DE19601864A1 - Gas pressure weapon - Google Patents

Abstract

The weapon has a recoil compensator with at least one compensation mass (37) which, through the gas pressure activated on firing, is driven relatively to the grip in the opposite direction of that of firing movement. This causes the impulse acting on the grip as the result of the movement of the projectile in the barrel to be reduced and the at least one compensation mass is movable relatively to the barrel. From the gas channel which conducts the gas pressure to the area behind the projectile ready to be fired, a channel leads to the compensation mass.

Description

The invention relates to a gas pressure weapon in the preamble of claim 1 specified Art. Such weapons, simpl accordingly also referred to as air pressure weapons, are at Wett fight where it depends on a high accuracy comes with bullets used in diabolo form. When betting Combat weapons has now become such a system men who already have a Shot the gas under high pressure to expel of the floor is available, be it in the form of Koh Oxygen or compressed air, all of which are attached to the weapon screwed pressure vessels are included, be it as a weapon with pre-compression, in which the shooter ei nes shot by operating a lever under high Air creates pressure required to fire this shot.

With competition weapons of the type described, an egg is made The effect similar to a recoil is noticeable  is based on that of the shooter with one hand (pistol) or weapon held with two hands (rifle) an impulse in Experience reverse direction, which according to the momentum law exactly is equal to the impulse that the projectile in the barrel in its Experiencing forward direction. In addition to the sensation of this impulse It can also affect target safety as unpleasant especially with air pistols that only have one Are held, and in which (if one assumes that the center axis of the barrel lies above the hand) this pulse when firing the shot after the muzzle of the weapon hikes upstairs.

The invention has for its object a weapon to create the type described above, in which the schil second impulse on the hand (hands) or the shoulder the shooter acts, reduces or even completely prevents is.

This object is achieved according to the invention in that that the weapon has a compensation device with at least has a compensation part through which the floor driving gas pressure relative to the handle in one essentially Rich opposite to the direction of projectile movement tion is drivable, such that the result of the handle the momentum of the projectile moving in the barrel ver wrestles.

In terms of the compensation effect, it would theoretically be the most most effective if you have the compensation part exactly in axia Arrange the barrel extension behind it so that it can move could because then the momentum of the projectile according to amount and Direction can be fully compensated without difficulty could. If, on the other hand, you only have one compensation part laterally offset from the longitudinal axis of the barrel arranges as featured in one embodiment of the invention  see, there is still a spin as an effect of the impulse impulse back on the weapon, which is not disturbing bar makes. However, in another embodiment of the invention on diametrically opposite sides of the A compensation part is provided for each axis of the barrel.

This is because the compensation part be relative to the handle is only arranged when the floor is in the way pulse is not fully compensated, another pulse the handle and thus transferred to the shooter's hand.

It may be appropriate in one embodiment of the Er finding the entire shooting system including that high-pressure air-producing pre-compression pistons rela tiv easily to the handle to store, as is also the case with the well-known weapons from Feinwerkbau Westinger & Altenburger GmbH & Co KG with spring-driven compression piston and with a coated system is known. In doing so the barrel and the parts firmly connected to it the compen station part.

As already mentioned, the compensation part is preferred Ten embodiments of the invention move relative to the barrel Lich.

The path that the compensation part travels until the Ge shot leaves the barrel, the smaller the bigger the Mass of the compensation part is. It is therefore advantageous the mass of the compensation part is many times larger as the bullet mass (a diabolo bullet of caliber 4.5 mm weighs about 0.5 g). It is then easier to a suitable path of movement for the Kompensa on the weapon tion part to provide, it should be borne in mind that for the most of the air pressure weapons in question here, insofar as they certain dimensions can be used for competition purposes  and weights must not be exceeded.

In the embodiment according to claim 3 it is advantageous that the gas pressure for moving the compensation part is effective is as soon as the firing valve when pulling the trigger Gun has been opened.

It may be advantageous to make the arrangement so that the compensation part at least at the beginning of its movement is largely unchecked. A completely smooth movement delivery will be difficult to achieve. As a brake can in particular the airtight seal of the Kompen sationteils act, since this also by the Ge lap moving gas pressure must be moved. Such Sealing comes, as does a relatively large mass the compensation part, the propulsion of the projectile, because then only a relatively small part of the form of pressurized gas available energy to move of the compensation part is consumed.

Too much friction of the compensation part against you weapon-fixed part (i.e. not moving relative to the barrel part) would have the consequence that the effect of the impulse same thing is reduced.

It is believed that for the sufficient effect of the It is important to balance the momentum that the cross-section of that gas channel leading to the compensation part, min is almost as large as the inside cross section of the Runs; would be the cross section of the lead to the compensation part channel is much smaller, this would have the effect as if the barrel was almost complete at its rear end would be closed, and this would be effective for an Impulse compensation is a hindrance. For the same reason the gas channel leading to the compensation part also one  have relatively low flow resistance.

In one embodiment of the invention, at least one Compensation part a movably arranged additional comm assigned compensation part, which in the way of the associated com is arranged at the beginning of the movement of the associated compensation part from this at a distance points and can be driven by this, preferably by means of an elastic element, such as a spring, preferably Helical compression spring, and / or by mechanical (elastic or inelastic impact. The spring could also be a Be an air cushion.

It is understood that the mechanical shock rather than by un indirect encounter of the compensation parts too by jibs protruding from one of the two parts and something similar could be effected. In this embodiment the first mentioned compensation part moves and this then hits the further compensation part, compared to a weapon-proof part, for example that Run, could be run completely smoothly, or else with friction. The type of impact should initially be assumed that it is a completely inelastic shock delt. In this case, they then move towards each other assigned compensation parts in contact with each other backwards (relative to the direction of movement of the projectile ses, where their common speed is less than that of the first-mentioned compensation part before the together meeting). If the way until the two abutted compensation parts at a stop (spring loaded or rigid) come to the plant, is long enough, so an effective compensation of the projectile in the pulses are maintained during a time that he is considerably longer than the shot development time (time to to leave the barrel of the projectile) of about 5 to 6 ms.  

A delay in the impulse acting on the shooter only about 10 to 20 ms is considered insufficient.

In another embodiment, the first mentioned occurs Compensation part on the further compensation part with egg an elastic joint (the surfaces meeting each other are made of high-quality steel or highly elastic, for example plastic). After the impact, this moves towards first mentioned compensation part in the direction of the abge shot floor. To take this part of the path of the first called compensation part for the delay of the further Making the compensation part usable is the first Compensation part with the other compensation part a brake coupled so that finally part of the movement supply energy of the first-mentioned compensation part and another compensation part converted into thermal energy becomes. Different designs are now possible. Either the arrangement is made so that the first called compensation part when moving in weft no longer comes into contact with a fixed stop, because the kinetic energy is used up beforehand, or else comes to rest on a stop with an elastic joint and bounces back again, when when its movement speed is still greater than that of the further Compensation part, it approaches this, in which the brake coupling the two parts again heat is produced. It may well be that he is from that first mentioned compensation part in the just mentioned Impact transmitted to the weapon during its forward movement Impulse for the shooter has no disruptive effects. The described rebound of the first-mentioned compensation on part of the further compensation part with elastic High speed shock is supported by the fact that the further compensation part has a larger mass than that ordered compensation part.  

Because in the last construction described movement gie is converted into heat in the brake, the by this brake did not cause friction against a weapon fixed part (relative to the running fixed part) is effective, son which only acts between the two compensation parts the path that in total for the movement of the further Kompen sationsteil must be available, smaller who chosen than the elastic shock mentioned above.

If, as is provided in one embodiment, for another compensation part one against a weapon-fixed Partly acting braking device is present, it acts theoretically the most perfect possible balance of the Ge shot pulse counter; hence this influence in practice remains low, the braking effect must be correspondingly small. The braking device (s) mentioned can be used for this ensure that the moving parts of the compensation device not undesirable in normal handling of the weapon change their position before firing the shot.

The above-mentioned spring can advantageously be dimensioned in this way be that they already move the further compensation part offset before the first mentioned compensation part there strikes, or it completely prevents a striking what can be useful for noise reduction. Furthermore the spring can easily ensure that the com compensation parts before firing a desired minimum Distance from each other. The spring can, even if it is a compression spring with the parts coupled through it (namely the compensation parts) to be connected tensile to limit the maximum distance of these parts.

The compensation part or the compensation parts must ir be guided or stored in a movable manner. The part that  performing this function is generally called the housing of the Denotes compensation device; it doesn't have to be necessarily be an additional component, but it appears possible, e.g. B. holes for the sliding La the compensation parts into an existing one Weapon part to bring.

A reset device expediently ensures that the Compensation device is functional before firing a shot. The reset device can be advantageous with the movement a breech of the weapon be coupled so that late least when closing the closure part the compensation device becomes functional. The shooter can also after loading a floor just by opening and stuff continued closure of the lock before compensation bring direction to its starting position, even if before the shooter z. B. by a hard blow to the weapon correct starting position of the compensation device ver has changed.

If the housing of the compensation device on the Ver final part is fixed, so that it deals with this moved, the displacement of the compensation parts in their Starting position in a particularly simple manner by a Fixed stop on the weapon is done by the Kompen is moved in the direction of the stop, the stop comes to rest on the compensation part and when moving the housing forward the compensation direction the compensation part inside the housing shifts relative to this. In the final forward moving the closure part together with the housing changes then the compensation part due to frictional forces its La not relative to the housing.

Further features of embodiments of the invention are described  sen with the constructive training of the former Compensation part and the further compensation part.

Further features and advantages of the invention result from the following description of exemplary embodiments of the Invention with reference to the drawing, the essential to the invention Shows units, and from the claims. The individual Merk Male can be used individually or in groups of any number ger combination in one embodiment of the invention be real. Show it:

Fig. 1 a longitudinal section, partly broken away, of an air gun with precompression, which contains a compensation device,

Fig. 2 is a cross-sectional view of the rifle of FIG. 1 showing the clamping lever,

Fig. 3 a longitudinal section of a first assembly for the projectile Kom compensate pulse,

Fig. 4 in a longitudinal section a second arrangement for compensating for the projectile pulse,

FIGS. 5a to 5c the basic procedure of compensation.

The drawing is just a non-scale principle view representation.

In Fig. 1 and 2, a rifle 1 , namely a match air pressure rifle with pre-compression, a handle 2 , a barrel 3 with bullet bearing 4 at its rear end, and a moveable breech part 5 , from the closed position shown can move backwards (right in Fig. 1) in an open position. This takes place automatically when a tensioning lever 6 is pivoted in order to provide air at high pressure by moving a compression piston 8 . In this case, a linkage 9 coupled with the tensioning lever 6 causes a loading flap 10 , which can be pivoted about a pin 11 , to open in a clockwise direction, as a result of which a tension spring 12 moves the closure piece 5 to the rear. The shooter can open the tailgate by hand if necessary. He closes them by hand after loading and thereby also closes the closure piece 5 . If a trigger 13 is actuated, an impact piece 15 loaded by a compression spring 14 is hereby released and strikes a shot valve 16 and opens it. As a result, the com compressed air from a room 17 via a channel 18 in egg nen channel 19 in the closure piece 5 and from there to the Geschoßla ger 4th

Fig. 3 shows a view from above. The barrel 3 ( Fig. 1) of the weapon closes with its storey 4 , into which a diabolo projectile is to be inserted by hand, to an air outlet opening 21 in the closure part 5 , in which air is under high pressure when the shot is fired is supplied through the channel 19 , exits. Symmetrically on both sides of the closure part 5 , two completely equal pulse compensation devices are arranged, which are arranged diametrically opposite one another with respect to an axis 29 of the barrel 3 . Another air duct 31 goes from the air duct 19 to each pulse compensation device 27 , which continues there in a duct 32 in the extension of the further air duct 31 . The channel 32 opens into a parallel to the axis 29 extending a gas cylinder Boh tion 35 , in which a compensation part 37 with a serving as Kol ben rod-like end part 39 is slidably inserted, which is formed at its front end portion as an O-ring piston seal 41 carries, which forms the seal ge compared to the wall of the bore 35 .

The two compensation parts 37 are shown in their front end position, which is limited by the stop of a stop disc 43 on a stop surface 45 of the part 28 containing the bore 35 . On the part 28 , a circular cylindrical tube 47 is fastened, which has a hole 49 on its side facing the closure part 5 . The compensation part 37 has an axially identical rod-shaped extension 51 to the end part 39 , which makes the main part of the mass of the compensation part 37 in the game. The extension 51 goes through a substantially hollow cylindrical, formed from two parts 53 , 55 and interposed O-ring 57 further Kom compensation part 59 therethrough. The parts 53 and 55 are relatively approachable and removable by means of a thread 61 , and in a cavity formed between them, which can be reduced or enlarged by mutual rotation of the parts 53 and 55 , the O-ring 57 is inserted and is depending on the setting of the parts 53 and 55 relative to each other with different force on the outer wall of the outer cylindrical extension 51 and thus forms an adjustable against this friction brake. The further compensation part 59 can be moved in the tube 47 with little friction.

Been during tensioning of the weapon by means of the tensioning lever the Kom are pensationseinrichtungen 27 to the position shown in Fig. 3 From brought gear position in which the stop plate 43 abuts the part 28 and the additional compensating part 59 slice a distance ª of him facing surface of the stop 43 has. In this position, the compensation parts have been brought about by the fact that when the clamping lever is actuated, the closure piece moves backwards (because the loading flap 10 springs open) and thereby the compensation devices are moved backwards. A transverse pin 63 which is immovable with respect to the handle 2 and which extends somewhat into the interior of the tubes 47 shifts the compensation parts into their starting position. The further compensation part 59 has a smaller distance from the stop washer 53 than from the free end 65 of the compensation part 37 ; the end 65 is approximately where the cross bolt 63 is in the rest position of the tensioning lever. In the above-mentioned clamping operation, the compensation element 37 has been brought into its starting position, in which the stop disc 43 abuts the part 28 .

The cross pin 63 forms a limitation of the path which the further compensation part 59 can cover when it moves backwards (to the right in FIG. 3). The arrangement is such that the further compensation part 59 either does not reach the cross bolt 63 when firing the shot, but previously comes to a standstill due to frictional forces, but nevertheless travels the longest possible way to work with a relatively low friction relative to the tube 47 and to the fact th the effect on the hand that is transmitted through this frictional force of the shooter, low to hal. Or the more compensation portion 59 is in its backward movement of the transverse pin 63 stops. This should be done at a time that is as long as possible, but at least about 20 ms or preferably longer, after the time at which the projectile has left the barrel, so that the impairment of the shooter is kept to a minimum and the shooter is particularly relieved of it can judge the target to be hit.

The operation of the arrangement shown in Fig. 3 is as follows. Starting from the position shown in Fig. 3, in which the weapon, as already said, should be cocked and ready to fire, with a projectile in the barrel, the shooter releases when the weapon is held horizontally, as is common in such weapons , the shot off. Since the high-pressure air comes through the air duct 19 and flows on the one hand into the barrel to drive the projectile there, on the other hand through the further air ducts 31 and 32 in the end region of the bores 35 , where they are on the front, as the piston surface acting end of the compensation part 37 meets. Due to its mass, which is considerably larger than that of the projectile, it is thrown backwards at a lower speed than the speed of the projectile. The stop disc 43 strikes the front surface 69 of the part 53 of the further compensation part 59 , in the example with an elastic shock. In the example, the further compensation part 59 is provided with a larger mass than the first-mentioned compensation part 37 . Therefore, the first-mentioned compensation part 37 bounces back after it has transferred part of its kinetic energy to the further compensation part 59 . This moves it backwards. The movement of the first-mentioned compensation part 37 just initiated is slowed down by the friction of the O-ring 57 on the extension 59 , at the same time this braking counteracts the movement of the further compensation part 59 . Part of the kinetic energy of the compensation part and the further compensation part is converted into heat. In the example it is assumed that the washer 43 no longer reaches the part 28 when it hits the white compensation part 59 following the forward movement, but that all parts have come to a standstill beforehand.

Depending on how large the frictional force of the O-ring 57 on the extension 49 on the one hand and the frictional force between the further compensation part 59 and the tube 47 , it may be that the first-mentioned compensation part 37 already before the impact on the further compensation part 59 ses has moved at a low speed by means of the frictional force exerted by the O-ring 57 . This frictional force may be felt at least in theory by the shooter's hand when the shot is triggered, at least in theory; However, it is ring with suitable construction and adjustment of the frictional forces so that the shooter is in no way irritated. In the example, all parts shown with the exception of the O-rings are made of metal, namely steel. It may be advantageous, also for reasons of noise reduction, to cover the parts striking each other with highly elastic plastic.

The further exemplary embodiment shown in FIG. 4 differs from FIG. 3 only with regard to the compensation parts, the reference numerals of which are 100 higher in comparison to FIG. 3.

A compensation part 137 engages with a rod 139 with a gas-tight fit without a separate sealing element and is displaceable in the bore 35 of the part 28 . The rod-like extension 151 is shorter than in FIG. 3 and serves as a holder for a spring 170 formed as a helical compression spring, which is connected to the compensation part 137 and the further compensation part 159 in a tensile manner. The rod 151 goes without friction in a correspondingly large cen trical recess of the further compensation part. The desired friction between the further compensation part 159 and the inner surface of the tube 47 is effected by two friction pieces 171 made of plastic, which are arranged in a transverse bore 172 of the further compensation part 159 and are acted upon by a compression spring 173 . The dimension ª can be chosen in a suitable manner. A value ª = 0 corresponds to an arrangement in which the two compensation parts 137 and 159 are immovable and firmly connected to each other.

Before the shot is fired, the parts have the position shown in the upper part of FIG. 4. When firing the shot, only the compensation part 137 moves to the rear, tensioning the spring 170 , so that the further compensation part 159 is accelerated backwards before the first-mentioned compensation part hits. The spring 170 prevents such an impact. After all the parts have come to rest, they have the position shown in the lower part of FIG. 4, in which the cross bolt 63 acts as a stop. The rod 139 is not completely out of the bore 35 th. The parts are reset in a similar manner to that described in FIGS. 5a to 5c. The spring 170 brings the com pensation part 137 into its starting position shown in FIG. 4 above.

In FIGS. 5a-5c is shown an arrangement with only one side of existing compensation device. An arrangement with only one compensation part 237 corresponding to ª = 0 is shown, which has a piston rod 239 .

Fig. 5a shows the arrangement with the weapon cocked before firing a shot, a projectile 200 is drawn for illustration. The compensation part is located at the front stop.

Fig. 5b shows the arrangement after the shot. The Kompensati onteil has moved backwards and has come to the Querbol zen 63 'to the system.

In Fig. 5c, the breech has been opened and has moved back, the weapon part 28 , which is firmly connected to the breech 5 and which belongs to the housing of the compensation device, also has been moved to the rear. The cross pin 63 'prevents a displacement of the com pensation part to the rear and moves this within the tube 47 until it has taken its foremost position relative to this. If the closure is then closed, the part 28 moves with the closure piece 5 to the front, the position of the compensation part within the tube 47 not changing because of the frictional forces. In any case, when there is no projectile in the barrel (and not a shot is being fired), or when the breech is open, atmospheric pressure prevails at the front end of the piston rod 239 , however in the area between the compensation parts.

Claims (18)

1. Gas pressure weapon, in which a projectile is fired from a barrel of the gun by a high-pressure gas from a barrel, in particular weapon with a reservoir for carbon dioxide or for air under high pressure or weapon with pre-compression, with a handle for holding the Weapon with at least one hand, characterized in that the weapon has a Kompensationsvor direction with at least one compensation part ( 37 ) which can be driven by the gas pressure driving the projectile relative to the handle in a direction essentially opposite to the projectile movement direction, such that that the momentum acting on the handle due to the movement of the projectile in the barrel is reduced. 2. Weapon according to claim 1, characterized in that the at least one compensation part ( 37 ) is movable relative to the barrel. 3. Weapon according to claim 2, characterized in that a gas channel that pushes the gas pressure into the area behind the Storey (in which a Ge lap is located) conducts a channel to the compensation direction leads. 4. Weapon according to one of the preceding claims, characterized in that two compensation parts ( 37 ) on opposite sides of the longitudinal axis ( 29 ) of the barrel are arranged. 5. Gun according to one of the preceding claims, characterized in that the compensation part ( 37 ) is largely unrestrained at least at the beginning of its movement. 6. Weapon according to one of the preceding claims, characterized in that at least one compensation part ( 37 ) is assigned a movably arranged further compensation part ( 59 ) which is arranged in the path of the associated compensation part ( 37 ) at the beginning of the movement of the associated Compensation part ( 37 ) has a distance from it and can be driven by it, preferably by means of an elastic element, in particular a spring. 7. Weapon according to claim 6, characterized in that the further compensation part ( 59 ) can be driven by mechanical (elastic or inelastic) shock, optionally without a spring. 8. Weapon according to one of the preceding claims, characterized in that a braking device ( 57 ) for the com pensation part and / or the further compensation part ( 59 ) is provided. 9. Weapon according to claim 8, characterized in that the Brake device acts against a weapon-fixed part. 10. Weapon according to claim 8 or 9, characterized in that the braking device ( 57 ) acts against the compensation part ( 37 ). 11. Weapon according to one of claims 6 to 10, characterized in that the further compensation part ( 59 ) has a larger re mass than the associated compensation part ( 37 ). 12. Weapon according to one of the preceding claims, characterized in that the mass of the compensation part ( 37 ) or the total mass of all compensation parts ( 37 ) is considerably larger than the mass of the projectile. 13. Weapon according to one of the preceding claims, characterized in that the compensation part ( 37 ) has a piston (rod 39 ) which slides in a sealed manner in a bore ( 35 ), one end of which is connected to a gas channel ( 23 ), which supplies the high pressure gas to the inside of the barrel. 14. Weapon according to one of the preceding claims, characterized characterized in that the compensation device is a housing has, in which the compensation part guided is. 15. Weapon according to one of the preceding claims, characterized characterized in that a reset device is provided is that the compensation device in a pre-shot the necessary initial state. 16. Weapon according to claim 15, characterized in that a between an open and a closed position movable closure member is provided, and that the back adjusting device is coupled to the closure part. 17. Weapon according to one of the preceding claims, characterized characterized in that a between an open and a ge closed position movable closure member provided is in which there is a gas channel through which the pressure gas with the closure part closed to the storey ge arrives, and that the housing of the compensation device the closure part is arranged and movable with this. 18. Gun according to claim 1, in which before triggering a Shot gas or air under high pressure for driving the Projectile is present, characterized in that the Run at the latest when firing a shot relative to Handle is slidably mounted so that the barrel forms at least part of the compensation part.