RU2155925C1 - Double-action revolver with subsequent automatic cocking - Google Patents

Abstract

FIELD: arms equipment, applicable in shooting sport, in army and in law-enforcement bodies. SUBSTANCE: the revolver has a trigger mechanism, cylinder revolving mechanism, which also feeds it forward and has a rod with a spring placed in a gas chamber. The gas chamber communicates with the bore through a gas vent. The trigger mechanism is provided with a sear and a slide stop for holding the cock at cocking irrespective of the trigger position, the cylinder revolving and forward feed mechanism is installed for actuation by cock movement. EFFECT: enhanced rate of fire and reduced recoil energy. 1 dwg

Description

 The invention relates to weapons technology and is a double-action revolver followed by an automatic platoon.

Single action revolvers are known that allow each shot to be fired only after the cocking of the trigger directly. /1/
The disadvantage of such revolvers is the low rate of fire and the possibility of violating the uniformity of the gunner’s grip on the weapon’s handle, which affects the accuracy of shooting.

Self-cocking revolvers are known, firing from which is fired directly without first cocking the trigger, and by pulling the trigger, which simultaneously cockes and lowers the trigger. / 1 /
Self-cocking firing increases the rate of fire, but worsens accuracy, since it requires the use of a large effort to pull the trigger during its long course.

Double-action revolvers are also known, the mechanisms of which allow both of the above methods of firing, without eliminating however their inherent disadvantages. /1/
Some revolver systems are also known, for example, the Webble-Fosbury automatic revolver of 1896, in which the cocking and turning of the drum is automated by using the recoil energy during the long stroke of the upper part of the frame with the barrel and drum. /1/
The main disadvantage of such systems is the significant mass of moving parts of the mechanism, the inertia of which makes the weapon unstable when firing, which in turn degrades accuracy.

A revolving-type shotgun device is known, referred to as a "Semi-automatic firearm with a gas-driven drum rotation." / 2 /
In this device, the rotation of the drum is carried out by a spring-loaded ratchet connected with a screw thread on the piston rod moving under the influence of powder gases entering it through the gap between the breech section of the barrel and the front end surface of the drum at the moment when the breech section of the barrel is blocked by a bullet that has left the chamber of the drum . A piston with a rod is placed inside the drum and is its axis of rotation. Simultaneously with the rotation of the drum, due to the action of the piston rod, the cock is cocked and, due to the pressure of the powder gases, the spent cartridge is extracted from one of the drum chambers into the specially designed cavity for this purpose in the butt. At the same time, another cartridge is fed into another drum chamber, previously freed from the spent sleeve, from the tubular magazine, also located in the butt. The drum is fixed in the required position by a spring-loaded ball entering spherical recesses on the side surface of the drum.

 Along with possible advantages, such as multi-charge and rate of fire, this design also contains undoubted drawbacks that can lead to its overall inoperability.

 The main disadvantage is the lack of a separate gas chamber, specially designed to accommodate a piston with a rod and a spring and not having access to powder gases from nowhere except from the bore. In this design, the powder gases after the shot, before entering the barrel bore after the bullet, penetrate through the gap between the breech section of the barrel and the front end surface of the drum into the space bounded by the front end surface of the drum and the frame with cheeks with an annular collar into which the drum rests, which can conditionally be called a gas chamber. The specific pressure of the powder gases, perceived by the surfaces bounding the gas chamber, is a constant value. The pressure force of the powder gases acting on a particular surface, the greater, the greater the surface area. And since the area of the front end surface of the drum is much larger than the area of the end surface of the piston, the pressure of the powder gases will slow down the drum more than bring it into rotation.

 The disadvantages should also include the device of the trigger mechanism, which consists of three parts: the mainspring, trigger and cock held in a cocked state by a special protrusion on the trigger. With such a device, until the shooter presses the trigger, the no longer held trigger will cock the piston rod and spontaneously lower, firing another shot until the shooter releases the trigger or until the cartridges run out in the magazine. This mode of firing is called automatic / i.e. queue /, and not semi-automatic, as stated in the title.

 Thus, the aforementioned disadvantages can lead to inoperability or uncontrolled firing, which is unacceptable.

 The aim of the invention is to increase the rate of revolver by automating the cocking process by using part of the energy of the powder gases while maintaining the stability of the position of the revolver in the firing hand and reducing the recoil energy.

 This is achieved by the fact that parallel to the barrel of the revolver, coaxially with the axis of the drum, there is a gas chamber connected by a gas outlet hole to the barrel channel, and from the muzzle end it is covered with a plug with a stop and a spring damper. The chamber is specially designed to install a piston with a rod and spring, which, due to the pressure of the powder gases and the spring, can reciprocate and, acting on the trigger, is connected to mechanisms that carry out preparatory operations, such as turning the drum and feeding it forward to focus on the cone on the breech section of the barrel, cock the trigger, preparing the revolver for the next shot.

 The drawing shows a double-action revolver with subsequent automatic platoon in cocked / ready to fire / condition.

 A double-action revolver followed by an automatic cocking consists of a barrel 1 with a gas outlet 2, a gas chamber 3, a piston with a rod 4, a spring 5, a plug 6 with a stop, a damper spring 7, a drum 8, a spring 9, a hammer 10, a trigger 11, the pusher 12, the latch 13 of the pusher, the lever 14 of the pusher, the pivoting lever 15 / the drawing does not fully show /, the mainspring 16, the delay 17, the tongue 18 of the trigger, the trigger 19, the trigger 20, whispered 21.

 To produce a shot, you can either first withdraw the revolver, or use self-cocking.

 Cocking the revolver, the shooter presses the trigger 19, which through the trigger 20 acts on the sear 21, lowering the trigger 11, which under the action of the mainspring 16 moves rotationally around its axis, while simultaneously turning the switch lever 14, bringing it out of contact with the pusher 12 and hits the drummer 10 acting on the cartridge. A shot is taking place. When the bullet passes through the bore 1 through the gas outlet 2, the powder gases penetrate through it into the gas chamber 3 and act on the piston with the rod 4, which in its movement primarily turns off the pusher latch 13, then acts on the trigger 11, pulling it back, and at the same time, the drum 8 under the action of the spring 9 is shifted backward, coming out of contact with the cone on the breech of the barrel 1 and retracting the pusher 12, the pivoting lever 15 rotates the drum 8, and the pusher lever 14 acts on the pusher 12, which feeds the drum 8 forward Leaving it out of contact with the pivoting arm 15 and resting the conical part of the chamber in the cone on the breech section of the barrel 1. Trigger 11, under the action of the piston with the rod 4, moves to its extreme rear position and stops either if the trigger 19 is already released by the arrow, by the sear 21, or a delay 17, which, after the trigger 19 is released, comes under the action of the trigger lever 20 out of contact with the trigger 11 and allows it, shifted forward, to be locked by the sear 21. The piston with the rod 4 under the action of the spring 5 returns to its original position, where it is braked by the damper spring 7 and finally stops by stopping the plug 6, which allows the latch 13 of the pusher to lock the pusher 12. The revolver is cocked, made for the next shot.

 When shooting using the self-cocking of arrows, without cocking the trigger 11 previously, pulls the trigger 19 which, acting on the tongue 18 of the trigger, cockes the trigger 11 first, and then releases it. A shot occurs, and then the revolver mechanism works as described above.

 The latch 13 of the pusher is equipped with a button that allows the arrow to stop the pusher 12 and make another cocking in case of misfire.

 The proposed design is one of the layout options according to the so-called "breaking" scheme, and the process of extracting spent cartridges and drum equipment with cartridges is not given in detail here, since there are several constructive solutions to this problem. Other layout options are also possible, for example, with a drum that does not feed forward, but only rotates, with a drum that leans to the side when reloading, with a non-opening frame and sequential extraction of sleeves, with a gas chamber above the barrel and the like.

 The proposed design is designed for a side-ignition cartridge of caliber 5.6 mm / 22LR /, which makes it convenient for use in shooting sports, but by varying the main parameters / caliber, barrel length, overall dimensions, cartridge type, layout / service samples can also be obtained.

 The described design allows to increase the rate of revolver by automating the cocking process by using part of the energy of the powder gases while maintaining the stability of the position of the revolver in the firing hand and reducing the recoil energy.

Sources of information taken into account
1. Zhuk A. B. Zh 85 Handbook of small arms. Revolvers, pistols, rifles, submachine guns, machine guns. M .: Military Publishing, 1993. -735 p.: Ill.

 2. US patent US 5727345A, CL. F 41 C 3/14, F41 A 15/02, F 41 A 9/61, 03/17/98. /prototype/.

Claims (1)

 A double-action revolver followed by an automatic cocking, containing a trigger mechanism, a mechanism that rotates the drum and feeds it forward, having a piston with a rod and spring mounted with the possibility of acting on the trigger for cocking it under the influence of powder gases, characterized in that the piston with a rod and a spring are placed in a gas chamber designed for their placement and connected by a gas outlet with the barrel bore, the trigger mechanism is equipped with a sear and a delay for holding Single when cocking position regardless of the trigger mechanism and the drum rotation and feed it forward mounted with the possibility of actuating the movement of the trigger.