouth of the shooting system, ie in the direction of the muffler 5 , By connecting the pipe closure 3 via the nut N to the spindle 4 becomes the spindle 4 again set in rotation, causing the nut N1 of the muffler 5 is also taken, so that the muffler 5 translational towards the tube closure 3 emotional. That is, for the same slope values of the threaded sections 4a and 4b lead after release of the pipe closure 3 the pipe closure 3 and the muffler 5 synchronously approaching movements through. The kinetic energy of the tube closure is used to bring new ammunition into the cartridge chamber 27 reload. When retracting into the firing position of the pipe closure 3 the disconnector strikes 11 against the first stop 14 , whereby the autonomous trigger mechanism 13 . 13b is pressed. The rotatably in the housing 1 mounted tilting element 13 is thereby changed in its angular position. Since the firing pin 12 during the movement of the pipe closure 3 towards the silencer 5 on the tilting element 13 It is thus stuck by the rotational movement of the tilting element 13 Approved. The firing pin 12 but does not shift due to the force of the firing pin compression spring 12a towards the cartridge, but remains due to the tilting rocker 13a the hand-operated trigger mechanism fixation still in tensioned position. It then follows the movement of the first handle 7 into its initial position and thus a relaxation of the first power-exerting device 24 , Also the second handle 7a returns to its original position, which also relaxes the second force-applying devices A and B. The approver 23 can be locked again or it can be a determination device 23a be pressed, the positions of the handles 7 . 7a fixed relative to each other.

The operation of the shooting system according to the invention in the fire mode is described below. After movement of the trigger 22 becomes a pull rod T, as in a cutout in 12a indicated, pulled in the direction of the mouth of the shooting device, so that a first tooth T1 on a second tooth S2 on the tilting rocker 13a acts. By the tilting movement of the tilting rocker 13a becomes a first tooth S1 on the tilting rocker 13a so that moves him from the firing pin 12 removed, which releases it. The firing pin 12 shoots due to the application of force by the firing pin compression spring 12a in the explosive charge one in the cartridge chamber 27 located cartridge. This will trigger the explosion of the explosive charge. The bullet becomes under the pressure of the expanding explosive gases 30 from the cartridge chamber 27 or from the pipe 2 and thus shot from the shooting system according to the invention. Until the bullet 30 the mouth end of the pipe 2 has reached, remain the muffler 5 , the pipe 2 and the tube closure 3 in the firing position. At the exit of the projectile 30 From the shooting device are gas discharge openings 25 released from the inside of the pipe 2 in one of the pipe 2 , Silencer 5 and sleeve 6 formed chamber 26 run. The explosive gas flows into these chambers. Due to the pressure spreading on all sides, the explosion gases press on one side on a wall of the silencer and on the opposite side on a flange 6b the sleeve 6 , whereupon these are affected by the explosion pressure application of force in the direction of the tube closure 3 shifted and thereby on the separator 8th , as in 1a shown acts. The rotation of the separator 8th causes, as described above, a disengagement of a volume element 9b at the castle 9 the entire locking of a recess on the pipe 2 or pipe closure 3 such that the pipe closure 3 together with the pipe 2 from the muffler 5 in the case 1 can remove. The further movements of tube 2 , Pipe closure 3 and silencers 5 and the nuts N and N1 connected to them, as well as the autonomous triggering mechanism and the manually activatable triggering mechanism, as in the activation process of the shooting system (by relative movement of the two handles 7 and 7a ).

In the following, the detailed description of the invention will be made with reference to the individual drawings. 1a shows the shooting system according to the invention in the state in which the firing pin 12 into the cartridge of the projectile 30 but the bullet has not yet left the shell. An explosion of the explosive charge is generated.

In 1b is shown as under pressure from the explosive gases the projectile 30 from the pipe closure 3 away. The explosion gases spread on all sides in the pipe 2 out, allowing them through the gas discharge openings 25 in the chamber between tube 2 , Silencer 5 and sleeve (jacket) 6 reach. It can be seen that the plunger 7b and the sleeve 6 so in the direction of pipe closure 3 they have relocated the separator 8th have tilted so far that this also a tilting movement of the castle 9 has caused, leaving a release of the pipe 2 or pipe closure 3 is done in the housing.

In 1c is the state of the shooting system shown in the projectile 30 has already left the shooting range, and due to the spreading of the exhaust gases on all sides of the silencer 5 and the tube closure 3 and pipe 2 have distanced themselves from each other. It can be seen that the to the muffler 5 coupled nut N1 as well as to the pipe closure 3 coupled mother N herself on the spindle 4 have shifted to their end regions, so that they come to the second coil springs Z to the plant. Here are the first coil springs 29 stretched in the second force-applying devices A and B. Furthermore, it has also on the tube 2 or on the sleeve 6 arranged first exercising means 24 , which is designed as a compression spring, also cocked.

The explosion gases act on the silencer 5 and on the pipe 2 or on the pipe closure 3 such that they move away from each other. Due to a slope in the threaded sections 4a and 4b the spindle 4 , Which prevents self-locking of the spindle in tensile or Druckkraftbeaufschlagung the nuts N and N1 in the spindle longitudinal direction, a displacement of the nuts N and N1 on the spindle is possible, wherein the spindle is set in rotational motion, so that at the same pitch value of the spindle sections 4a and 4b a synchronous movement of the muffler 5 in the one and the pipe 2 and tube closure 3 in the other direction. When reaching a maximum distance of the pipe closure 3 from the muffler 2 the disconnector strikes 11 at the heel 18 at. This will cause the rocker arm (ie the lock of the pipe with pipe closure) 10 moves, leaving it out of a recess 2a is swung out in the pipe. This will be the coupling between pipe 2 and pipe closure 3 canceled. Under the effect of the force of the first exercising device 24 the pipe moves 2 again towards firing position, that is, it moves to the muffler 5 to. It is the through the pipe closure 3 and the pipe 2 formed cartridge chamber 27 opened so that a sleeve of the cartridge can fall out. Furthermore, the opening causes the cartridge chamber 27 a ventilation and temperature reduction of the cartridge chamber 27 , Just before reaching the firing position of the pipe 2 press this with an integral on the pipe 2 molded driver 2 B against the second stop 17 who is against the spring 17a in the direction of the silencer 5 moves, making his move a move in the train paddock 16 which then produces the fixator 15 of the tube closure tilts into a position from which it comes from a Recess in the pipe closure 3 is removed. This causes the release of the tube closure 3 so that the tube closure 3 under the effect of the second force-applying devices A and B and also under the application of force by the first force-applying device 24 on the muffler 5 also returns to the firing position. During the return movement of the pipe closure 3 in the firing position, its kinetic energy is used to bring a new cartridge into the cartridge chamber 27 invite.

In the 101 to 108 the trigger mechanism of the shooting system according to the invention is shown. After the return movement of the pipe closure 3 in the firing position, as in 101 shown, remains due to the overlap of the tilting rocker 13a or its first tooth S1 with the firing pin 12 this fixed in a cocked position in the housing. That is, the firing pin 12 is about the deflection of the firing pin compression spring 12a strained and is the first tooth S1 on the tilting rocker 13a recorded. After actuation of the trigger 22 (in 101 to 108 not shown, but indicated by an arrow), the drawbar T in the direction of silencer 5 postponed. An integrally formed on the pull rod T carriage on which the first teeth T1 and T2 are arranged, also shifts in the direction indicated. In 101 It is shown that the first tooth T1 comes to bear against the second S2, whereby the housing in the housing 1 rotatably arranged tilting rocker 13a is changed in its angular position. In 102 is the state just before release of the firing pin 12 shown. In 103 is shown as the firing pin 12 under the force of the firing pin compression spring 12a towards cartridge shoots. As the traction rod moves further, T slides over in the direction of the silencer 5 the second tooth S2 the first tooth T1, so that the second tooth S2 between the two teeth T1 and T2 is located. The firing pin 12 beats as in 104 shown in the cartridge and generates the explosion of the cartridge disposed in the explosive charge. The movements of the components silencer 5 , Pipe 2 and pipe closure 3 take place as indicated above. The second tooth S2 is still located between the two teeth T1 and T2 on the pull rod T. After again made return movement of the pipe closure 3 in the firing position remains the firing pin 12 again at the tilting rocker 13 or hang on the first tooth S1. Upon further displacement of the drawbar T in the direction of the muffler 5 by further movement of the trigger 22 the second tooth T2 comes to bear against the second tooth S2. It is thus again the release of the firing pin 12 , as in 106 shown, triggered, whereby a new shot is fired. When fixing the drawbar T in the specified position by means of the determination device 23a or via other devices, a continuous fire mode is adjustable. That is, the shooting system according to the invention shoots continuously, without further operation by an operator. When canceling the continuous fire mode, the trigger will be off 22 let go, so that, as in 107 shown, the pull rod T moves in the opposite direction. Due to the one-sided rotational mobility of the first tooth T1 on the pull rod T, the second tooth S2 presses against the tooth T1, so this against the force of the compression spring 13c is twisted, so that the pull rod T under the tilting rocker 13a in the direction of the paragraph 18 can move. In 108 Fig. 2 shows how the first tooth T1 almost completely flips over to allow complete displacement of the pull rod T into the state of the firing position.

in the Following are the items based on the individual parts explained.

In 1 is the case 1 represented, in which fixed the paragraph 18 for the installation of the disconnector 11 is integrated. Hard with the case 1 connected, located on the underside of the support post 19 that has two joints 20 , 21 is connected to the housing.

2 shows the tube 2 the shooting system according to the invention in front and side view. At the front end of the tube there are gas discharge openings 25 , At the rear end of the tube is a section with a larger diameter than the diameter of the front section. There is a recess in this larger diameter section 2e in the locked state of the shooting system with the lock of the entire lock 9 is engaged. The opposite is a recess 2a arranged in which a rocker arm 10 engages in the locked state. Furthermore, located at a rear outer edge portion of the tube 2 the driver 2 B , when returning the tube to the starting position with a second stop 17 interacts.

In 3 is the pipe closure 3 shown, on the underside of which the recess 3a located in the the volume element 9b engages the entire lock in the locked state. At the top of the tube closure 3 is his mother N, who is on the spindle 4 moved in the longitudinal axis. 4 shows the spindle 4 , the two threaded sections 4a and 4b having. The spindle 4 has a storage in its center. At the end she has flanges 4c and 4d for supporting the second coil springs Z. The spindle is in its two threaded sections 4a and 4b hollow executed, thus leaving room for the arrangement of the second force to create facilities A and B. The two threaded sections 4a and 4b have threads that are aligned in different directions. That is, one of the two threaded sections 4a has a left-hand boost and the other threaded section 4b has a rightward increase or vice versa. It is preferably provided that the pitch value of the two threaded spindle sections is the same, resulting in a synchronous movement of the nuts N and N1 coupled to the spindle.

5 shows the muffler 5 in which the nut N1 for engagement in the threaded spindle section 4a is arranged. At the bottom of the muffler 5 there is a third driver 5a to which the second handle 7a when pushing apart the handles 7 and 7a acts. In which the pipe 2 surrounding area of the muffler 5 this has an inner paragraph 5b on. On this inner paragraph 5b the sleeve acts 6 ,

This sleeve 6 is in 6 shown. In addition to its essentially cylindrical construction, it also comprises shoulders at the ends 6a and 6b , Paragraph 6b serves to form the chamber 26 and to rest on a heel on the pipe 2 and the paragraph 6a serves for installation on the inner heel 5b on the muffler 5 , By means of these paragraphs can of the sleeve 6 Forces are transferred to the muffler or on the pipe, which force these components to translational movements.

In 7 is the first handle 7 shown on the one side of the plunger 7b connects, the first driver at its end 7d having. This first driver 7d presses against the disconnector when the firing system is activated 8th of the castle. In 7a is the second handle 7a presented, which has a paragraph on the third driver 5a on the silencer with relative movement of the two handles 7 and 7a acts. In 8th the disconnector of the lock is shown in the housing 1 is arranged rotatably.

9 shows the lock of the entire locking of the shooting system, which brings about the first shot solution when actuated. Pressed by the disconnector of the lock 8th becomes the volume element of the lock 9b from the recess 2e in the tube and the recess 3a swung out in the tube closure, so that the tube 2 and the tube closure 3 in the case 1 can move as described.

10 shows the rocker arm 10 , which at its one end also rotates in the housing 1 is arranged, and its pivotal movement, the coupling between pipe 2 and pipe closure 3 dissolves.

11 shows the separator of the system 11 , the one-sided a swivel joint for attachment to the rocker arm 10 (the lock of the pipe with pipe closure). In 12 the firing pin is shown, which is a bevel 12b which is the sliding over the tooth S1 in the movement of the distance from the muffler 5 allows. 13 shows the tilting element of the autonomous release mechanism, which rotates in the housing 1 is stored.

13a shows in a partial view of the hand-actuable trigger mechanism with the tie rod T, the first tooth T1, the second tooth T2, the tilting element 13 and the teeth S1 and S2 disposed thereon.

In 14 is the first stop 14 represented, on which the separator 11 when retracting the tube closure in the firing position comes to rest, and the gear via a tilting element 13 connected is.

15 shows the fixator 15 whose swinging out of the pipe closure 3 the release of the pipe closure 3 causes. 16 shows the train pad 16 placed between the fixator of the tube closure 15 and the first stop 14 is arranged. In 17 is the second stop 17 represented by a joint at its end via a gear with the fixator of the tube closure 15 connected is. The heel at the second stop 17 serves to create the compression spring 17a , against the spring force, the second stop 17 at installation of the driver 2 B on the pipe 2 emotional. In 18 is an enlarged view of the paragraph 18 represented, on which the separator 11 during opening movement, that is, during a movement of the pipe closure of the pipe 2 in which these are from the silencer 5 remove, comes to rest.

19 shows the support support 19 for the application of the shooting system on the shoulder of a shooter. The support support 19 is doing with the two coupled joints 20 and 21 that in the 20 and 21 are shown on the housing 1 attached so that pivotal movements for setting a shooting angle and lateral pivoting movements are possible.

1

casing

2

pipe

2a

recess in the pipe

2 B

takeaway

2c, 2d

pipe sales

2e

recess in the pipe

3

pipe plug

3a

recess in the pipe closure

4

spindle

4a

left-handed threaded section

4b

right-handed thread section

4c, 4d

flange at a spindle end

5

silencer

5a

third takeaway

5b

internal Paragraph on the silencer

6

shell

6a

internal Shoulder of the sleeve

6b

outer paragraph

7

first Handle

7a

second Handle

7b

tappet

7c

second Driver on the second handle

7d

first Driver on the first handle

8th

separator of the castle

9

lock the entire lock

9a

Lock spring

9b

voxel of the castle

10

rocker arm

11

separator

12

firing pin

12a

Firing pin spring

12b

slope

13

tilt element

13a

Kippwippe

13b

compression spring

13c

compression spring

14

first attack

15

fixator of the pipe closure

16

Train coupling

17

second attack

17a

feather at the second stop

18

paragraph

19

support bracket

20 21

joint on support support

22

trigger

23

Freigeber

23a

Determination means

24

first force exerting Facility

25

Gas discharge opening

26

chamber

27

cartridge chamber

29

first spiral spring

30

bullet

A, B

second force exerting Facility

D1, D2

support bearings

M, M1

Train-nuts the second forceful Facility

N, N1

mother

O

flange

S1

first tooth

S2

second tooth

T

pull bar

T1

first tooth

T2

second tooth

Z

second spiral spring

Claims (44)

Shooting system with a housing 1 and relatively moving parts pipe ( 2 ), Pipe closure ( 3 ) and silencers ( 5 ), and a non-self-locking threaded spindle, which in one of its halves a left-handed threaded portion ( 4a ) and in the other half a right-hand thread section ( 4b ), wherein the muffler ( 5 ) and the tube closure ( 3 ) are mechanically coupled via a respective nut to a respective spindle threaded portion, so that in a translational displacement of the muffler 5 its movement into a rotational movement of the spindle ( 4 ) and their movement in turn into a translational movement of the tube closure ( 3 ) is converted, so that due to the right and left handedness of the spindle ( 4 ) perform both components translational movements in opposite directions, characterized in that the pipe ( 2 ) also relative to the housing ( 1 ) is movably arranged and with the pipe closure ( 3 ) can be coupled in such a way that, at least in the case of a translational movement of the tube closure ( 3 ), in which the tube closure ( 3 ) from the silencer ( 5 ) removed from a firing position, from the tube closure ( 3 ) is taken. Shooting system according to claim 1, characterized in that the shooting device further comprises an automatic triggering mechanism ( 10 . 11 . 18 ), which upon reaching a path-end position of the pipe closure ( 3 ) and the tube ( 2 ) at a maximum distance from the muffler ( 5 ) a solution of the pipe ( 2 ) from the pipe closure ( 3 ) causes. Shooting system according to claim 2, characterized in that the shooting device further comprises a first force-applying device ( 24 ), which rest on the pipe ( 2 ) at least in its end-of-travel position at a maximum distance from the muffler ( 5 ) a force in the direction of the silencer ( 5 ) exercises. Shooting system according to one of claims 2 to 3, characterized in that the shooting device is a fixing element ( 15 ), which in the position of the tube closure ( 3 ) at the maximum distance from the muffler ( 5 ) a latching and thus fixation of the tube closure ( 3 ) in the housing ( 1 ) causes. Shooting system according to one of the preceding claims, characterized in that between the spindle ( 4 ) and at least one of the two components silencer ( 5 ) and pipe closure ( 3 ) a second force-exerting device (A, B) is provided which, upon removal of the respective component from the center of the spindle ( 4 ) a force on the construction part towards the middle of the spindle ( 4 ) exercises. Shooting system according to claim 5, characterized in that the tube has a driver ( 2 B ), which upon movement of the tube ( 2 ) from the coupled position at maximum distance to the muffler ( 5 ) back to the position of the shot readiness at a stop ( 17 ) a pulling mechanism ( 16 ) comes to the plant and thereby the pulling mechanism ( 16 ) is operated in such a way that with the pulling mechanism ( 16 ) coupled fixing element ( 15 ) of the tube closure the latching with the tube closure ( 3 ), so that the tube closure ( 3 ) returns under the action of the second force applying means (A, B) in its firing position again. Shooting system according to Claim 3, characterized in that the second force-exerting device consists of two spring pulls (A, B), each spring pull (A, B) comprising at least one pull rod and both spring pulls and tie rods extend in the hollow core of the spindle (A, B). 4 ) and one of the tie rods at one end by means of a nut (M1) in the muffler ( 5 ) and the second pull rod by means of a nut (M) in the tube closure ( 3 ) is attached. Shooting system according to one of claims 3 to 4, characterized in that the spindle ( 4 ) at their outer end regions in each case an outer flange ( 4c ) and ( 4d ), on which a second spiral spring (Z) is supported by a pulse generated by a nut (N) during the translatory movement of the silencer ( 5 ) or the tube closure ( 3 ) cushion. Shooting system according to one of claims 3 to 5, characterized in that on the housing two handles ( 7 . 7a ) are arranged displaceable relative to each other, wherein the second handle ( 7a ) has a second driver, with a third driver on the muffler ( 5 ) cooperates in such a way that with a distance-increasing displacement of the two handles ( 7 . 7a ) the silencer ( 5 ) from the second handle ( 7a ) and also from the first handle ( 7 ) is removable. Shooting system according to one of the preceding claims, characterized in that on the housing a paragraph ( 18 ) is provided, the actuation of the automatic release mechanism in the movement in which the tube closure ( 3 ) from the silencer ( 5 ), realized. Shooting system according to one of claims 2 to 10, characterized in that the automatic triggering mechanism ( 10 . 11 )) in the tube closure ( 3 ) and a separator ( 11 ), which at maximum distance of the tube closure ( 3 ) from the silencer ( 5 ) on the paragraph ( 18 ) comes to rest, whereby, due to the relative movement of the tube closure ( 3 ) to the housing ( 1 ), the automatic release mechanism ( 10 . 11 . 18 ) is actuated such that it unlocks the coupling between the pipe ( 2 ) and the tube closure ( 3 ) causes. Shooting system according to claim 11, characterized in that the separator ( 11 ) having an automatic release mechanism further articulated in the tube closure ( 3 ) mounted rocker arms ( 1 ), one end of which hinges on the separator ( 11 ) is arranged and the other end in the ready to fire state and during the movement of the tube closure ( 3 ) and the tube, in which they are removed from the muffler, in a recess ( 2a ) in the pipe ( 2 ) and thus the tube closure ( 3 ) with the pipe ( 2 ) and a relative movement of the tube ( 2 ) to the tube closure ( 3 ) locks, and when the separator ( 11 ) on the paragraph ( 18 ) from the recess ( 2a ) in the pipe ( 2 ) is swung out. Shooting system according to one of the preceding claims, characterized in that concentrically on the tube ( 2 ) relative to this longitudinally displaceable sleeve ( 6 ) whose longitudinal displaceability on the tube ( 2 ) by a first and a second paragraph ( 2d . 2c ) on the pipe ( 2 ) is limited. Shooting system according to one of claims 2 to 13, characterized in that the first force-exerting device ( 24 ) at least one spiral compression spring ( 24 ), which is substantially concentric on the sleeve ( 6 ) and in the silencer ( 5 ) is arranged between these components, wherein the spiral compression spring ( 24 ) on the one hand on a mouth-side outer shoulder ( 6b ) at the end of the sleeve ( 6 ), which the coupling of the pipe ( 2 ) on the pipe closure ( 3 ) is opposite, supported, and wherein the other end of the spiral compression spring ( 24 ) on an inner shoulder ( 5b ) on the silencer ( 5 ) is supported. Shooting system according to one of the preceding claims, characterized in that the shooting device further comprises a cartridge chamber ( 27 ) whose inner wall substantially from the pipe ( 2 ) and the pipe closure ( 3 ) is trained. Shooting system according to one of the preceding claims, characterized in that the shooting device further comprises a recharging device which is mechanically connected to the tube ( 2 ) and to the pipe closure ( 3 ) is coupled, that the movement of the tube ( 2 ) and the tube closure ( 3 ) a recharge a new cartridge from a magazine coupled to the shooting system into the cartridge chamber ( 27 ) causes. Shooting system according to one of the preceding claims, characterized in that the shooting device comprises a spring-assisted firing pin ( 12 ), wherein the on the firing pin ( 12a ) acting spring is a compression spring in the compressed state on the firing pin ( 12 ) in the direction of the muffler ( 5 ) acts. Shooting system according to claim 17, characterized in that the shooting device further comprises an autonomous-automatic trigger mechanism ( 13 . 14 ), which is designed such that the autonomous automatic trigger mechanism ( 13 . 14 ) the firing pin ( 12 ) in the approach movement of the tube closure ( 3 ) to the muffler ( 5 ) in a position in front of the tube closure position of the shot readiness, and the on reaching the position of the shot readiness of the tube closure ( 3 ) the firing pin ( 12 ) so that they are also under the action of a spring force in the direction of the cartridge chamber ( 27 ) and thereby pushes into a cartridge. Shooting system according to claim 18, characterized in that the autonomous automatic trigger mechanism ( 13 . 14 ) a first stop ( 14 ), which is connected to a tilting element ( 13 ), on which the firing pin ( 12 ) comes to rest in its fixed position and is blocked, the first stop ( 14 ), the coupling to the tilting element ( 13 ) and the dump ( 13a ) are themselves designed such that the tilting element ( 13 ) then the release of the firing pin ( 12 ), when the disconnector ( 11 ) during its approach movement to the muffler ( 5 ) at the first stop ( 14 ) comes to the plant and this moves. Shooting system according to claim 19, characterized in that on the tilting element ( 13 ) a compression spring ( 13b ) is arranged, the spring force of the tilting element ( 13 ) presses towards blocking position. Shooting system according to one of claims 18 to 20, characterized in that the firing pin ( 12 ) and the autonomous trigger mechanism ( 13 . 14 ) are designed such that during the removal movement of the tube closure ( 3 ) and the firing pin mounted in it ( 12 ) from the silencer ( 5 ) the firing pin ( 12 ) via the tilting element ( 13 ) passes without being blocked by it. Shooting system according to one of claims 18 to 21, characterized in that the first stop ( 14 ), the separator ( 11 ) and the rocker arm ( 10 ) are designed such that when the disconnector ( 11 ) at the first stop ( 14 ) the separator ( 11 ) the rocker arm ( 10 ) pivots back into such a position that the tilt lever ( 10 ) again in the recess ( 2a ) in the pipe ( 2 ) and thus the tube ( 2 ) with the tube closure ( 3 ). Shooting system according to one of claims 17 to 22, characterized in that the shooting device further comprises a hand-operated trigger mechanism, which in turn is connected to a trigger ( 22 ) coupled gear, which on a tilting rocker ( 13a ) acts. Shooting system according to one of claims 17 to 23, characterized in that the gear of the manually operable trigger mechanism at least one pull rod (T) between the trigger ( 22 ) and tilting rocker ( 13a ). Shooting system according to one of claims 17 to 24, characterized in that the tilting rocker ( 13a ) in the housing ( 1 ) is rotatably mounted, that the tilting rocker ( 13a ) the firing pin ( 12 ) in the approach movement of the tube closure ( 3 ) to the muffler ( 5 ) in a position in front of the tube closure position of the shot readiness holds. Shooting system according to one of claims 17 to 25, characterized in that the firing pin ( 12 ) is configured such that the tilting rocker ( 13a ) of the manually operated trigger mechanism as well as the tilting element ( 13 ) of the autonomous automatic trigger mechanism ( 13 . 14 ) next to each other on the firing pin ( 12 ) can be applied for the purpose of their blocking. Shooting system according to one of claims 23 to 26, characterized in that the firing pin ( 12 ) and the manually operable trigger mechanism are designed such that during the removal movement of the tube closure ( 3 ) and the firing pin mounted in it ( 12 ) the firing pin ( 12 ) via the tilting rocker ( 13a ) passes without being blocked by it. Shooting system according to one of claims 23 to 27, characterized in that the manually operated trigger mechanism further comprises a carriage having two teeth (T1, T2), wherein a first tooth (T1) is rotatably mounted on the carriage and the second tooth (T2) fixed is arranged on the carriage, wherein the first tooth (T1) against a spring force from a substantially vertical position exclusively in the direction of the trigger ( 22 ) is tiltable. The shooting system according to claim 28, characterized in that the carriage with the drawbar (T) in one piece accomplished is. Shooting system according to one of claims 28 to 29, characterized in that on a rocker beam of the tilting rocker ( 13a ) one on the housing ( 1 ) supporting compression spring ( 13a ), which in the compressed state, the tilting rocker ( 13a ) in the direction of the position in which one with the tilting rocker ( 13a ) provided first tooth (S1) of the firing pin ( 12 ) is blockable. Shooting system according to claim 30, characterized in that the tilting rocker ( 13a ) hinged in the housing ( 1 ) and at its end opposite the first tooth (S1) has a second tooth (S2), each of the teeth (S1, S2) extending from the rocker beam in opposite directions substantially perpendicular to the rocker beam. Shooting system according to claim 31, characterized in that the second tooth (S2) of the tilting rocker ( 13a ) when blocking the firing pin ( 12 ) by the tilting rocker ( 13a ) is in such a position that, when the carriage is moved in the direction of the trigger ( 22 ) can be contacted by one of the two teeth (T1, T2), so that a displacement of the second tooth (S2) and thus a rotational movement of the tilting rocker ( 13a ) such that this the blocking of the firing pin ( 12 ) gives up. Shooting system according to one of claims 9 to 32, characterized in that the shooting device further comprises a separator of the lock ( 8th ), which upon displacement of the first handle ( 7 ) relative to the housing ( 1 ) and the subsequent displacement of the first handle ( 7 ) firmly connected plunger ( 7b ), whereby the separator of the lock ( 8th ) a pipe ( 2 ) in firing position fixing lock the entire lock ( 9 ) opens. Shooting system according to claim 33, characterized in that the separator of the lock ( 8th ) a rotatably arranged in the housing rocker arm ( 10 ), which is energized by the plunger ( 7b ) performs a rotational movement in such a way that it can be moved on a pressure surface of the likewise rotatable in the housing ( 1 ) arranged lock of the entire lock ( 9 ) and thereby moves it such that a volume element ( 9b ) of the castle ( 9 ) from a complementary to the volume element ( 9b ) shaped recess ( 2a ) in the pipe ( 2 ) is movable out. Shooting system according to one of claims 33 to 34, characterized in that between the housing ( 1 ) and the first handle ( 7 ) a determination device ( 23a ), which is a fixation of the first handle ( 7 ) and the plunger ( 7b ) in a position in which the plunger ( 7b ) over the separator of the castle ( 8th ) an opening of the lock of the entire lock ( 9 ) causes. Shooting system according to one of claims 13 to 35, characterized in that the tube ( 2 ) together with the silencer ( 5 ) and the sleeve ( 6 ) in the ready-to-fire state at least one chamber ( 26 ), whereby the pipe ( 2 ) at least one wall of the chamber ( 26 ) and where in the pipe ( 2 ) at least one the interior of the tube ( 2 ) with the interior of the chamber ( 26 ) connecting gas discharge opening ( 25 ), so that in the interior of the tube ( 2 ) Explosion gases arising from detonation of the cartridge from the inside of the tube ( 2 ) into the chamber ( 26 ) stream. Shooting system according to claim 36, characterized in that the tube ( 2 ) a pipe section ( 2c . 2d ) is formed, on which the sleeve ( 6 ) with an end paragraph ( 6a ) can be applied at the gas pressure. Shooting system according to one of the preceding claims, characterized in that on the housing ( 1 ) at least one support support ( 19 ) is arranged. Shooting system according to claim 38, characterized in that between the support support ( 19 ) and the housing ( 1 ) at least one joint ( 20 . 21 ) is arranged, which a change in position of the housing ( 1 ) relative to the orientation of the housing ( 1 ). Method of recoil-minimized shooting with a shooting system, in which, in the event of an explosion, an explosive charge of a projectile in a pipe ( 2 ) of the shooting system due to the explosion pressure wave, a silencer ( 5 ) in the direction of the projectile to be fired and a tube closure ( 3 ) in the opposite direction relative to a housing ( 1 ) of the shooting system, characterized in that the pipe ( 2 ) during the removal movement of the tube closure ( 3 ) with respect to the muffler ( 5 ) due to a connection of the tube ( 2 ) with the tube closure ( 3 ) during this distance movement also from the muffler ( 5 ) Will get removed. Method according to one of claims 40 to 41, characterized in that after reaching a path-end position of the tube closure ( 3 ) and the tube ( 2 ) at a maximum distance from the muffler ( 5 ) a solution of the pipe ( 2 ) from the pipe closure ( 3 ) is effected, so that the pipe ( 2 ) under the action of a silencer ( 5 ) is displaced in this direction, wherein the tube closure ( 3 ) at the maximum distance from the muffler ( 5 ) is fixed. Method according to claim 42, characterized in that the tube ( 2 ) substantially on reaching its initial position in the position of the shot readiness a lifting of the fixation of the pipe closure ( 3 ), causing it to act under a silencer ( 5 ) acting force is also shifted in this direction. A method according to claim 43, characterized in that the kinetic energy of the movement of the tube closure ( 3 ) in the direction of the silencer ( 5 ) is used for the operation of a recharging device of the shooting system of. Method for manual production of the shooting readiness of the shooting system according to claims 1 to 39, characterized in that a relative movement of two on the housing ( 1 ) of the shooting system arranged handles ( 7 . 7a ) in movements of the silencer ( 5 ) and from the pipe ( 2 ) and pipe closure ( 3 ), that the silencer ( 5 ) on the one hand and pipe and pipe closure ( 3 On the other hand, remove each other.