RU2204102C2 - Shock-absorber-distributor of recoil momentum force of powder gases - Google Patents

Abstract

FIELD: weapon, applicable in artillery and small arms. SUBSTANCE: the shock-absorber-distributor of recoil momentum force of powder gases in self-opening lock mechanisms of small arms or artillery weapon between the breeshblock inertial mass and the main mass of the weapon has a stop and a shock-absorber providing for a shock-absorbing principle of distribution of the recoil momentum force of powder gases and mounted for adjustment of the gear ratio of momentum distribution and for shock absorption of the breechblock shock in the extreme rear position. EFFECT: reduced recoil momentum force of the weapon. 6 dwg

Description

 Known locking mechanism of small arms or artillery weapons, patented by A. F. Baryshev (Russian patent 2002195 dated September 18, 1993 and Europatent 0705723 dated February 4, 1998 (Magnum, 11/2002)).

 In this self-opening locking mechanism, two different devices perform the functions of impulse distribution of recoil force and barrel locking. The function of the distribution of the recoil momentum is provided by the two-arm lever-larva, and the locking function is performed by the locking lever. At the moment of distribution of the recoil impulse, the locking element - the stop of the locking lever - remains stationary.

 The larva-lever under the influence of an impulse of the recoil force of the powder gases, transmitted to it by the bottom shifting backward by an insignificant amount of the cartridge case, rotates in a vertical plane and distributes it with its shoulders. Part of the impulse from the lower shoulder is communicated through the bolt skeleton and the stop of the locking lever to the main mass of the weapon (mass of the weapon without an inertial mass of the bolt). Another part of the pulse through the upper arm is communicated to the inertial mass of the shutter. The inertial mass of the bolt as a result of exposure to it of a part of the distribution impulse of recoil and being smaller than the main mass of the weapon moves back at a higher speed, opening the locking lever and reloading the weapon.

 Such a locking mechanism can be called a self-opening locking mechanism with a lever mechanism for distributing the impulse of the recoil force of the powder gases between the inertial mass of the bolt and the main mass of the weapon (lever - distributor). This distribution lever, or larva, it is also a compensator for the release of powder gases between the inertial mass of the bolt and the bulk of the weapon and is the prototype of the claimed invention.

 The distribution of the recoil momentum based on the lever principle has such positive qualities as mitigating (prolonging) the recoil momentum and reducing the maximum recoil force of the weapon.

 This mechanism is desirable in cases where it is necessary to have a fixed barrel in combination with powerful ammunition, without the use of a gas exhaust system (self-loading pistols, self-loading hunting weapons with a classic design, small-sized weapons).

 But the lever distribution of the recoil momentum also has drawbacks: the large dimensions of the lever (the larger the lever, the more reliable the operation), the complicated movement of the lever with friction, at the moment of perception and distribution of the recoil momentum. The lever distribution mechanism cannot be placed outside the shutter without complicating the device and increasing the dimensions of the weapon. All this makes it difficult, or makes it impossible, to use the lever mechanism for distributing the recoil momentum in the locking mechanisms of small-sized weapons and hunting with a classic design.

 The essence of the invention is a simple, small-sized mechanism for distributing the recoil momentum of powder gases for self-opening locking mechanisms, in which the distribution of the recoil momentum and locking the barrel are performed by two mechanisms — the recoil momentum distribution mechanism and the locking mechanism. In this case, the locking elements at the time of the distribution of the pulse are not displaced and do not participate in the distribution. Locking mechanisms can be the most common types.

 The invention is achieved by the following set of features.

 The shock absorber-distributor of the impulse of the recoil force of the powder gases in small arms with self-opening locking mechanisms includes a stop and a shock absorber, which can be combined in one part, located both in the locking mechanism and outside. At the time of the shot and the limited withdrawal of the sleeve, it absorbs and distributes the recoil momentum between the inertial mass of the bolt and the bulk of the weapon, based on the depreciation principle. At the moment of depreciation and distribution of the recoil momentum, the parts of the shock absorber-distributor move parallel to the axis of the barrel channel. The shock absorber also absorbs the impact of the shutter in its extreme rear position.

 The design of the shock absorber-distributor allows you to adjust the gear ratio of the pulse distribution by selecting or changing the voltage of the shock absorber.

 As a result of the depreciation of impulses acting on the weapon and on the shooter, a decrease in the maximum value of the recoil force of the weapon is achieved.

 Figure 1 shows a diagram of a shock absorber-distributor; figure 2-6 - diagrams of the device, operation and placement of the shock absorber-distributor in various locking mechanisms.

 The shock absorber-distributor of the pulse of the recoil force of the powder gases includes a stop 4 and a shock absorber 5 (Fig.1-5) or only a shock absorber (Fig.6). In this case, the end of the leaf spring is an emphasis, and its middle part is a shock absorber. The shock absorber-dispenser can work with known locking mechanisms, which are locked by turning (Fig. 3) or skewing (2 and 4) of the combat larva or protruding balls, rollers, or other locking elements (Figs. 5 and 6).

During the shot, the recoil force of the powder gases acts along the axis of the bore in the direction opposite to the flight of the bullet. This force acts on cartridge case 1 for a few thousandths of a second. Under the influence of this force, overcoming the resistance of the shock absorber and the inertial mass of the shutter, 2, pressed by the return spring 6 to the shock absorber, the sleeve moves back by the value l. The value of l depends on the inertial mass of the shutter, the force with which the return spring presses it against the stop, the voltage of the shock absorber and the ability of the sleeve to withstand the pressure jump of the powder gases. Thus, a sharp shock of gases (impulse) J is transmitted through the bottom of the sleeve to the stop of the shock absorber-distributor. In the case of placing the shock absorber-distributor outside the locking mechanism (Figs. 4-6), the impulse is transmitted to the stop through the combat larva and locking elements. Under the influence of the recoil pulse, the emphasis shifts backward, deforms the shock absorber and reports the necessary moment of motion to the inertial mass of the shutter. In the case of a leaf spring (Fig. 6), it bends, and its shoulder, which serves as a stop, moves back under the influence of a recoil impulse transmitted to it through the locking elements (in this case, balls). In this case, part of the recoil impulse j ₁ is spent on the deformation of the shock absorber and is communicated through it to the bulk of the weapon 3, either directly (Fig. 4-6), or through locking elements (Figs. 2 and 3). Another part of the recoil impulse j _{2 is} communicated through the stop of the shock absorber-distributor outgoing to the value l of the inertial mass of the shutter. The momentum imparted to the inertial mass of the shutter should be sufficient to complete the recharge cycle. After the bolt moves away under the influence of the inertial mass in the rear position, the shock absorber is between the back mass of the bolt and the main mass of the weapon. At this moment, it absorbs the strike of the bolt into the weapon body j ₀ . Due to the alternate depreciation of all recoil impulses acting on the weapon, through it on the shoulder or arm, a decrease in the maximum value of the recoil force of the weapon is achieved. This is perceived as a weakening (extension) of the recoil force impulse and a decrease in the withdrawal of weapons.

Claims (1)

 The shock absorber-distributor of the impulse force of the recoil of powder gases in the self-locking mechanisms of small arms or artillery weapons between the inertial mass of the bolt and the main mass of the weapon, characterized in that it contains a stop and a shock absorber, providing the shock-absorbing principle of the distribution of the impulse of the recoil force of the powder gases and mounted with the possibility of adjusting the transfer pulse distribution numbers and with the possibility of shock absorption of the shutter in the extreme rear position.

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