RU2241939C1 - Method for operation of automatic with drive of ammunition feed mechanism from barrel at its recoil and automatic firearm based on it - Google Patents

Abstract

FIELD: firearm, applicable in production of automatic weapon with various rate of fire.

SUBSTANCE: the transversal working surface of the breechblock assembly lug turns the larger arm of the joint lever and at the same time the smaller arm brings in motion the barrel in the opposite direction of the breechblock assembly motion. The moving barrel actuates the ammunition feed mechanism. The joint level at sliding of its larger arm on the longitudinal working surface of the breechblock assembly lug stops the barrel when the barrel recoil is completed thus preventing its reverse motion up to the completion of recoil of the breechblock assembly and the coincidence of the cylindrical working surfaces on the lug of the latter and on the larger arm of the lever. The ammunition feed mechanism, linked with the moving barrel, feeds the successive ammunition to the extractors of the breechblock assembly, which with the aid of the joint lower prevents counterrecoil up to the completion of ammunition feed to the ramming line. After the stop of the barrel in the initial position the counterrecoil of the assembly is completed under the action of the return spring. The barrel of the automatic firearm is installed in the guides of the box for longitudinal motion and provided with a spring. The larger arm of the joint lever in the lower part is made in the form of a cylindrical surface with the center in the axis of rotation of the lever. Lugs are made on the barrel and breechblock assembly, on the barrel- for engagement with the smaller arm, on the breechblock assembly - for engagement with the larger arm, having transversal, longitudinal and cylindrical working surfaces.

EFFECT: simplified construction of the weapon and improved its dimensional and mass characteristics.

3 cl, 1 dwg

Description

The invention relates to firearms and can be used to create designs of automatic weapons with different rates of fire.

Known systems of automatic firearms with longitudinally rolling stock, due to the course of which the feed mechanism of the cartridges is fed to the delivery line into the barrel channel. Characteristic features of these systems are the greater movement of the bolt assembly during its rollback as compared with the magnitude of the barrel stroke, as well as the need to delay the bolt assembly in the rear position until the supply of the next cartridge to the shutter extractors is completed.

A known method of operation of the automation of a 30-mm aircraft gun NR-30 (see technical description and brief instructions for use. M: Voentehizdat, chapter II) with a drive mechanism for supplying ammunition from the barrel during firing, including the backward movement of the bolt assembly under the influence of an impulse recoil, accompanied by compression of the return spring, and the receiver rigidly connected to it in the box, with the subsequent unlocking of the barrel. The two-arm linkage lever is rotated by the receiver, the cartridge feed mechanism and the bolt assembly failure accelerator are set in motion, the bolt assembly is last moved relative to the barrel and forced to roll back to the rear position. With the automatic whisper mechanism, the receiver with the barrel is stopped at the end of the movement, and when the bolt assembly comes to the rear position, the receiver with the barrel is released with the automatic sear mechanism and the spring is moved to its original position, while the bolt assembly is held in the rear position. When the receiver moves, the next cartridge is fed into the shutter extractors, at the end of the barrel's backward stroke the shutter assembly is released and the shutter assembly accelerator mechanism is activated, which, with the simultaneous action of the return spring, rolls the shutter assembly and sends another cartridge into the barrel bore, after which they lock the bore with the bolt assembly and smash the cartridge capsule briskly to produce another shot.

Known 30-mm aircraft gun HP-30 (see. Technical description and brief instructions for use. M.: Voentehizdat, chapter II), taken as a prototype. The gun contains a body part - a box (casing), inside which the barrel and the bolt assembly are movably mounted. In the front part of the box a two-arm lever is pivotally fixed, kinematically connecting the barrel, bolt assembly and cartridge feeding mechanism. In addition, to ensure the automatic operation of weapons in the box placed accelerator mechanism for rolling back the bolt unit, which serves to relative movement of the bolt unit and giving it the necessary speed to roll back to the rear position; an automatic whisper mechanism, which serves to temporarily stop the bolt assembly in the rear position until the barrel moves to its original position; the mechanism of the accelerator rolling shutter unit, which serves for the initial acceleration of the shutter unit when sending another cartridge into the bore. To ensure the kinematic connection of the moving barrel with the rest of the main mechanisms of gun automation in the breech of the barrel, a receiver is rigidly mounted on it, a part of considerable length, of complex cylindrical shape, further complicating the design of the weapon and increasing its dimensions and total weight.

A disadvantage of the known method and device is the following: the kinematic connection of the main structural elements (the barrel with the bolt assembly and the cartridge feeding mechanism) used requires the use of additional devices that ensure the operation of weapon automation (fixing the barrel in the receiver, the recoil accelerator of the bolt assembly, automatic sear mechanism, mechanism accelerator rolling shutter unit).

The proposed group of inventions solves the problem: simplifying the design of weapons and improving their overall weight characteristics.

The technical result obtained by using the proposed group of inventions is as follows: the barrel of the weapon is driven with the drive of the ammunition supply mechanism from the barrel due to the use of improved kinematic coupling of structural elements: the barrel, bolt assembly and two shoulders communication lever having a new form of execution.

The specified technical result is achieved by the fact that in the method of operating automatic weapons with a drive mechanism for supplying ammunition from the barrel during firing, including the movement of the bolt assembly back under the influence of a recoil pulse, accompanied by compression of the return spring, it is new that the transverse working surface of the protrusion of the bolt assembly the large shoulder of the communication lever and simultaneously the smaller shoulder set the barrel in motion in the direction opposite to the movement of the bolt assembly, accompanied by compression the barrel spring, and the moving barrel, in turn, actuates the ammunition supply mechanism, then with the communication lever when sliding its larger shoulder along the longitudinal working surface of the protrusion of the bolt assembly, the barrel is stopped when the barrel roll-out is completed, preventing its return, until the bolt recoils aggregate and alignment of cylindrical working surfaces on the protrusion of the last and on the larger shoulder of the lever, than provide the rotation of the lever and the beginning of the movement of the barrel to its original position under the action of the barrel spring, while the ammunition supply mechanism associated with the moving barrel, feed the next ammunition into the extractors of the bolt assembly, which is held from the coast using the link lever until the ammunition is fed to the transfer line, then, after the barrel stops in the initial position, the bolt roll is completed the unit under the action of a return spring, which sends another ammunition into the barrel.

The specified technical result is achieved by the fact that in an automatic firearm containing a barrel with a chamber for placing ammunition, a bolt assembly with a return spring, a box, an ammunition feed mechanism, a two-arm barrel linkage with a bolt assembly and a feed mechanism pivotally mounted on an axis in the box of ammunition, the new is that the barrel is mounted in the guides of the box with the possibility of longitudinal movement, namely rolled forward, and is equipped with a spring, a larger shoulder of the communication lever in the lower hour The tee is made in the form of a cylindrical surface with a center in the axis of rotation of the lever having a counterpart of a similar shape in the bolt assembly, in addition, for projecting, through the two shoulders of the lever, kinematic communication of the barrel with the bolt assembly is performed on the projections, a protrusion on the barrel for contacting a smaller shoulder, and for contacting a large shoulder, a protrusion on the bolt assembly having a transverse, longitudinal and cylindrical working surfaces, the transverse surface being made with possible With the possibility of ensuring the movement of the barrel during rollback of the bolt assembly, the longitudinal surface is made with the possibility of fixing the position of the barrel in the front working position, and the cylindrical surface is made with the possibility of skipping the rotating lever when the barrel returns under the action of the barrel spring and the munition supply mechanism and, in addition, the bolt assembly in the rear position when feeding the cartridge strip.

Technical solutions with features that distinguish the claimed solutions from prototypes are not known and do not follow explicitly from the prior art. This allows us to assume that the claimed solutions are new and have an inventive step.

The proposed method is carried out using an automatic firearm.

The drawing shows an automatic firearm with the position of the parts of the automatics before firing.

An automatic firearm contains a box 1, in the longitudinal guides of which with the possibility of longitudinal movement, namely, rolling forward, a barrel 2 is installed, equipped with a spring 3, and a bolt assembly 4 with a return spring 5. In the upper part of the box on the axis 6 two-arm lever 7 is pivotally mounted the connection of the barrel 2 with the bolt assembly 4 and the mechanism for supplying ammunition. The larger shoulder 8 of the communication lever in the lower part is made in the form of a cylindrical surface 9 centered on the axis of rotation of the lever having a counter surface 10 of the same shape in the gate assembly 4. For the kinematic connection of the barrel 2 with the bolt assembly 4 during the shooting through the two shoulders, the protrusions are made on both: a protrusion 11 on the barrel for contacting the smaller arm 12, and for contacting the big shoulder 8, the protrusion on the bolt assembly having a transverse 13 longitudinal 14 and cylindrical 10 work surfaces. The transverse surface 13 is configured to allow the barrel to move when the bolt assembly rolls back, the longitudinal surface 14 is configured to fix the position of the barrel in the front working position, and the cylindrical surface 10 is configured to skip the rotating arm when the barrel returns under the action of the barrel spring and the munition supply mechanism and, in addition, to stop the bolt assembly in the rear position when feeding the cartridge strip. In the lateral protrusion of the barrel 2, where the spring 3 is located, a plunger 15 is movably mounted, pressing the larger shoulder 8 of the communication lever to the bolt assembly 4. The plunger 15 is spring-loaded in the barrel bore by a spring 16. The return spring 5 of the bolt assembly is supported in the butt plate 17 mounted on the box 1. In the upper part of the box 1, a lid 18 is installed, in which the details of the ammunition supply mechanism are located: a slider 19 with the possibility of sliding in the longitudinal guides of the lid 18 and connected with the barrel 2 by the protrusion 20; the feed engine 21 is slidable in the transverse guides of the cover 18 and connected to the slider 19 by means of an inclined cutout 22 of the slider 19 and the protrusion 23 of the engine 21.

The angular positions of the lever in the drawing correspond to: 24 — the beginning of the shot; 25 - the beginning of the locking bolt assembly lever; 26 - squeeze the lever up while passing a cylindrical surface in the coast of the bolt assembly

The proposed method of operation of weapons automation is implemented as follows.

The proposed scheme is made with semi-free locking of the barrel. Before firing under the influence of a recoil pulse, the bolt assembly 4 rolls back, accompanied by compression of the return spring 5. The larger arm 8 of the communication lever is pressed down by the plunger 15 and moves back by the transverse working surface 13 of the protrusion of the bolt assembly. The lever rotates on the axis 6, mounted in the box, and the smaller arm 12 moves the barrel 2 in the forward direction, compressing the spring 3. At the same time, the feed slider 19 moves the feed slider 21 in the opposite direction to run over the articulated fingers (not shown) for the next 27 cartridge link tapes. With a further rollback of the bolt assembly, the barrel 2 comes to the front position, and the lever arm 8 extends to the longitudinal working surface 14 of the bolt assembly and slides along it with a further rollback of the bolt assembly, preventing the barrel from returning. When combining the cylindrical surfaces 9 and 10 of the communication lever and the bolt assembly (position 25), the shutter made a full rollback, the barrel under the action of the spring 3 returns to its original state. The surface 9 of the lever slides on the surface 10 of the bolt assembly and keeps the bolt assembly from rolling until the completion of the supply of the next ammunition to the transfer line. The barrel, moving to its original position, moves the slider 19 and the feed engine 21 in the direction of supply of ammunition to the line of sending. Upon termination of the holding of the bolt assembly 4 by the communication lever, the supply of ammunition is completed, the barrel continues to roll back to its extreme working position, at which the lever is set to 24. The bolt assembly rolls to the barrel under the influence of the return spring 5, sending the next ammunition to the barrel bore. Coming with a cylindrical surface 10 to the lever arm 8, the bolt assembly 4 rotates the lever, compressing the spring 16 with a plunger. Next, the lever slides along the longitudinal working surface 14 of the bolt assembly, and then sinks with the shoulder 8 over the protrusion in the bolt assembly. After the bolt assembly comes to the front position, another shot occurs and the described automation cycle is repeated.

When using the proposed method and device of a simplified design with improved overall weight characteristics, the weapon barrel rolls out with the drive of the ammunition feed mechanism from the barrel due to the use of improved kinematic coupling of structural elements: the barrel, bolt assembly and two shoulders communication lever having a new embodiment. The kinematic connection between the barrel and the bolt assembly was achieved due to the work of the shoulders of the communication lever with the corresponding protrusions on the barrel and the bolt assembly without the use of additional devices ensuring the operation of the weapon automation.

Claims (2)

1. The method of operation of an automatic weapon with a drive mechanism for supplying ammunition from the barrel during firing, including the movement of the bolt assembly back under the influence of a recoil pulse, accompanied by compression of the return spring, characterized in that the larger shoulder of the communication lever is turned by the transverse working surface of the protrusion of the bolt assembly and at the same time smaller the barrel is driven by the shoulder in the opposite direction to the movement of the bolt assembly, accompanied by compression of the barrel spring, and by the moving barrel, in first of all, the ammunition supply mechanism is actuated, then with the communication lever, when sliding its larger shoulder along the longitudinal working surface of the protrusion of the bolt assembly, the barrel is stopped when the barrel roll-out is completed, hindering its return stroke, until the bolt assembly rolls back and the cylindrical working surfaces are combined on the protrusion of the latter and on the larger arm of the lever, than provide the rotation of the lever and the beginning of the movement of the barrel to its original position under the action of the barrel spring, while the supply of ammunition associated with the moving barrel, the next ammunition is fed into the extractors of the bolt assembly, which is held back by the link lever until the ammunition is fed to the transfer line, then after the barrel stops in the initial position, the shutter is rolled back under the action of the return spring, which send another ammunition to the barrel. 2. Automatic firearms containing a barrel with a chamber for placing ammunition in it, a bolt assembly with a return spring, a box, an ammunition supply mechanism, a two-arm barrel linkage with a bolt assembly and an ammunition supply mechanism pivotally mounted on an axis in the box, characterized in that the barrel is mounted in the guides of the box with the possibility of longitudinal movement, namely, rolling forward, and is equipped with a spring, the larger shoulder of the communication lever in the lower part is made in the form of a cylindrical surface with a cent ohms in the axis of rotation of the lever, which has a mating surface of a similar shape in the bolt assembly, in addition, for the kinematic connection of the barrel with the bolt assembly in the process of firing through the two shoulders lever, protrusions are made on both, the protrusion on the barrel is for contacting with the smaller shoulder, and for contacting with a large shoulder - a protrusion on the bolt assembly having a transverse, longitudinal and cylindrical working surfaces, and the transverse surface is made with the possibility of ensuring the movement of the barrel when the shutter recoils unit, the longitudinal surface is made with the possibility of fixing the position of the barrel in the front working position, and the cylindrical surface is made with the possibility of skipping the rotating lever when the barrel is returned under the action of the barrel spring and the munition supply mechanism and, in addition, to stop the bolt assembly in the rear position when feeding cartridge tape.