RU2710120C1 - Backing plate for small arms - Google Patents

Abstract

FIELD: weapons and ammunition.SUBSTANCE: invention relates to the small arms. Back plate of small arms butt is made as separate part and is attached to upper part of butt in heel area by means of cylindrical hinged joint, its lower part in area of stock tip is movable in longitudinal direction and fixed in rear position by spring or resilient material, or spring and resilient material together. In another version, the bottom part of the back plate is connected to the lower rod of the butt, at that, the lower rod of the butt is made movable in the longitudinal direction.EFFECT: considerable reduction of vertical displacement of the arms barrel in the upward direction with automatic fire, higher accuracy of firing.3 cl, 7 dwg

Description

The invention relates to the field of small arms and can be used to increase the accuracy of fire in the conduct of automatic fire.

In the practice of firing from hand-held firearms in automatic mode, a physical phenomenon known as the recoil arm is known. It arises due to the mismatch between the point of application of the recoil force momentum when firing and the point of application of the impulse of the thrust force of the shooter in the butt, which is designed to extinguish this recoil force and maintain the relative stability of the weapon relative to the target, resulting in the appearance of a shoulder between these two points and, as a result the occurrence of a moment of force acting in the upward direction. This discrepancy is caused by the anatomical features of the structure of the human body, when there is a considerable distance between the shoulder and the organs of sight of the shooter, as a result of which in the classical arrangement of the parts of the firearm the middle of the butt plate of the butt, through which the line of action of the thrust force of the shooter in the butt passes, is significantly lower than the barrel of the weapon, which contains sights, and, accordingly, below the imaginary axis of the barrel of the weapon, which in most cases is the line of action Twiya forces of bestowal. The result of the mismatch of the lines of action of these two forces is the appearance of a recoil arm when fired. A consequence of the impact of this recoil arm on a weapon is the vertical upward displacement of the muzzle of the weapon at the time of the shot, its “tossing” upwards and the aiming failure. When firing in a single (semi) automatic) mode, the presence of a recoil arm is not of great importance, since the shooter is able to correct the changed position of the weapon in a short time and again aim the weapon at the target. When firing bursts (automatic mode), the time interval between shots is extremely small, as a result of which the shooter is not able to adjust the aim after each shot and the shift of the aim with each subsequent shot increases. As a result of this, with each subsequent shot, the barrel of the weapon more and more “leads” away from the target. The result is low accuracy of fire in long bursts and that is why all instructions on small arms contain recommendations to conduct automatic fire from hand-held automatic small arms in short bursts.

The construction of the Nikonov AN-94 “Abakan” assault rifle is known, (https://www.armoury-online.ru/articles/ar/ru/an-94/) the device of which allows the first two shots to be fired at an extremely high rate of fire of approximately 1800 shots per minute with the transition then to a standard rate of fire of 700 shots. Moreover, in the applied carriage scheme of the machine, when after the first shot the barrel on the carriage begins to move backward, the bolt manages to pick up the second cartridge from the intermediate chamber, send it to the main chamber and fire a second shot until the bolt group comes to its extreme rear position. As a result, the shooter’s shoulder is affected by the total recoil force from two completed shots. The result of this is the absence of a recoil arm factor in the first two shots and its effect on the dispersion of bullets and, as a result, their extremely small dispersion, i.e., high accuracy of bullets hitting the target. However, this design has the following disadvantages. The presence of an intermediate chamber and its associated parts, as well as the presence of a carriage, make the AN-94 a significant technical complexity, which can turn out to be a negative factor when the machine falls into the hands of a soldier who does not have sufficient special knowledge and skills. In addition, the presence of a large number of parts necessarily implies great technological complexity in the manufacture of this machine and, as a consequence, its high cost. In addition, the complex device of the machine will inevitably lead to its low reliability and, again, as a result, frequent failures in a real battle.

A known design of automatic rifles and machine guns, when the midpoint of the shoulder of the arrow in the butt is on the same line with the axis of the bore or as close to it. This is a German machine gun MG-34 (Babak F.K. Machine guns // St. Petersburg .: Polygon. - 2006. p. 177), a German automatic rifle FG-42 (Zhuk A. B. Handbook of small arms // M .: Military Publishing . - 1993. p. 548). Such a layout of the stock in relation to the barrel makes it possible to increase the accuracy of fire when firing in bursts, since there is practically no recoil arm and, as a result, there is no vertical shift of the aiming when firing. Such a mechanism for damping lateral vibrations of a barrel during firing is known as the principle of linear recoil. However, this design has the following disadvantages. A higher position of the butt necessitates the removal of sighting devices high up for ease of aiming, which, in turn, increases the likelihood of their contact in a combat situation with surrounding objects and, as a result, damage and failure. In addition, a more elevated position of the shooter relative to the weapon when aiming increases its profile over defensive structures and, as a result, increases the likelihood of it being hit by enemy return fire. In addition, for more accurate shooting, it is necessary that the aiming line is as close as possible to the axial line of the barrel channel, and a significant removal of the aiming line from it leads to a significant decrease in firing accuracy, especially at long distances.

A known butt plate design for a small arms butt is adopted as a prototype when a butt plate is made of a material, usually polymeric, with significant cushioning properties (https://www.dmazay.ru/index.php?categoryID=624). Such a recoil pad significantly softens the impact of the recoil impulse on the shooter's shoulder, reduces the impact of recoil on the accuracy of shooting, making shooting more comfortable and effective. However, this design simply reduces the recoil force acting on the shooter's shoulder and does not affect the recoil shoulder in any way, without completely stopping its effect in the form of shifting the barrel upward when firing bursts.

The technical task is to develop a device for the stock of small arms, or its butt plate, which significantly reduces the vertical displacement of the gun barrel in the upward direction during automatic fire and increases its accuracy.

The essence of the proposed device lies in the fact that the butt plate of the small arms butt is made as a separate part attached to the butt in its upper part in the area of its heel by means of a cylindrical swivel, the axis of which is located in a horizontal plane perpendicular to the axis of the barrel channel of this weapon, which allows the butt plate to rotate in the longitudinal vertical plane. In the lower part in the area of the stock of the stock, the back plate rotation in the forward direction is limited by the butt itself, and in the back direction it is limited by a special lock or stop. Thus, the rotation of the butt plate of the butt is limited in a certain small range, the size of which is selected so as to create in this device a shoulder of a reaction force acting in the opposite direction of the recoil shoulder force and sufficient to substantially extinguish it or completely reduce it to zero. The occurrence of the shoulder of the reaction force is due to the fact that during the shot, when the butt plate of the butt is mounted as described above, the recoil force pulse will be directed along its upper crest or upper thrust to the upper butt plate, and the recoil resistance force pulse formed by the arrow of the arrow will be directed to the middle recoil pad, the bottom of the recoil pad on the basis of the rocker arm will move forward and stop only at the moment of contact with the body of the butt. As a result, the butt plate and the upper butt crest, and with it the barrel, will move relative to the axis of rotation of the hinge joint in the upper part of the butt plate towards each other - the butt plate is forward and up, respectively, and the comb with the barrel is back and down, at the same time due to the relatively large the length of the weapon compared to the length of the back plate the downward movement of the barrel at the muzzle end will be proportionally larger than the upward movement of the bottom plate. Thus, when firing and moving the lower part of the butt plate forward, a reaction arm will be formed equal to the distance between the bottom edge of the butt plate and its middle and, therefore, this will cause the appearance of a moment of reaction force directed in the opposite direction of the recoil force moment, the result of which is their mutual extinction . Fixation of the lower part of the butt plate in the rear position before firing will be carried out by a spring or some other elastic element or together both of them. The presence of an elastic element that fixes the lower part of the butt plate in the rear position is also designed to create comfortable conditions for the shooter when shooting, mitigating blows with the butt when moving the bottom of the butt plate forward.

The essence of the device is illustrated in the drawing, where in FIG. 1 shows a diagram of the formation of the recoil arm, in FIG. 2 shows a diagram of the formation of a shoulder reaction forces, in FIG. 3 shows a working diagram of a butt pad device capable of forming a shoulder against the recoil shoulder during a shot; FIG. 4 shows a working diagram of a device as another embodiment of the arrangement of the working parts of a movable butt plate with the same effect as in FIG. 3., in FIG. 5 shows a working diagram of the device when the backplate is attached to the butt in its upper part in the heel region by means of an elastic polymer material, FIG. 6 shows a working diagram of a device when a backplate is attached to the butt in its upper part in the heel region by means of a leaf bend spring.

In FIG. Figure 1 shows a diagram of the formation of the recoil arm when, when aiming along line 1, the shooter, due to the anatomical structure of his body, is forced to rest his shoulder against the butt in midline 3, while the line 2 of the recoil force during the shot is much higher, as a result of which a recoil arm 4 is formed equal to the distance between the action line of the stop arrow force in the butt 3 and the action line of the recoil force of the weapon 2, which, ultimately, forms the mechanism of tossing the muzzle of the weapon upward when firing, when the actual size of the recoil arm 4 in the butt area, it also becomes very significant in the muzzle region in proportion to the length of the weapon in accordance with line 21.

In FIG. 2 shows a diagram of the formation of the shoulder of the reaction force to the recoil arm, when, when fired, the recoil force of the weapon, acting along line 2 through the upper comb or the upper rod 20 of the stock, then through the transverse horizontal cylindrical hinge joint 6 acts on the butt plate of the stock 7, which, when faced with the counteraction force arrow 3, by the principle of the rocker arm rotates relative to the arrow of the arrow, moving its lower edge along the arc 8 forward and upward. At the same time, until the lower edge of the butt plate rests against the buttstock body, the upper comb or upper rod of the buttstock, and with it all the weapons, will move towards the butt plate down and back along the arc 9. And even if the movement along the arc 9 in the hinged region connection 6 will be several millimeters, at the end of the barrel of the weapon it will already be several centimeters in proportion to the distance from the axis of rotation in connection 6. Thus, an impulse of the counteraction force will be formed, designed to extinguish the first impulse of force recoil shoulder.

In FIG. 3 shows a schematic diagram of the inventive backplate 7, which is attached to the butt 10 in the upper part of the heel 5 by means of a horizontal transverse hinge joint 6. The bottom part of the backplate 7 is fixed in the rear retracted position by a spring 13 and a stopper 12. Possible advancement of the bottom of the backplate 7 is bounded forward by the body of the butt 10 and the elastic limiter 14 fixed thereon. Thus, in FIG. 3 shows a rotating butt plate 7 of butt 10 with an axis of rotation in a swivel joint 6 and limited in its movement by a small range of rotation by two stops 12 and 14, fixed in a state of rest or readiness for firing by a spring 13 in the retracted position.

In FIG. 4 shows a schematic diagram of the inventive butt plate 7, which is part of a butt of a different design, but with a similar effect. In this diagram, the butt plate 7 is attached to the upper link 20 by means of a horizontal transverse hinge joint 6 to the lower link rod 11 by the hinge joint 18, while the lower link is made movable in the longitudinal direction and fixed in the telescopic connection 17, which in turn is connected by a hinge connection 19 attached to the weapon. Thus, in FIG. 4 shows a rotating butt plate 7 of a stock, consisting of an upper link 5, a lower link 11 and a butt plate 7, with an axis of rotation in a swivel 6 and limited in its movement by a small rotation range by two limiters 12 and 14, fixed in a state of rest or readiness for firing in the retracted position by a spring 13, which is fixed in a telescopic connection 17.

In FIG. 5 shows a schematic diagram of the inventive butt plate 7, which is attached to the butt 10 in its upper part in the heel region 5 by means of an elastic polymer material 15, which, due to its elasticity, replaces the hinge joint 6 in FIG. 3 and FIG. 4. Thus, in FIG. 5 depicts a butt plate 7 of buttstock 10 movable in a longitudinal vertical plane, limited in its movement by a small rotation range by two stops 12 and 14, fixed in a state of rest or readiness for firing by a spring 13 in the retracted position.

In FIG. 6 shows a schematic diagram of the inventive butt plate 7, which is attached to the butt 10 in its upper part in the heel region 5 by means of a leaf spring of bend 16, which, due to its longitudinal flexibility, replaces the hinge joint 6 in FIG. 3, and by virtue of its elasticity, it also replaces the spring 13 in FIG. 3. Thus, in FIG. 6 depicts a butt plate 7 of buttstock 10 movable in a longitudinal vertical plane, limited in its movement by a small rotation range by two stops 12 and 14, fixed in a state of rest or readiness for firing by a bending spring 16 in the retracted position.

In FIG. 7 shows the general scheme of operation of a moving recoil pad at the time of a shot, the code under the influence of recoil force acting along line 2 and forming a recoil arm 4, the muzzle of a weapon receives an impulse in the upward direction and at the same time the bottom edge of the recoil pad 7, rotating relative to the axis of rotation at a point 6 and moving along the arc 8, provides the opportunity for the upper edge of the stock along with all weapons to move towards the arc 9 under the influence of the stop force of the shooter in the butt plate 7, forming a downward impulse for the muzzle.

The work of the butt plate 7 is as follows. When fired from a firearm, a recoil momentum is formed, directed in the direction directly opposite to the direction of the bullet’s flight. The force of the recoil impulse directed along line 2 in order to stabilize the weapon is opposed by the force of the shoulder rest of the shooter arrow in the butt, directed to the side opposite to the direction of the recoil momentum along line 3. The line of action of the stop force arrow in the butt 3 is below the line of action of the recoil force 2. The consequence of this mismatch in the space of the vectors of the two forces directed in the opposite direction is the formation of the recoil arm 4, which ultimately determines the tendency of the muzzle of the weapon to shift upwards when shot le However, the presence of a movable butt plate 7 on the butt of the weapon, the lower part of which, when fired by the recoil force and the recoil force, will move forward along the arc 8, will cause an effect when the back of the butt plate moves forward and upward along the rotation arc 9 centered in the hinge joint 6 will shift back and down the entire weapon body. And although the displacement of the weapon body down in the butt area will be minimal, its muzzle will tend to shift down a much larger distance in proportion to the length of the weapon. Thus, when fired from a firearm, two oppositely directed forces will act on its muzzle end, which will mutually cancel each other, which will determine its relative dynamic stability in space during firing in automatic mode and, as a result, more accurate shooting results.

The proposed butt plate does not require special materials, can be manufactured using known technical means and provides a technical result. Therefore, it has technical applicability.

Claims (3)

1. The butt plate of the small arms butt, which is a flat elongated part of the butt, which is in direct contact with the arrow of the shooter during firing, characterized in that it is made as a separate part and is attached to the upper part of the butt in the heel by means of a cylindrical hinge joint, the axis of which is located in horizontal plane perpendicular to the axis of the barrel of the weapon, either by means of an elastic polymer material, or by means of a leaf spring bending, while I part of it in the buttock area is movable in the longitudinal direction, while towards the muzzle of the weapon the stroke of the lower part of the butt plate is limited by the butt body, and in the direction from the muzzle of the weapon the stroke of the lower part is limited by a special limiter, while the lower part of the butt plate is fixed in backward position by a spring or elastic material, or a spring and elastic material together. 2. The butt plate of the small arms butt according to claim 1, characterized in that the bend leaf spring fixes the lower part of the butt plate in the rear position. 3. The butt plate of the small arms butt, which is a flat elongated part of the butt, which is in direct contact with the arrow of the shooter during firing, characterized in that it is made as a separate part and attached to the upper part of the butt in the heel region by means of a cylindrical hinge joint, the axis of which is located in a horizontal plane perpendicular to the axis of the channel of the barrel of the weapon, or by means of a leaf spring bending, while its lower movable part by means of a cylindrical hinge connection, the axis of which is located in a horizontal plane perpendicular to the axis of the barrel of the weapon barrel is connected to the lower rod of the butt, while the lower rod of the butt is made movable in the longitudinal direction and is limited in its movement towards the muzzle of the weapon and the direction of the muzzle by special stops on the fixed parts of the butt or on the receiver of the weapon, while the lower rod is fixed in the rear position by a spring or elastic material, or by a spring and elastic material together spot.

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