RU2702372C1 - Device for reducing impact of recoil momentum of firearms fixed on installation - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to artillery mounts. Device for reducing the impact of the recoil pulse of a firearm mounted on the apparatus has a casing with a brake-compensator and is located in the zone of muzzle of the barrel of the weapon. On the brake-compensator openings for powder gases are made, the rear row of windows of the brake-compensator is covered by the barrel of the weapon and opens when it is rolled back. Method of reducing the impact of recoil momentum of a firearm fixed on an apparatus includes shooting, occurrence of a recoil pulse I₁, acting on installation, at that part of powder gases expires in brake-compensator, in which during the barrel recoil the extreme row of windows is additionally opened and pulse I₂ appears from pressure of powder gases, acting in opposite recoil momentum I₁ direction, which leads to reduction of resultant recoil pulse I₃, acting on the plant.

EFFECT: technical result is reduced impact of recoil of firearms on installation, possibility of using device on light carriers, such as aircraft and helicopters, boats, etc.

3 cl, 5 dwg

Description

The invention relates to firearms, namely, weapon systems with recoil mounted on the installation and a method of reducing the impact of the recoil impulse of such weapons on the installation.

Weapon systems are known based on the principle of using recoil (see Material part of small arms, book 1, edited by Academician A.A. Blagonravov, M .: Oborongiz NKAP, Main Edition of the Literature on Arms and Ammunition, 1945, p. 43 -48), namely, weapon systems with recoil of the barrel, characterized by a movable barrel, strong coupling of the bolt with the barrel during the shot and the release of the bolt that occurs when the barrel moves after the shot.

For example, the 30-mm GS-301 aviation gun is known (http://www.iz-article.ru/gh301_1.html). The automation of the gun is based on the use of barrel rollback energy with a short stroke. In one cycle, the barrel, which is the leading link in automation, performs a reciprocating motion, providing the following operations: lowering and retraction of the cartridge, locking and unlocking the bore, extraction of the spent sleeve. The gun is installed on aircraft, mounted on the installation: the spherical surface of the gun’s body is a power (front) support, which receives the recoil force and transfers it to the power elements on the installation; breech guides - rear support fixing the gun in the installation from rotation around the longitudinal axis; the cylindrical surface of the muzzle of the barrel is an additional support supporting the barrel in the installation.

The disadvantage of this device and method is the large recoil momentum acting on the power elements in the installation.

To reduce the impact of the recoil impulse, muzzle brakes of various designs are used that are installed directly on the barrel of the weapon, which change the direction of the total impulse of the shot, consisting of the momentum of the projectile and the gas-powder mixture. In weapon systems with recoil barrel installation of a muzzle brake on the barrel can lead to failure of the automatic weapons due to a change in the momentum transmitted to the barrel by expiring powder gases.

The technical task of the invention is to reduce the impact of the recoil momentum of a firearm, namely weapon systems with recoil barrel, on the power elements in the installation.

The technical result consists in reducing the recoil momentum realized by the weapon acting on the installation by using a compensating brake mounted on the installation casing in the muzzle section of the barrel, into which part of the powder gases flows out and an impulse arises from the pressure of the powder gases acting in the opposite recoil momentum direction.

This goal is achieved in that the device for reducing the impact of the recoil impulse of a firearm mounted on the installation is equipped with a casing with a brake compensator and is located in the muzzle area of the barrel of the weapon. Windows for the expiration of powder gases are made on the brake-compensator, and the rear row of windows of the brake-compensator is blocked by the barrel of the weapon and opens when it is rolled back.

This goal is also achieved by reducing the impact of the recoil momentum of a firearm mounted on the installation, including firing a shot, the occurrence of an recoil momentum I ₁ affecting the installation, while some of the powder gases expire in the brake compensator, in which, when the barrel rolls back, the last number of windows and arises from pulse I ₂ powder gas pressure acting in the opposite recoil impulse I ₁ direction, which leads to reduction of the resulting pulse from Aci I ₃ acting on the installation.

The invention is illustrated by drawings, which depict:

in FIG. 1 is a diagram of a weapon in an installation operating on the principle of recoil of a barrel with a short stroke;

in FIG. 2 is a diagram of a firearm in an installation with a casing and a compensating brake before firing;

in FIG. 3 is a diagram of a firearm in an installation with a casing and a compensating brake after firing;

in FIG. 4 is a graph of recoil force versus time (analogue);

in FIG. 5 is a graph of the recoil force versus time of a weapon mounted on a unit with a casing and a brake-compensator.

The device for reducing the impact of the recoil impulse comprises a device 1 in which the weapon 2 is fixed. Installation 1 includes a casing 3 on which the brake compensator 4 is installed. The compensator brake 4 is installed in the muzzle section 5 of the barrel 6 of the weapon 2. The compensator brake 4 is made windows 7 for the expiration of powder gases, and before firing, the rear row 8 of windows 7 is blocked by the barrel 6.

We took as an example a weapon, namely the 30-mm GS-301 air gun.

In the process of firing a gun mounted on the installation 1 with the casing 3 and the brake-compensator 4, the projectile leaves the barrel 6 of the gun. The pressure of the powder gases drives the gun barrel assembly, including the barrel itself, the breech with the details of the bolt group, in the direction opposite to the movement of the projectile. The gun barrel is rolled back by
rollback L _TCI. There is a recoil impulse I ₁ affecting the installation 1. In the brake compensator 4, during the rollback of the barrel assembly, the rear row of 8 windows 7 is additionally opened. In the opposite direction, part of the powder gases begins to exert pressure on the walls of the brake compensator 4, and some of the powder gases expire through the windows of the brake-compensator, when this occurs, the pulse I ₂ from the pressure of the powder gases _. . The impulse I _{2 is} perceived by the power elements in the installation 1 and counteracts the recoil impulse I _1, thereby reducing the resulting recoil impulse I ₃ realized by the weapon and acting on the installation 1.

On the basis of the experimental data, a graph of the dependence of the recoil force on the exposure time is presented, shown in FIG. 4 and in FIG. 5.

In FIG. 4 shows a curve of the recoil force transmitted by the installation, which includes a 30 mm GSH-301 aviation gun, to the carrier - an airplane. The resulting recoil momentum I ₁ , realized by the weapon and acting on the installation, is equal to the area S ₁ , which forms a stepwise curve with the time axis.

In FIG. 5 shows the curve of the recoil force transmitted by the installation, which includes a 30 mm GSH-301 aviation gun with a casing and a brake-compensator; the carrier is an airplane. The resulting recoil momentum I ₃ , realized by the weapon and acting on the installation, will be equal to the area S ₂ , which forms a curve with the time axis.

The area S ₁ shown in FIG. 4 is larger than the area S ₂ shown in FIG. 5, therefore, the recoil momentum I _{1 is} greater than the recoil momentum I ₃ .

The proposed device and method for reducing the impact of the recoil impulse can be used for all types of weapons, the automation of which works on the principle of recoil with a long or short barrel.

Thus, the proposed device and method can reduce the impact of the recoil momentum of a firearm on the installation, namely weapon systems with a recoil barrel, and use the proposed device on light carriers such as airplanes, helicopters, boats, etc.

Claims (3)

1. A device to reduce the impact of the recoil momentum of a firearm mounted on the installation, characterized in that the installation is equipped with a casing with a brake compensator with windows made for the expiration of powder gases and located at the muzzle of the barrel of the weapon. 2. The device according to claim 1, characterized in that the rear row of windows of the brake-compensator before the shot is blocked by the barrel of the weapon. 3. A method of reducing the impact of the recoil impulse of a firearm mounted on the installation, including firing a shot, the occurrence of a recoil impulse I ₁ affecting the installation, characterized in that a part of the powder gases expires in the brake compensator, in which the rear opening additionally opens a number of windows and there is an impulse I ₂ from the pressure of the powder gases acting in the opposite direction to the recoil pulse, while the resulting recoil pulse I ₃ acting on the installation is reduced.

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