RU2389960C2 - Automatic fire-arm - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: proposed automatic fire-arm comprises moving barrel with cartridge chamber, barrel return spring, breech block with spring to lock barrel bore and magazine with shot feed mechanism. Barrel is arranged in breech box guides to move in two guides, namely to recoil and move forward. Barrel is linked with breech box by spring that gets contracted when barrels moves in both directions. Said breech box comprises spring-loaded barrel retainer that holds the barrel back prior to shooting and can be released by bolt in shooting.

EFFECT: reduced eight, smaller recoil force.

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Description

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

Known automatic weapons systems with a longitudinally-movable barrel, due to the course of which the bolt assembly is rolled back and the actuators of the automatic weapons are operated (see Manual on the small arms case. 14.5 mm heavy machine gun Vladimirov (KPVT), M .: Military Ministry of Defense USSR, 1971). The characteristic features of these systems are the large mass of the movable barrel and the bolt assembly necessary to absorb the full recoil momentum of the barrel, as well as the great efforts of the barrel return spring, which accumulates the energy of the barrel to roll back to its original position. In similar systems with an increased recoil momentum, special devices are required to absorb the excess energy of the barrel in the form of hydraulic brakes or gas exhaust piston retarders (see Technical Description and Brief Operating Instructions. 30-mm HP-30 aircraft gun. Military, chapter II), increasing dimensions and mass of weapons.

The 14.5-mm large-caliber machine gun of Vladimirov KPVT is known (see the Manual on the Small Arms, M .: Military Publishing House, 1971), taken as a prototype. The machine gun contains a body part - a box (receiver), inside which the barrel is movably mounted, pushed forward by the barrel spring and the bolt assembly with a return spring. In addition, to ensure the automatic operation of weapons in the box there is a mechanism for supplying ammunition to the send line and other actuating mechanisms.

The disadvantages of the known device is the large mass of the moving parts of the automation (barrel, bolt assembly), which leads to an increase in the total mass of the weapon, as well as significant power characteristics of the barrel spring, transmitting forces when the barrel moves on the box, which causes a lot of machine gun recoil during installation.

The proposed invention solves the problem: reducing the mass of the moving parts of automation and weapons in general, reducing the recoil force of the weapon.

The technical result obtained by using the present invention is as follows: due to the use of an improved design of the barrel return spring of the barrel, a device for restricting the position of the barrel to the shot, the rolling energy of the bolt assembly after locking the barrel is transmitted to the movable barrel, ensuring its roll-out at the beginning of the shot and absorption of part of the recoil energy of the barrel during firing, reducing the recoil momentum of the barrel, the mass of the mobile automation system and the force high characteristics of return springs creating a recoil force of a weapon.

The specified technical result is achieved in that in an automatic firearm containing a movable barrel with a chamber for placing ammunition in it, a barrel return spring, a bolt assembly with a spring, a locking barrel channel, a box with an ammunition feed mechanism, the new is that the barrel is installed in longitudinal guides of the box with the ability to move in two directions, namely, roll back and roll forward, the trunk is connected to the box by a double-acting spring, which contracts when the barrel moves in their directions in the box is mounted a spring-loaded barrel lock, the retaining barrel from moving prior to firing and operable to gate off its unit when fired.

Installing the barrel in the longitudinal guides of the box with the ability to move in two directions, namely, rolling back and rolling forward allows you to get that when the bolt assembly is finished rolling, after the barrel is locked and the ammunition capsule is broken, the barrel receives the impact energy of the bolt assembly during the shot moves along with it forward, absorbing part of the impulse of the pressure force of the powder gases acting on the shutter in the opposite direction. After exhausting the roll-out energy, the barrel and the bolt assembly move backward with the remaining part of the pulse of the pressure force, having reduced energy, which, at known speeds of the barrel and the bolt, can reduce their mass and, accordingly, reduce the total mass of the weapon. At the same time, a decrease in the recoil energy of the barrel makes it possible to reduce the compression force of its return spring, which acts on the weapon box during firing, thereby reducing the recoil force of the weapon.

The connection of the barrel with the box due to the use of a double-acting spring, which compresses when the barrel moves in both directions, makes it possible to jointly roll out and roll back the barrel with the bolt assembly, and at the end of the shooting of the weapon (in case of ammunition exhaustion or misfire of the capsule ), when the barrel and the shutter roll out without a shot, the spring ensures their return to their original position.

The installation in the box of a spring-loaded stopper of the barrel, which keeps the barrel from moving until the shot starts and is configured to be turned off by the bolt unit during firing, allows to obtain that when the barrel returns from the extreme position of the recoil to its original position, the stopper eliminates its further oscillations on the double-acting spring, and with a stable position of the barrel at the end of the run-off of the bolt assembly, the speeds of their further movement during firing are constant and, consequently, the uniformity of na firing weapons.

Technical solutions with features distinguishing the claimed solution from the prototype are not known and do not follow explicitly from the prior art. This suggests that the claimed solution is new and has an inventive step.

The invention is illustrated by drawings, where figure 1 shows an automatic firearm with the position of the parts of the automatics before firing; figure 2 is a horizontal section of a weapon with the position of the parts of the automatics before firing; figure 3 - automatic firearms with the position of the parts of the automatics when fired; figure 4 is a horizontal section of a weapon with the position of the parts of the automatics when fired.

An automatic firearm contains a box 1, in the longitudinal guides of which with the possibility of moving in two directions, namely, forward when rolling out and back when rolling back, a barrel 2 is installed. A bolt assembly is installed in the lower longitudinal guides of the box 1, including a shutter frame 3, a shutter 4, an axis shutter 5, firing pin (not conventionally shown). The front part of the shutter 4 has rusher combat stops "a", the shank of the shutter 4 has a figured notch "b", which serves to connect the shutter with the shutter frame 3 through the axis of the shutter 5 and rotate the shutter when locking the bore. A hole is made in the lower part of the bolt frame 3 for accommodating the return spring 6. The rear end of the return spring is fixed in the rear wall 7 of the box 1. At the top of the box 1, there is a barrel return spring including the spring 8, the housing 9, secured with a protrusion "in" in the grooves of the barrel 2, the rod 10, fixed with the front part in the front wall of the box 1. On the upper wall of the box 1 is placed the supply mechanism of ammunition, including the feed lever 11, pivotally mounted on the axis 12 of the feed lever, the feed engine 13 with feed fingers 14. In no It feed lever portion 11 is shaped notch "d", cooperating with the roller 15 fixed on the barrel 2.

In the rear part of the box 1 there is a trigger 16 with a sear 17, which serves to hold the bolt assembly in the rear position before firing. On the right wall of the box 1, an auto-sear 19 with a spring 21 is installed on the axis 18, which, when interacting with the cutout "d" of the bolt frame 3, holds it in the rear position when the ammunition is fed into the bolt 4. On the left wall of the box 1, a stopper 23 is installed using the axis 22 barrel, spring-loaded spring 24, serving to exclude the movement of the barrel 2 to the shot. Here, the stop of the barrel 25 is likewise set, which serves to hold the barrel 2 in the rear position after the rollback until the bolt assembly arrives in the rear position. On the left wall of the bolt frame 3 there is a cutout “e” and protrusions “g” and “z”, which respectively serve to turn off the stop 25 of the barrel and the stopper 23 of the barrel. On the right side of the barrel 2 there is a bevel "and", used to turn off the auto-sear 19 in the front position of the barrel 2. On the right side of the box 1 there is a receiving window "k", necessary for the entry of ammunition 26 and links of the tape 27 (shown simplified) into the box on retraction line at the rear position of the bolt assembly. On the left wall of the barrel, a cutout “l” is made, which serves to lock the barrel before firing.

The work of parts and mechanisms of automatic firearms during firing is as follows.

Before firing parts and mechanisms of weapons occupy the position shown in figure 1, figure 2. The bolt assembly with the ammunition 26 is held in the rear position by the sear 17 of the trigger 16. The barrel 2 is in an intermediate position and is prevented from moving by the stop 23. The barrel spring does not exert any force to move the barrel in one direction or another. The auto whisper 19 is turned off by the bevel “and”, the barrel 25 is in the recessed position by means of the protrusion “g” of the shutter frame 3.

When the trigger 16 is activated, the shutter assembly is released by the sear 17, which, under the action of the expanding return spring 6, is rolled forward, sending the ammunition 26 into the chamber of the barrel channel. After the ammunition 26 is completely blown out, the shutter 4 stops, and when the bolt frame 3 is further rolled, it turns when the bolt axis 5 interacts with the “b” shaped cutout, connecting the “a” battle stops with the barrel’s battle stops. the barrel stopper 23 turns it off, freeing the barrel 2 for longitudinal movement. Immediately after locking the bore of the barrel, the bolt 4 breaks the munition capsule 26, and the bolt frame 3 collides with the breech section of the barrel 2, telling him to move forward. A joint forward roll of the barrel 2 and the bolt assembly occurs. The pressure force of the powder gases acting on the shutter 4, connected by locking with the barrel 2, inhibits the joint movement of the barrel and the bolt assembly in the rollout, spending a significant part of its energy for this. The spring 8 when moving the housing 9 together with the barrel 2 relative to the rod 10, mounted in the box 1, is compressed. The remainder of the energy of the powder gases, after a full stop of the barrel and the bolt assembly in the roll, accelerates them in the opposite direction at a reduced speed. The spring 8 is again compressed, braking the barrel 2 with the shutter assembly until the barrel 2 completely stops with a special protrusion (not shown conventionally) of the box 1. After that, the barrel 2 is prevented from returning by the barrel stop 25, which falls into the “l” cut-out of the barrel 2 due to the spring. After the collision of the barrel 2 in the rear position with the box 1, the bolt frame 3 continues to roll back by inertia, the axis of the bolt 5 rotates using the cut-out “b” of the bolt 4, unlocking the barrel channel. When the bolt assembly is completely rolled back to the rear position, the auto-searter 19 falls under the action of the spring 21 into the cutout “d” of the bolt frame 3 and limits it in this position. In this case, the protrusion "g" of the bolt frame 3 fills the barrel stop 25, the barrel 2 under the action of the barrel return spring rolls forward to the front position. The roller 15 of the barrel 2, moving along the curly groove "g" of the feed lever 11, rotates it, advancing the feed engine 13 with the feed fingers 14. At the same time, the cartridge strip and the next munition 26 are fed into the bolt 4 on the airway. At the end of the ramp-up of barrel 2, the bevel “and” turns the auto-sear 19, releasing the bolt assembly for subsequent rolling to the barrel 2 with ammunition, and the barrel 2 is caught by the stopper 23 of the barrel 2, which engages under the action of the spring 24 in the cutout “l” of the barrel. In the future, the work of the components and mechanisms of the weapon is repeated, automatic firing occurs until the ammunition is exhausted. To stop shooting, the trigger 16 is turned off, the bolt assembly switches from the auto-sear 19 to the sear 17 of the trigger 16 and is held by it until the shooting continues.

Claims (1)

An automatic firearm containing a movable barrel with a chamber for placing ammunition in it, a barrel return spring, a bolt assembly with a spring, a locking barrel channel, a box with an ammunition feed mechanism, characterized in that the barrel is mounted in longitudinal guides of the box with the ability to move in two directions , namely, rollback and roll forward, the trunk is connected to the box by a double-acting spring, which contracts when the barrel moves in both directions, a spring-loaded spring is installed in the box pore barrel holding the barrel from moving prior to firing and operable to gate off its unit when fired.

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