RU2203467C2 - Automatic weapon (modifications) - Google Patents

Abstract

FIELD: armament, applicable in automatic weapon. SUBSTANCE: the automatic weapon has at least one barrel, movable breechblock, the whole barrel or only its breech end are made movable. Provision is made for an additional inertia body mounted for engagement with the breechblock and for movement relative to it. The breechblock is made for stopping or slowing down of movement relative to the fixed parts of the weapon after it withdraws from its extreme front position at a certain distance. In another modification the breechblock is made fixed, and the barrel is made for movement forward, the inertia body is mounted for travel in the direction of barrel movement and with possibility of accelerated movement relative to the barrel from the instant of shot beginning. EFFECT: enhanced reliability of operation of automatic weapon. 4 cl

Description

 The invention relates to automatic weapons, including handguns.

 The prior art.

 Known gun company Colt model M1911A1 [1, p. 80-82], in which the operation of automation is based on the short course of the barrel. In this gun, at the initial moment of the shot, the barrel and bolt are interlocked and move together from their extreme forward positions to their extreme rear positions. After the bullet leaves the bore, the bolt disengages from the barrel. Subsequently, the barrel ceases its movement with respect to the stationary parts of the weapon, and the bolt continues its inertia movement in the same direction, removing the fired cartridge case outside the weapon. In the course of its movement from its extreme rear position to its extreme forward position, the bolt feeds the next cartridge from the magazine receiver to the barrel chamber. Subsequently, the bolt and barrel move together to their extreme forward positions, and the bolt and barrel are interlocked with each other. At the next shot, everything will happen again.

 Advantages of the above pistol: there is no gas automation engine (as a separate automation unit), the function of which is the barrel and cartridge case (although the energy of powder gases is used to carry out the automatic reloading of weapons); low sensitivity to pollution; high reliability (there is practically no phenomenon of transverse rupture of the cartridge case at the time of the shot, for example, characteristic of a weapon with a fixed barrel and with an engaged bolt). Automation scheme with a short stroke of the barrel provides a high rate of fire when firing bursts.

 The disadvantage of the automation scheme with a short barrel stroke: when used in a hand-held automatic weapon with a long barrel (longer than that of pistols), it is necessary to increase the mass of moving parts of the automation (since the magnitude of the barrel stroke cannot be large), which leads to an increase in the mass of the weapon generally. It is this circumstance that explains the fact that this automation circuit in manual automatic weapons is mainly used in pistols.

 SUMMARY OF THE INVENTION

 The task of the invention is to eliminate the disadvantage of the prototype.

 Obviously, if such a problem can be solved, then this is a "non-obvious" solution for a specialist versed in automatic weapons, since the prototype has not solved it.

 The claimed invention as an automatic rifle, in one of the possible variants of its execution, has the following essential features common with the prototype: a movable barrel, a movable bolt, made with the possibility of coupling with the barrel.

 Distinctive features from the prototype are: there is an additional movable inertial body made with the possibility of interaction with the shutter and with the possibility of movement relative to the shutter, the shutter is made with the possibility of stopping the movement relative to the stationary parts of the weapon after it has moved a certain distance from its extreme forward position , an additional inertial body is made with the possibility of disengaging the bolt from the barrel.

 Thus, the task of the claimed invention is solved in that the leading link in the automation (an additional movable inertial body) at the time of the shot is only informed of the amount of kinetic energy necessary for the automatic reloading of the weapon and the linear velocity required by the magnitude, but nothing more. This is ensured by the fact that the bolt (and barrel) is configured to stop moving relative to the stationary parts of the weapon after it has moved a certain distance from its extreme forward position. All this allows the claimed invention to have the minimum possible weight of moving parts of automation (less than that of the prototype), and therefore, the minimum possible weight of the weapon as a whole.

 In the claimed invention, an additional movable inertial body can move either with the same linear velocity as the shutter, or accelerated relative to the shutter. Moreover, in the latter case, it is possible that the additional inertial body moves accelerated relative to the bolt from the moment the shot starts and the bolt is made without the possibility of stopping (or slowing down) the movement of relatively stationary parts of the weapon after it has moved a certain distance from its extreme forward position.

 A ZI embodiment is possible, which differs from the variant described above in that the bolt is stationary, and the barrel and the additional movable inertial body are made to move forward, while from the moment the shot starts, the additional movable inertial body moves accelerated relative to the barrel (i.e., an additional movable inertial body is made with the possibility of movement relative to the barrel) due to the action of the deceleration mechanism.

 In the claimed invention, as its propellant charge, any of its type (gunpowder, compressed gas, and others) can be used.

 In the claimed invention, the shutter can engage with the breech of the barrel in any suitable way (by turning the first part of the shutter around its longitudinal axis, and more).

 An embodiment of the invention is possible when it is possible to adjust the path that the shutter passes until it ceases moving relative to the stationary parts of the weapon, so that under any operating conditions the leading automation link is informed of the amount of kinetic energy necessary for the automatic reloading of the weapon and the linear velocity required by value, but no more than that.

 Information confirming the possibility of carrying out the invention.

 In a variant of an automatic rifle, in one of the possible variants of its execution, the claimed invention is as follows.

 There is a movable shutter, consisting of two separate parts, made with the possibility of interaction between each other and with the possibility of moving relative to each other. The barrel is adapted to engage with the shutter in any suitable way (for example, by turning the shutter around its longitudinal axis) and to move in the direction of movement of the shutter. The shutter is configured to interact with the cartridge sleeve, which at the time of the shot performs the function of a piston of a gas engine of automation. The bolt and barrel are made with the possibility of stopping the movement of relatively stationary parts of the weapon after they move a certain distance from their extreme forward positions. An additional inertial body, which is the leading link in automation, is made with the possibility of interaction (at the initial moment of the shot) with a propelling charge either by means of a bolt or by a barrel (in this case, the above interactions can be carried out either directly or by means of any type of retardation mechanism, for example, a roller lever slowdowns and more). The additional movable inertial body is configured to provide coupling and disengagement of the shutter from the barrel (in any suitable way, for example, by interacting with the profiled groove of the additional movable inertial body with the leading protrusion of the shutter — that is, as the shutter frame and the shutter interacted with the known Kalashnikov assault rifle) . There is also a return spring, made with the possibility of interaction with the stationary parts of the weapon and an additional movable inertial body.

 The above automatic rifle operates as follows.

 Before the shot, the barrel, bolt and additional movable inertial body are in their extreme forward positions (due to the action of the return spring). In this case, the shutter and barrel are interconnected.

 After the start of the shot, the bullet (due to the action of powder gas pressure on its bottom part) starts its movement along the barrel channel towards its muzzle section, and the cartridge case (due to the action of powder gas pressure on its bottom part) starts its movement in the opposite direction ( bullet) side, acting on the bolt, and he, in turn, acts on the barrel and an additional movable inertial body.

 Thus, after the start of the shot, the barrel, cartridge case, bolt and additional movable inertial body begin their movements in the same direction, from their extreme forward positions to their extreme rear positions, compressing the return spring and cocking the trigger in the course of its movement. In this case, the barrel, cartridge case and bolt move with equal linear speeds, and an additional movable inertial body (due to the action of the retardation mechanism, for example, the roller retardation mechanism, as is the case with the well-known German G3 assault rifle [1, p.228-232 ] moves faster relative to the shutter.

 After the additional kinetic energy necessary for automatic reloading of the weapon and the required linear velocity (but no more than that), the barrel and the bolt (as well as the cartridge case) stop their movement relative to the stationary parts of the weapon, are reported to the additional inertial mobile body (the leading link of automation) ) That is, the barrel and bolt engage with the fixed parts of the weapon).

 After the barrel and bolt engage with the fixed parts of the weapon, the additional movable inertial body continues its inertia movement in the same direction, compressing the return spring and cocking the trigger during its movement (that is, it starts to move freely). All this time, the bullet continues its movement along the barrel in the same direction.

 After the bullet leaves the barrel channel, the free movement of the additional movable inertial body ends and it, through the interaction of its profiled groove with the leading protrusion of the bolt, disengages the bolt from the barrel, and, in the course of its further inertia movement in the same direction, carries the bolt and finally cockes the trigger. Subsequently, the shutter and the additional movable inertial body move in the same direction with equal linear velocities. At the same time, the cartridge sleeve moves with them, since it is held by the ejector in the shutter cup.

 Subsequently, the cartridge sleeve is removed beyond the arms, the bolt and additional movable inertial body in the course of their movements from their extreme rear positions to their extreme front positions (which are ensured by the force created by the compressed return spring) feed the next cartridge from the magazine receiver into the barrel chamber (in this case, the barrel up to this point in time was at the place where it stopped when the movement relative to the stationary parts of the weapon stopped).

 When the shutter and the additional movable inertial body approach the breech section of the barrel, the latter, by acting on its profiled groove on the leading protrusion of the shutter, engages the shutter with the barrel. Subsequently, the barrel, bolt and additional inertial body move together to their extreme forward positions. In this case, when firing in bursts, another shot occurs (i.e., the start of the shot) after the bolt engages with the barrel, but before the barrel, bolt and additional inertial body reach their extreme forward positions (i.e., the well-known phenomenon of rolling out movable parts is used automation), which will reduce the recoil force of the weapon and, as a result, improve the accuracy of fire when firing in bursts (however, the phenomenon of roll-out of moving parts of the automation may not be - in this case, the beginning of the shot occurs ie, when the barrel, bolt and additional inertial body will come into its most forward position).

 At the next shot, everything will happen again.

 Thus, in the above embodiment of the claimed invention, only the amount of kinetic energy necessary for the automatic reloading of the weapon and the required linear velocity, but not more that will allow it to have the lowest possible weight of the moving parts of the automation, and therefore the lowest possible the weight of the weapon as a whole, and also have the minimum possible shock loads acting on moving parts of the automation and interacting with them izhnye weapon parts, which increases the life of the above components of weapons. The claimed invention excludes the influence of the state of the surfaces of the cartridge case and the barrel chamber on the reliability of automation, which increases the reliability of the weapon as a whole.

 In the claimed invention, the following is possible.

 The bolt and the additional inertial body at the moment of the shot can move both along the axis of the bore and at some angle to it (for example, as is the case with the Finnish Jati-Matic submachine gun [1, p. 152]. can be carried out in any acceptable way (by turning the shutter around its longitudinal axis, by skewing the shutter, etc.) by acting on the shutter (as in the case considered above) or by other means (for example, due to the action of a special spring). from rays of the invention is provided due to the impact on the shutter (or other part that provides the engagement of the shutter with the barrel) of an additional movable inertial body, which may consist of two (or more) separate parts made with the possibility of interaction between each other and with the possibility of movement relative to each other The interaction of the shutter with a propelling charge can be carried out either through the cartridge sleeve (as in the case considered above), or by means of a pallet (for example, representing battle the bottom of the cartridge case with part of the cartridge case), or by means of a piston (for example, rigidly attached to the first shutter member). Thus, the function of the piston of a gas engine of automation can be performed either by a cartridge sleeve, or a pallet, or a piston. The interaction of an additional movable inertial body with a propelling charge can be carried out either by directly acting on it with a shutter, or by acting on it with a barrel (which, in turn, is affected by a shutter, since the barrel and shutter are interconnected). The bolt, after its departure to a certain distance from its extreme forward position, can either stop its movement relative to the stationary parts of the weapon (as discussed above), or slow down its movement relative to the stationary parts of the weapon (for example, due to the action of the friction force), all other things being equal.

 An embodiment of the claimed invention is possible, which differs from the above in that the shutter is made without the possibility of stopping or slowing down the movement of relatively stationary parts of the weapon (when the bullet still continues to move along the barrel), and the additional moving inertial body moves from or from the moment the shot starts the same linear velocity as the shutter, or accelerated relative to the shutter, all other things being equal.

 An embodiment of the invention is possible, which differs from the last embodiment in that the shutter is stationary, and the additional movable inertial body and the barrel are made to move forward, while from the moment the shot starts, the additional mobile inertial body moves accelerated relative to the barrel (due to the action the above delay mechanisms).

 An embodiment of the invention is possible when, at the moment of stopping or slowing down the movement of the bolt relative to the stationary parts of the weapon, the leading automation unit is informed of less energy than is necessary for automatic reloading of the weapon, and after the bolt is disengaged from the barrel, the leading automation unit is informed of additional kinetic energy (due to the aftereffect powder gases).

 In the claimed invention, the entire barrel can be movable (as in the case considered above), and only part of the barrel (for example, in the embodiment with a movable shutter and barrel, this can be the breech of the barrel, which is a barrel chamber). Before the shot starts, at least the nose of the cartridge bullet enters the barrel, located in the stationary (relative to the stationary parts of the weapon) part of the barrel, and the rest of the cartridge is in the movable breech of the barrel. This will provide an unstressed entry of the bullet into the barrel channel located in the fixed part of the barrel.

 An embodiment of the claimed invention is possible when its barrel (or only part of it) is made with the possibility of movement in the direction of movement of the shutter, not due to the fact that the barrel and shutter are interconnected, but due to the friction force of the cartridge case body against the barrel chamber walls ( that is, in this case, the barrel and the shutter are made without the possibility of adhesion to each other), ceteris paribus.

 When describing the invention, some of its mechanisms (trigger, safety, and others) were not mentioned, since they do not affect the fundamental possibility of carrying out the invention, and therefore, may not differ from similar mechanisms used in known models of automatic weapons.

 In the claimed invention can be automated as all operations related to reloading weapons, and only part of them.

 The claimed invention can have any mode of fire: single, continuous, any other.

 The claimed invention can be used as an automatic weapon of any type, both manual and non-manual, both firearm and non-firearm.

 An embodiment of the invention is possible when the bolt ceases its movement with respect to the stationary parts of the weapon (i.e. the bolt engages with the stationary parts of the weapon) after the bullet has left the barrel, all other things being equal.

 The release of the bolt from the barrel (from the breech of the barrel) can be carried out both after leaving the barrel bore (as in the case considered above), and until the bullet leaves the bore.

 The bolt at the moment of stopping its movement relative to the stationary parts of the weapon engages with the stationary parts of the weapon or through the breech of the barrel (that is, the breech of the barrel engages directly with the stationary parts of the weapon, and the bolt is coupled with the breech of the barrel), or directly with the stationary parts of the weapon .

 After the bolt disengages from the barrel, the barrel can either return to its extreme forward position under the action of a special spring, or expect the bolt in the position in which it was at the moment the bolt disengaged from the barrel.

 In the variant with the barrel moving forward, the barrel moves forward due to the force from the side of the bullet moving along the barrel channel and due to the pressure of the propelling charge on the conical part of the barrel chamber (when using a bottle cartridge case in the weapon).

 To prevent foreign objects (such as dust) from entering the gap between the protrusions of the breech barrel (or the protrusions of the bolt) and the stops of the fixed parts of the weapon (the protrusions and stops by which the bolt engages with the stationary parts of the weapon), a solid body can be placed in the above gap (for example, in the form of a plate), which reduces the above clearance to a minimum and which is removed from the gap during the operation of the weapon (for example, the above plate can be kinematically connected with a fuse). A similar effect can be achieved by the mutual position of the protrusions and stops, in which, when storing weapons, the above clearance is minimized. Reducing the above clearance to a minimum during storage of weapons will eliminate the influence of the formation of a layer of dust on the supporting surfaces of the protrusions and stops on the reliability of the automation of weapons.

 Clutching the bolt with the fixed parts of the weapon can be carried out in any suitable way.

Sourse of information
1. Murakhovsky V.I., Fedoseev S.L. Weapons of infantry. - M .: Arsenal-Press, 1997, p. 80-82, 152, 228-232.

Claims (4)

 1. Automatic weapons containing at least one barrel, while either the entire barrel or only its breech is made movable, movable bolt, characterized in that there is an additional movable inertial body made with the possibility of interaction with the bolt and with the possibility of movement relative to the shutter, while the shutter is configured to stop or slow down the movement of relatively stationary parts of the weapon after it moves away at a certain distance from its extreme front floor zheniya.  2. Automatic weapons according to claim 1, characterized in that the additional inertial body is made with the possibility at the time of the shot accelerated movement relative to the shutter.  3. The automatic weapon according to claim 1 or 2, characterized in that the bolt is capable of engaging with the breech of the barrel, and an additional inertial body is configured to release the bolt from the breech of the barrel.  4. An automatic weapon containing at least one barrel, a bolt, characterized in that the bolt is stationary, and the barrel is made to move forward, there is an additional inertial body made with the ability to move in the direction of movement of the barrel and with the possibility of moment start shot accelerated movement relative to the barrel.