DE190057C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The present invention relates to a device based on the expansion of the propellant gases for the automatic opening, closing and locking of straight pull locks without the aid of springs, the movements f being used to eject the empty cartridge case and insert a new cartridge into the barrel. It is already known to use the powder gases to open and close the closure, but the closure and locking of the closure has so far always been done by a spring tensioned during the opening of the closure, so that the safe operation of the device always depends on the quality and durability this spring depended.

The subject matter of the invention is used to distinguish these known devices also causes the closure of the shutter by the gas pressure, namely by a certain amount of gas, which is stored in a piston coupled with the closure and part of which causes the piston to move backwards, while the other part participates in this movement without presenting an obstacle to it and is only released at the end of the return to close the shutter.

A particularly important feature of the present device is that the Bolt remains locked as long as the projectile moves in the course and only when this has left the muzzle, the lock is unlocked. This makes the opening of the closure independent of the load used, so that no matter how high the gas pressure inside, the shutter never opens prematurely can go on. .

The drawings show in Figs. 1 to 3 the new device attached to a rifle in longitudinal section in three different working positions; for the sake of simplicity, all parts are here in one Thought placed in the picture plane and the connection of the recoil piston with the breech only indicated schematically. Fig. 4 shows another embodiment.

With the course 1, a housing 2 is connected, in which the recoil piston 3 to the Can move the length of the cartridge case (or more) backwards. The connecting channel 4 between housing 2 and barrel 1

L,

ends in the latter just before the cartridge muzzle and takes a massive piston 5, which has a gas channel 6 with a branch 7. The piston 5 can be in Channel 4 move and its movement is on the one hand through a step 8, on the other hand limited by the recoil piston 3. The latter is hollow, surrounded by a 9 in two spaces 10 and 11 divided and has a side channel 12 which, when the piston in the position corresponding to the closed position has advanced, facing the channel mouth 4, such that. a tapered shoulder 13 of the piston 5 optionally in the channel '12 enter and thus lock the piston 3 and at the same time the gas channel 6 with the piston chamber 10 can relate. In this latter position the other coincides Opening of the gas channel 6 in the piston 5 with one mouth of a respectively in the housing 2. Connection piece 14 located channel 15, the second end of which is in front of the other The end face of the piston 5 opens into the channel 4. In the other end position of the Piston 5, both mouths of the channel 15 through full wall surfaces of the piston 5 covered; his side channel 7 then coincides with a channel 18, which is below the Housing cover 19 opens out, so that in this case the cavity 10 of the recoil piston 3 is connected to the space 20 of the housing in front of it.

The two spaces 10 and 11 of the recoil piston 3 communicate with one another through a channel 21 , one opening of which is dominated by a valve 22; In addition, the space 11 opens through a channel 23 into a groove 24 on the outer circumference of the piston 3, which groove 24 establishes a permanent connection between the piston interior 11 and a channel 25, which in turn opens into a slide plate 26. The other piston chamber 10 is also permanently connected to the chamber 2, 0 of the housing through a groove 27 extending from the channel 12, which connection is only interrupted by the piston 5 when the latter assumes the position shown in FIG.

On the mirror 26, a slide 28 is movable, which with an extension 29 into the housing space 30 is enough and has a channel 31 with a lateral branch 32. In the one End position of the slide 28 de; kt the mouth of the channel 31 with an opening 33 in the housing, in the other end position of the side channel 32 with the mouth of the Channel 25 in the slide mirror. The slide 28 is by a rod 34 with an am other end of the housing arranged second slide 35 connected to the mouth of a Exhaust duct 36 dominated.

The recoil piston 3 is by a gas-tight outwardly guided rod 37 with the Closure body 38 or, whose handle lever is connected so that the closure is subject to every movement of the piston 3 takes part.

The operation of the device is as follows :

It is assumed that the shot has just been fired. The pressure of the powder gases driving the projectile out of the barrel is also expressed on the piston 5 and pushes it in the channel 4 into its end position shown in FIG holds erriegelt 38 throughout the duration of the movement of the bullet in the barrel \ ^r closure. A part of the powder gases goes through the channel 6 into the cavity 10 of the piston 3 and after opening the valve 22 80 through the overflow channel 21 also into the W space Ii; In these two spaces, as in the channel 23, 25, gas will collect under a corresponding pressure, and indeed the pressure in all spaces will be approximately the same as in the barrel. When the projectile emerges at the barrel muzzle, the efforts of the gases to expand will initially exhaust the amount of gas in the barrel, the amount of gas enclosed in the piston 3 also tends to escape and the result is that the piston S, its opposite side is relieved, is transferred to its other end position. The piston 5 blocks the channel 15, so that the gases now flow from the piston interior through the channels 6, 7 and 18 into the space 20 in front of the piston 3, expand there and transfer it to its other end position, which is possible because the air located on the other side of the piston from the space 30 through passage 31 and opening 33 can blow off §. When the gases pass from space 10 to space 20, the gases in space 11 also seek to puff out, but they cause valve 22 to close as a result of the pressure reduction in space 10. The partial amount of gas located in space 11 thus remains closed. At the end of the decline of the piston 3 no (FIG. 2), an approach 39 of the 'latter pushes against the slide 28 and adjusts it so that the channel mouth 31 is shut off; on the other hand, the side channel 32 coincides with the mouth of the channel 25, so that the gases in the chamber 11 can flow into the space 30 through the channel 23, the groove 24 and the channel 25 behind the piston. Inevitably with the slide 28, however, the slide 35 is also opened by the action of the rod 34, thereby exposing the mouth of the channel 36. The in

. Gases located in rooms 20 can now escape into the air, with the result that the Gases flowing over from piston chamber 11 to chamber 30 due to their higher voltage advance the piston 3 again and thus close the lock again, which in this case insert a new cartridge into the barrel. At the end of this forward movement of the piston 3 another approach 40 pushes the same against the slide 35 and thus leads this together with the Slide 28 back into the other end position. As a result, the gases expanded now exit again from the space 30, so that normal air pressure behind the piston will be produced.

A shot can now be released again, with the play of the device repeated.

To regulate the amount of powder gases that can enter the flask 3, as well as the speed of passage of the gases from the piston chambers into the relevant Cylinder spaces, the channels 15, 18 and 25 are with regulating screws 41,42 and 43 or other throttle and shut-off devices. Through the whole The device can shut off the channels. be put out of action. This controllability the channel cross-sections also make it possible to precisely match the amount and type of operation and working time of the closure used to adapt the powder charge, so that the weapon or its breech of the

. Charge is independent, which cannot be the case with spring locks.

To support the movement of the locking piston 5 from the locking position into the other end position, a Counter-pressure spring 44 may be provided, which acts on the piston 5 by means of a push rod 45; but this spring is also dispensable, especially since the difference in gas pressures is evident both sides of the piston after the bullet has emerged, the unlocking movement is sufficient of the piston 5 bring about. Such an embodiment of the device without an auxiliary spring can be seen from FIG. the latter figure at the same time also a slightly modified design of the slide device illustrated. The piston 3 has at the same flat end faces; the for Connecting rod 37 leading to the closure engages in the center of the piston 3. These carries a through a housing slot 46 reaching arm 47, which to a fork or an end formed into a ring 48 which connects the slides 28 and 35 to one another Rod 34 between two collars or collars 49 and 50 includes. The distance this collar is equal to the stroke length of the piston 3, reduced by the path that the Slide 28 and 35 have to perform at each end of the stroke of the piston 3.

The advantage of this embodiment, which is otherwise exactly the same as that in FIGS. 1 and 3 works shown, only that the ring 48 adjusts the slide 28 and 35 is that the slide rod 34 also engages centrally on the slide 28 and 35 and in the simplification of the piston 3; it is foresighted, as the simplest change for the existing locking devices and is attached to the front running parts for this purpose.

Claims (4)

Patent Claims: 1. Device for automatic opening, Closing and locking the breech of firearms with a straight pull breech by gas pressure, characterized in that there is a locking piston between the cargo space and the recoil piston is switched freely movable, which is adjusted under the pressure of the powder gases so that it the recoil piston prevents it from shifting and keeps it locked until the projectile has left the barrel, whereupon Resetting of the locking piston and thus unlocking of the lock is only possible as a result of the pressure difference can be done. 2. Embodiment of the device according to claim 1, characterized by a hollow piston (3) which is coupled to the closure and which, when the closure is closed, is in communication with the cartridge chamber of the weapon through a channel (4) in which the connecting piston (5) moves , which, equipped with corresponding ' channels (6,7) , is pushed into the locking position by the developing gases after the cartridge has been fired, thereby locking the recoil piston (3) on the one hand with a shoulder (13) and on the other hand through its channel (6 ) brings the cavities (10, 1.1) of the recoil piston, communicating through a valve (22), into connection with the loading space, so that during the entire duration of the projectile movement in the course of the piston chambers (11 and 12) gases are entrained Can store pressure, whereupon, as soon as the projectile has left the barrel, as a result of relieving the locking piston (5) of the latter through the gases now seeking to escape from the piston chambers into the moved to other end position, thereby unlocking the recoil piston and its chamber (10) with the housing space (20) in front of the piston (3) is brought into communication, so that the gases in overflow the latter space and push back the piston (3) by opening the closure, whereby at the end this recoil movement the second KoI-benkammer (11), which as a result of closing of the valve (22) due to unilateral relief when gas escapes from the other Chamber (10) has locked itself by adjusting a slide (28) in connection with the space behind the piston (3) so that the gases from the chamber (11) behind the piston (3) flow and can push this together with the closure back into the closed position by the expansion effect. 3. Embodiment of the device according to claim 2, characterized in that that the connection of a piston chamber (11) with the one behind the recoil piston (3) located space (30) mediating slide (28) in its other end position the last-mentioned space ^a 5 (3 °) ^with the outside air in order to put no resistance against the return of the piston (3), and that this slide (28) is connected to a second slide (35) working at the opposite end of the housing, the the housing space (20) in front of the piston (3) communicates with the outside air while the piston is advancing again, for the purpose of allowing the piston (3) to also perform this movement without hindrance, with the joint switching of the slides (28 and 35 ) each time at the end of the stroke by internal lugs (39 and 40) of the piston (3) that act directly on the slide, or by a finger (47, 48) that acts on collars (49, 50) of the slide connecting rod (34). 4. embodiment of the device according to claim 1 and 2, characterized in that the bypasses, by g \ velche the powder gases behufs Hervorbrin- "supply emphasize their various work performance, are equipped with regulating means to the overcurrent velocity of the gases and thus the working speed of Adjust the locking device and adapt it to the respective load. 1 sheet of drawings.