DE2730125A1 - Pressurised gas fired rifle - has valve mechanism which controls gas flow into barrel by trigger actuated valve and seal - Google Patents

Abstract

The pressurised gas fired rifle accommodates pressurised gas holding container. The gas flow into barrel is controlled by a valve. The latter is a spring loaded axially moving plunger in an axial bore connected to barrel. Gas leakage is prevented. The low recoil effect ensures good firing accuracy on using a wide variety of ammunition. This rifle can be used for self defence and it can be stored in loaded state using carbon dioxide cylinders. The pressurised gas container (15) is fitted into the magazine sleeve (12) closed by the control valve. This valve is actuated by the sliding plunger (29) which is actuated by spring arrangement (13) released by the trigger (14) of the gun. The magazine sleeve (12) is able to slide in a tube (11) in the gun breech.

Description

Gas pressure gun, in particular gas pressure rifle

The invention relates to a gas pressure gun, in particular a gas pressure rifle, with a pressurized gas capsule and one for the shot, the gas inlet into the with a bore of a Warienlaurs controlling control valve connected to an ammunition channel, one against the force of a closing spring through an axial connection hole has sliding closure body on the ram receiving the barrel bore.

In the case of the known gas pressure guns of this type (DT-AS 1 067 338, DT-OS 1 905 216) is a special pressure chamber for the exchangeable arrangement of the pressurized gas capsules formed in the weapon stock, which connects to the barrel of the weapon with a to Receiving the control valve has formed further space.

Due to the existing open connection, this additional space is permanent Filled with pressurized gas as long as there is a supply of pressurized gas, and this pressurized gas is from this, with the mediation of the control valve, into a still existing expansion space released, from where it is then over the temporarily blocked bore of the piston trained and against the force of a return spring displaceable actuating plunger for the closure body of the control valve enters the barrel bore. The operating tappet is kept in operative connection with the trigger mechanism of the weapon in such a way, that when it is triggered the plunger through the then tensioned return spring to act on the closure body of the control valve is moved and it this then comes to the gas outlet in the expansion space. The escaping gas then moves the plunger again in the opposite direction against the force of the return spring, at the same time that the control valve is closed by his Closure body associated closing spring comes at the moment when the contact is canceled again between the plunger and the closure body. on the other hand then becomes the connection between the expansion space and the blocked until then Bore of the plunger open, so that with this corresponding delay the pressurized gas can only then enter the barrel bore.

The well-known gas guns are special with this training critical with regard to the seal against gas losses, because there are too many for that Parts covered with manufacturing tolerances lie in the flow path of the gas. Farther It is therefore not possible to achieve the same accuracy for different types of ammunition to be reached over comparable distances, because that means only one unchangeable one Shot energy is made available and also no complete freedom from recoil given is.

The invention is therefore based on the object of a pressurized gas weapon this Kind of further training in such a way that with further simplification of the entire construction increased security against unwanted gas losses is obtained and the Weapon with a more extensive freedom from recoil while firing a shot with a comparable Marksmanship can also be used for different types of ammunition. It is in particular thought of creating a small rifle that was also useful for self-defense then should be ready to fire immediately if it is not used with a charged pressurized gas capsule Has been stored for long periods of time, at the same time as pressurized gas capsules those with a conventional filling with carbon dioxide are preferred.

This object is achieved according to the invention in that in a gas pressure weapon of the type mentioned above, the compressed gas capsule in a closed by the control valve Magazine sleeve is arranged, which is used for valve actuation by the relatively displaceable Push the ram in the axial direction of the barrel bore by means of the trigger device the weapon releasable energy storage device is displaceable.

The invention thus becomes one of the actual weapon Separately manufactured unit provided, which is primarily the one after each use of the gas supply for a new capsule to be exchanged for a compressed gas capsule and the control valve with an associated actuating plunger for its closure body in one arrangement on a magazine sleeve that can be displaced, for example, in a barrel that is fixed to the weapon includes, the displacement of which is then also built into this tube Energy storage is effected. The energy store can easily be used for different Driving forces for the magazine sleeve are designed and continue to be so be that it occurs when these driving forces act on the magazine sleeve Recoil intercepts as well as the other taking place when the actual shot is fired Recoil so that therefore a corresponding freedom from recoil is given, the one Sufficient accuracy even for different ones Types of ammunition can be expected.

A particularly advantageous embodiment of such the driving forces The energy storage device providing the magazine sleeve consists of two compression springs with different spring behavior, both of which are in contact with the magazine case held piston and act on one of the piston between two limit stops Leading sleeve are supported, which are used to change the effective support length these two springs can be adjusted in at least two positions relative to the magazine sleeve is based on their cocked by means of the clamping device of the gas pressure weapon Starting position. If in this tensioned starting position of the magazine sleeve the The trigger mechanism of the weapon is actuated and the energy storage device is triggered, then worried about a compression spring with its short provided for this purpose Spring travel and a large spring force result in a correspondingly large initial acceleration the magazine sleeve, whereby the magazine sleeve, in which the control valve and the actuating plunger for the closure body are arranged leading to in their guide tube the barrel hole is pushed forward. With this rush of the magazine case if the actuating plunger comes to a stop, for example, against the wall in which the shaft-side end of the barrel bore opens out, thus creating an immediate connection with the ram bore. On the other hand, this stop causes the plunger brought into a contact position with the closure body of the control valve, the thereby then against the force of its closing spring for a gas passage into the Barrel bore is moved axially, so that there is then an instant shot comes by the floor in question at this point on the connected Ammunition channel has been brought to the arrangement in the barrel bore. At this axial displacement of the closure body of the control valve is the force of the closing spring initially essentially overcome by the force of the other compression spring of the Energy accumulator, which for this purpose with a sufficiently long spring travel and a small Spring force is provided. The closing spring must therefore be reversed of the control valve only against this small spring force of this other compression spring of the Energy accumulator work to put the closure body of the control valve back into its to bring effective closed position with respect to the compressed gas capsule.

If therefore the effective support length of the two compression springs of the force Speicherers changed to a smaller value and thus both decisive spring forces are increased, then this is a for the closure body of the control valve correspondingly longer opening hours and therefore the exit of a correspondingly larger amount of gas, which means a greater range for the same projectiles or for heavier projectiles an equal range with comparable accuracy can be obtained. If the gun is permanent for the delivery of such a larger one The amount of gas per shot is set, then you can use a pressurized gas capsule a certain Reservoir of pressurized gas of course only a few projectiles are fired than with a setting for a smaller amount of gas, with this also being added it is also possible, on the other hand, via the training with the magazine sleeve is to use pressurized gas capsules of various sizes, if the one for the intake of the capsules provided free space of the magazine sleeve is correspondingly large.

Further developments of the invention are given in the individual responses recorded.

An embodiment of the invention is shown schematically in the drawing and is described in more detail below. 1 shows a partial view the gas pressure gun, partly in longitudinal section along the axis of the barrel bore receiving plane, and FIG. 2 shows a longitudinal section through the arrangement one Magarin sleeve of the gas pressure weapon according to FIG. 1, which is designed in the form of a compressed gas capsule.

The gas pressure gun shown is designed as a rifle whose Barrel 1 is hingedly connected to the shaft 2 via a hinge (not shown in detail) is. In the barrel 1, the barrel bore 3 is formed, the end on the shaft side opens in the relevant for the run 1 folding plane, with one at the end of sem Guide plate 4 for a projectile transfer plate displaceable in an ammunition channel 5 6 is attached, by means of which the projectiles 7 and 8 individually from one on the barrel attached magazine for an arrangement in the barrel bore 3 are transferred. the Projectile transfer plate 6 can counter the force of a return spring 9 by a Operating lever 10 can be pushed up to get the next floor 8, as soon as the previously fetched projectile 7 has been shot down. Alternatively, is it is also possible to open the gun barrel 1 by opening the bullets to be arranged individually in the barrel bore 3, for example with what to be shot Arrowheads are made as these are impossible or extremely difficult can be stored in a magazine.

About the attached to the gun barrel 1 guide plate 4 is in its relevant folding level at the same time made contact with the running-side End of the rifle stock 2, towards which there is also a guide tube attached to the stock 11 is open for a magazine sleeve 12 which is displaceable in the axial direction of the barrel bore 3 is. The magazine sleeve 12 is provided with outer longitudinal twist grooves, which ensure a straight-line displacement of the sleeve without a tendency to rotate, as soon as the sleeve is driven by an energy storage device 13 for this displacement which can be triggered by means of the trigger device 14 of the weapon. The magazine case 12 is designed to interchangeably accommodate a pressurized gas capsule 15, which at a commercially available filling bit of gaseous carbon dioxide a pierceable Rapeseed closure 16 has the outside of a sealing body 17 is surrounded. About this sealing body 17, the compressed gas capsule 15 is by means a hollow screw 18 with the interposition of a further seal 19 with a further hollow screw 20 screwed, which in turn via a hollow screw 21 with the end of the magazine sleeve 12 on the opening side is screwed. The banjo bolt 20 takes in an effective as an expansion space 22 for the compressed gas cavity cup-shaped closure body 23 of a gas inlet into the barrel bore 3 controlling Control valve, which is supported by a closing spring supported on the hollow screw 20 24 is charged. A piercing tip 25 is also located on the closure body 23 for the capsule closure 16 of the compressed gas capsule 15 attached, which is through a larger sized central bore 26 of the hollow screw 20 extends. So exists between this passage tip 25 and the bore 26 of the hollow screw 20 a passage channel for the compressed gas to fill the expansion space 22, the except by the cooperating seals 17 and 19 for sealing against the interior the magazine sleeve 12 is also sealed by a further seal 27, against which the closure body 23 of the control valve is pressed on by the closing spring 24. The seal 27 is on a guide sleeve 28 for a with the closure body 23 of the control valve cooperating actuating tappet 29 arranged, the one with the barrel bore 3 axially aligned bore 30, over which in the stop position of the plunger 29 on the guide plate 4 when the force is triggered memory 13 a connection the barrel bore 3 is made to the expansion space 22. The plunger 29 is screwed by means of screws 31 to the hollow screw 21 so that it is a forest bearing forms for the closing spring 24 of the control valve, if in that shown in FIG Relative position of the magazine sleeve 12 of the valve body 23 by the closing spring 24 in its closed position resting on the seal 27 is pressed. Meanwhile, is through the screws 31 an axial displacement possibility of the plunger 29 for pushing away of the closure body 23 from the seal 27 against the force of the closing spring 24 not hindered, whereby this shift then occurs if after triggering the energy store 13 with the magazine sleeve 12 springing forward, the plunger 29 is brought into a stop position on the guide plate 4. So in this Stop position a tight connection of the ram bore 30 to the barrel bore 3 is ensured, the plunger bore 30 can still be provided with a not shown in detail 0 sealing ring in the end face of the plunger facing the guide plate 4 29 be surrounded. In addition, it should be noted that on the one about the magazine sleeve 12 protruding end of the hollow screw 21 is formed an external square to which a matching square hole 32 is provided on the rifle stock 2 so as to be removed when the Magazine sleeve 12 for an exchange of the compressed gas capsule 15 unscrewing the over this outer square in the square hole 32 inserted hollow screw 21 by rotation the magazine sleeve 12 to enable. If the magazine sleeve 12 is unscrewed, then is the old compressed gas capsule 15 by exerting an axial tensile force from the hollow screw 18 detachable and a new pressurized gas capsule can then be reinserted.

On the magazine sleeve 12 there is a circumferential catch 33 for a catch pawl 34 formed, via which an operative connection with the firing device 14 of the weapon is made. The catch pawl 34 is in its engaged position by a spring 35 pre-tensioned with the catch 33 so that this engagement occurs automatically when the magazine case 12 is connected to the handle 36 of the trigger device 14 connected tie rod of the clamping device of the weapon in the one shown in FIG Relative position moved back from the contact position of the plunger 29 with the guide plate 4 will. This backward movement takes place with the assistance of one of the aforementioned Tension rod arranged catch pawl 37! those in the displacement path of the magazine sleeve 12 is arranged and after reading the energy storage device 13 essentially in the same way Momentary magazine sleeve 12 comes into contact, in which the plunger 29 to the guide plate 4 strikes and then the closure body 23 of the control valve to allow gas entry into the barrel bore 3 of the Sealing ring 27 is lifted.

The energy store providing the drive force for the magazine case 12 13 finally includes two compression springs 37 and 38, both on one on the Actuate magazine sleeve 12 abutting piston 39 and in a stepped bore 40 a the piston 39 receiving guide sleeve 41 are supported. The two compression springs 37 and 38 have a different spring behavior, namely one has a compression spring 37 with a shorter spring travel a fairly large spring force and the other compression spring 38 a sufficiently small spring force with a longer spring travel. By the compression spring 37 is therefore triggered by the trigger device 14 when the energy store 13 is triggered the weapon exerts a correspondingly large drive pulse on the magazine case 12, which is ended when the plunger 29 strikes the guide plate 4 or

a grub screw 42 screwed to the piston 39 on a corresponding one Limiting stop 43 of the guide sleeve 41, this limiting stop 43 is formed at the end of a guide slot 44 for the screw 42, which thus in cooperation with the screw 42 at the same time a rotation lock for the piston 39 results. The other compression spring 38 then acts on the closing spring 24 of the control valve contrary, so that the ratio of these two pressure forces is decisive for which Amount of gas from the expansion space 22 is transferred into the barrel bore 3.

This amount of gas can be changed to another value in that the effective support length of the two compression springs 37 and 38 of the energy accumulator 13 can be changed. For this purpose, the remainder of the barrel 1 is distant End of the guide tube inserted guide sleeve 41 with two catches 45 and 46 is provided, in which a pawl 49 loaded by springs 47 and 48 can be engaged. The pawl 49 is pivotably arranged on a pin 50 fixed on the shaft Lever 51 is formed, on which the two springs 47 and 48 also act. Will consequently, this lever 51 is pressed downwards against the force of the springs 47 and 48, then taste it the pawl 49 out of engagement with, for example the catch 45, so that then the guide sleeve 41 against the force of the two compression springs 37 and 38 can be pushed forward until the pawl 49 finally engages 46 occurs. With this shorter support length of the two compression springs 37 and 38 get a higher spring force, so that when the force storage device 13 is triggered a corresponding larger amount of gas emerges from the expansion chamber 22 as soon as the plunger 29 hits the Guide plate 4 has struck. The escape of a smaller amount of gas is meanwhile then guaranteed when the pawl 49 is in engagement with the detent 45.

Finally, it should be noted that instead of the two compression springs 37 and 38 provided energy accumulator, the other than the driving force for the magazine case 12 after triggering the trigger device 14 also the recoil force catches the one when the magazine hitch rushes forward and continues with the actual one Shot firing occurs, other types of energy storage are also conceivable, so in particular Air pistons or pressurized gas bags. The training with the compression springs is meanwhile particularly preferred from the point of view of structural simplicity and further also from the point of view that the dosage of the amount of gas per dispensed Shot can be adjusted most conveniently. There is also training of the control valve is of particular importance, the one on the magazine sleeve on the simplest Way to be sealed arrangement learns, with the different Banjo bolts make it easy to adjust the various seals.

Of course, the closure body of the control valve must be used for this not the pot-shaped design shown with outer guide ribs for guidance on the surrounding wall of the expansion space, training is sufficient for example, as a plate, the actuating plunger still not necessarily must be arranged on the magazine sleeve, but rather an arrangement on the Run can experience.

L e r s e i t e

Claims (18)

Claims gas pressure gun, especially gas pressure rifle, with a Pressurized gas capsule and one for firing the shot, the gas inlet into the with an ammunition channel connected bore of a gun barrel controlling control valve, one against the Force of a closing spring through an axial connection bore to the barrel bore receiving plunger having displaceable closure body, thereby g e -k e n n z e i c h n e t that the pressurized gas capsule (15) in one through the control valve closed magazine sleeve (12) is arranged, which is used for valve actuation by the relatively wear-resistant plunger (29) in the axial direction of the barrel bore (3) an energy storage device (13) which can be triggered by means of the trigger device (14) of the weapon is movable. 2. Gastuck weapon according to claim 1, characterized in that g e k .e n n -z e i c h n e t that the magazine sleeve (12) in a tube (11) attached to the weapon shaft (2) is displaceable, its mouth, which is decisive for the insertion of the magazine sleeve lies in a folding plane provided for the gun barrel (1). 3. Gas pressure weapon according to claims 1 and 2, thereby g e -k e n n z ei c h ne t that the magazine sleeve (12) with outer longitudinal twist grooves is provided. 4. Gas pressure weapon according to one of claims 1 to 3, characterized g e k e n n z e i c h n e t that the energy store (13) is different for at least two large gas dosages at least two correspondingly different large driving forces for the magazine sleeve (12) can be set. 5. Gas pressure weapon according to one of claims 1 to 4, characterized g e k It is noted that the energy store (13) consists of two compression springs (37, 38) consists of which one compression spring (37) has a short spring travel and a large one Spring force and the other compression spring (38) a long spring travel and a small one Has spring force. 6. Gas gun according to claims 4 and 5, thereby g e -k e n n z e i c h n e t that the two compression springs (37, 38) of the energy store (13) are arranged for a common change in their support lengths. 7. Gas pressure weapon according to claim 5 or 6, characterized in that g e -k e n n z e i c h n e t that the two compression springs (37, 38) of the energy accumulator (13) on one Engage the piston (39) held in contact with the magazine sleeve (12). 8. Gas gun according to claim 7, characterized in that g e k e n n -z e i c h n e t that the axial displacement of the piston (39) by a stop (42, 43) is limited. 9. Gas pressure weapon according to one of claims 1 to 8, characterized in that e n n z e i c h ne t that the piston (44) is also used to support the compression springs (37, 38) of the energy store (13) arranged guide sleeve (41) is guided, the adjustable in at least two different positions relative to the magazine sleeve (12) is. 10. Gas pressure weapon according to one of claims 1 to 9, thereby g e k It is indicated that the guide sleeve (41) for the piston (39) of the energy store (13) as the rear end of the guide tube (11) for the magazine sleeve (12) is trained. 11. Gas gun according to claim 9 or 10, characterized in that g e -k e n n z E i c h n e t that the guide sleeve (41) for the piston (39) of the energy accumulator (13) is provided with catches (45, 46) for a spring-loaded catch pawl (49). 12. Gas pressure weapon according to one of claims 1 to 11, thereby g e k It is noted that in the displacement path of the magazine sleeve (12) there is one on the clamping device the weapon attached catch pawl (37) is arranged. 13. Gas pressure weapon according to one of claims 1 to 12, thereby g e k It is noted that the actuating tappet (29) of the control valve is on a with the magazine sleeve (12) screwed guide bushing (28) is guided, the one with the closure body (23) of the control valve cooperating seal (27) carries. 14. Gas pressure gun according to claim 13, characterized in that g e k e n n -z e i c h n e t that the closure body (23) of the control valve and the valve seal assigned to it (27) for the closure of an open connection with the pressurized gas capsule (15) arranged expansion space (22) are arranged against the ram bore (30). 15. Gas pressure weapon according to claim 14, characterized in that g e k e n n -z e i c h n e t that the expansion chamber (22) is screwed into one with the magazine sleeve (12) Hollow screw (20) is formed with which to hold a further seal (19) and the pressurized gas capsule (15) screwed a further thrown-over hollow screw (18) will. 16. Gas pressure weapon according to one of claims 1 to 15, thereby g e k It is noted that there is a piercing tip on the closure body (23) of the control valve (25) is arranged for the closure (16) of the pressurized gas capsule (15). 17. Gas pressure weapon according to one of claims 13 to 16, characterized g e it is not indicated that the actuating tappet (29) of the control valve is related to the closed position of the closure body (23) can be readjusted. 18. Gas pressure weapon according to one of claims 1 to 17, characterized g e k It is noted that one for screwing the control valve and the one on it exchangeably arranged compressed gas capsule (15) formed with the magazine sleeve (12) Banjo bolt (21) for a plug connection with a weapon-proof square hole (32) complementary outer square for loosening and tightening this screw connection having.