DE3713968A1 - Firing weapon operated by compressed gas - Google Patents

Abstract

The valve of a firing weapon which is operated by compressed gas, for example an air-pressure rifle consists of a membrane seal (diaphragm seal) which is arranged in a channel leading from the compressed-air cylinder to the barrel bore. The channel has a perforation into which the membrane seal is pressed from the outside with the aid of an operating element which can be displaced transversely with respect to the channel, and thus closes the channel. In the closed position, the operating element is held by a retaining catch which is connected to the trigger of the weapon. When the trigger is operated, the retaining catch is released, so that the tensioned membrane seal can spring back and can open the channel for the passage of air. The membrane seal according to the invention enables direct, unimpeded flow of air from the compressed-air cylinder to the barrel bore, and virtually vibration-free firing. In consequence, the firing accuracy of the weapon is improved.

Description

The invention relates to a compressed gas-operated firearm, ins special sport weapon, with a valve that by actuation the trigger is opened so that the compressed gas via a Ka flow to the barrel bore and the bullet is released from the barrel can.

In the known firearms of this type are usually Valves with a valve plate used with the help of a Spring is pressed onto the valve seat and the space in which the compressed gas is located, against the gun barrel tet. A valve tappet connected to the valve disk acts together with a spring-loaded impact piece, which by Trigger is triggered. This is true Impact piece on the valve tappet and opens the valve against the force of the valve spring. The valve locking force that acts on the valve plate, is often caused by the gas pressure is increased if it is a weapon that the gas is stored under pressure. In this case there is a considerable energy expenditure is required to open the valve Lich. The higher the required impact energy, the more the vibrations of the weapon are also greater, if that Impact piece to trigger the shot on the valve lifter hits. These shocks affect the shot precision of the weapon. Another disadvantage of known valve designs is that the gas at Flow through the valve and on its way from the valve to Gun barrel sometimes has to be redirected several times. Thereby energy and time are lost.

The invention is therefore based on the object for the gangs mentioned firearm to create a valve that one Shock-free shooting as possible and a low shot development time guaranteed.

According to the invention, this object is achieved in that the Valve consists of a membrane seal arranged in the channel, with the help of an actuator across the flow Direction of the gas from an open position to a closed position Position is movable in which the flow cross-section of the channel is sealed gas-tight.

To insert the membrane seal into the flow path of the Gases has the channel arranged transversely to the longitudinal direction th breakthrough in which the membrane seal from the outside protrudes.

A particularly good seal is achieved in that the opening open at the bottom is spherical and the head of the actuator also a breakthrough has a corresponding spherical shape.

According to a further feature of the invention, the membrane is made seal made of an elastic, thin-walled material that itself in the closed position of the spherical shape of the opening and adapts the head of the actuator.

The actuator is used to open and close the valve Slidably mounted and is transversely to the longitudinal axis of the channel by a pawl in the clasp coupled to the trigger position held.

To automatically open the valve after triggering the To reach the pawl, the elastic membrane seal cocked in the closed position and acts with its specific  Spring force in the opening direction on the actuator.

To increase the valve opening force, an additional Fe of the provided that the actuator in opening direction applied.

To create a straight, free of deflection and unimpeded flow to reach the gas are from the valve to the moving hole channels leading coaxially with the bore arranges. In a version with behind the gun barrel the pressure gas tank can all channels from the Druckgasbe Lead the holder to the barrel bore, coaxial with the barrel bore be arranged.

The advantages achieved with the invention are in particular re in that due to the relatively small mass of the moving Valve parts and by eliminating the usual striking piece the shocks of the weapon when fired are only slight are. The valve according to the invention also enables an uneven prevented, deflection-free flow of gas through the ge opened the valve to the coaxial bore. These measures result in a very low weft development time, which in connection with the approximately shattering guarantee a very high shooting precision accomplishes.

The invention is in the following description and the drawing tion, which represents an embodiment, explained in more detail. Show it

Fig. 1 shows a section through the valve in the closed-end position,

Fig. 2 shows a section through the valve of FIG. 1 in the open position and

Fig. 3 is a section according to the line III-III through the valve of FIG. 2.

In the frame 1 of an air pressure weapon, not shown, a channel 2 is arranged, which is connected to the compression chamber 3 of a compressed air cylinder 4 . In the Druckluftzy cylinder 4 , a piston 5 is guided longitudinally displaceably in a known manner with the aid of a clamping lever. The channel 2 leads via a further channel 6 , which is arranged in a pivotable locking flap 7 , to the rear end of the barrel bore 8 . In the closed position of the closure flap 7 shown in FIG. 1, the channels 2 , 6 and the bore 8 lie on a common longitudinal axis 9 . The Ka channel 2 has a transverse to its longitudinal direction, downwardly open opening 10 for receiving an elastic membrane's seal 11 , which is adapted to the spherical shape of the opening 10 . The membrane seal 11 is held in the frame 1 by a clamping piece 12 which is screwed into a threaded bore 13 of the frame 1 and with its end face presses the edge 14 of the membrane seal 11 firmly against a collar 15 of the frame 1 .

In the clamping piece 12 , an actuator 16 is mounted axially displaceable transversely to the longitudinal axis 9 of the channel 2 . The actuating member 16 has at its channel 2 facing En de a spherical head 17 which is adapted to the spherical shape of the opening 10 . In the Darge shown in Fig. 1 closed position of the actuating member 16 is held by a pawl 18 which is connected via a trigger rod 19 with the trigger device, not shown. In this position, the head 17 presses the membrane seal 11 into the opening 10 . This achieves a gas-tight closure of the channel 2 , which prevents the compressed air from the compressed air cylinder 4 to the bore 8 can flow.

To fire the trigger is actuated and the pawl 18 is removed from the catch 20 of the actuator 16 . Under the spring tension of the membrane seal 11 , the actuator 16 is moved downward and the flow in channel 2 is released ( Fig. 2). The air can flow from the Druckluftzy cylinder 4 to the barrel bore 8 and drive the projectile 21 out of the barrel.

The valve is closed either by a separate lever or by the cocking lever of the air rifle, which moves the actuating member 16 via a linkage 22 and an angle lever 23 upwards into the closed position until the holding pawl 18 engages in the catch 20 of the actuating member 16 and this holds in the closed position of the valve ( Fig. 1).

To support the valve opening force, in addition to the spring action of the diaphragm seal 11, a spring can be provided who tries to push the actuator 16 down into the opening position.

The application of the valve according to the invention is not on Air guns are limited, but can also be more beneficial Way used in CO₂ weapons. The valve by a closing spring constantly in the closed position being held. The valve is fired by Be trigger is opened briefly and by closing spring closed again automatically, so that only one specific te, precisely metered amount of gas can reach the barrel bore.

Claims (9)

1. Compressed gas-operated firearm, in particular sports weapon, with a valve which is opened by actuating the trigger, so that the compressed gas can flow through a channel to the barrel bore and drive the projectile out of the barrel, characterized in that the valve consists of a in the channel ( 2 ) on ordered membrane seal ( 11 ), which can be moved with the help of an actuator ( 16 ) transversely to the flow direction of the gas from an open position into a closed position, in which it closes the flow cross-section of the channel ( 2 ) gas-tight. 2. Compressed gas-operated firearm according to claim 1, characterized in that the channel ( 2 ) has a transverse to the longitudinal axis ( 9 ) arranged opening ( 10 ) into which the membrane seal ( 11 ) protrudes from the outside. 3. compressed gas-operated firearm according to claim 1 or 2, as by in that the formed spherically to open the bottom opening (10) and the head (17) having the actuating member (16) the opening (10) ent speaking spherical shape. 4. Gas-operated firearm according to one of claims 1 to 3, characterized in that the membrane seal ( 11 ) consists of an elastic, thin-walled material which is in the closed position of the spherical shape of the opening ( 10 ) and the head ( 17 ) of the actuator ( 16 ) fits. 5. Pressurized gas-operated firearm according to one of claims 1 to 4, characterized in that the actuating member ( 16 ) transversely to the longitudinal axis ( 9 ) of the channel ( 2 ) is mounted displaceably and by a holding pawl coupled with the trigger of the weapon ( 18 ) in the closed position is held. 6. Compressed gas-operated firearm according to one of claims 1 to 5, characterized in that the elastic membrane fire direction ( 11 ) is tensioned in the closed position and acts with its specific spring force in the opening direction on the actuator ( 16 ). 7. Pressurized gas-operated firearm according to one of claims 1 to 6, characterized in that the actuating member ( 16 ) is acted upon by a spring in the opening direction. 8. compressed gas-operated firearm according to one of claims 1 to 7, characterized in that arranged by the valve (11, 16) leading to the barrel bore (8) ducts (2, 6) coaxial with the barrel bore (8). 9. compressed gas-operated firearm according to one of claims 1 to 8, characterized in that all the channels which are arranged in the same axis with the barrel bore (8) leading from the compressed air cylinder (4) to the barrel bore (8).