RU2288419C2 - Method and device for firing from artillery guns and mortars - Google Patents

Abstract

FIELD: military engineering.

SUBSTANCE: method involves loading gunshot unit into barrel bore, shooting and removing charger through muzzle. The charger has prechamber with booster having upper and lower aperture at its ends. The shell and charger are separated in the barrel bore on reaching given pressure. The charger is withdrawn through the muzzle by creating pressure difference on the upper and lower aperture of charger prechamber because of dynamic component difference in gunpowder gas pressure. A gunshot unit for shooting from artillery guns or mortars comprises a shell and charger having prechamber with booster, fulminate cap bushing, missile charge and enforcement unit. The upper and lower aperture are available at its ends. The lower aperture diameter is equal to artillery gun or mortar caliber. Upper aperture passage area is equal to or less than that of the lower aperture.

EFFECT: enhanced effectiveness of artillery gun and mortar systems; improved operation characteristics.

2 cl, 1 dwg

Description

The invention relates to military equipment, and in particular to methods of firing mortars and artillery pieces.

Currently, the armies of the leading countries of the world armed with artillery and mortar systems use methods of firing from artillery guns and mortars, in which the charger is separated from the projectile after exiting the bore with an additional charge or using a storage camera (Jane's Ammunition Handbook 2000-2001, p.502, 519-520). There are ways in which the projectile and charger are separated in the bore. For example, in the firing method selected for the prototype according to patent RU 2184332, the separation of the charger occurs in the barrel during the movement of the projectile, while the separation occurs when the charger reaches the pulse necessary for its extraction from the barrel.

A disadvantage of the known methods is that the energy of the propellant is expended in accelerating the passive mass (charger), which is not involved in the further flight of the projectile, which reduces the effectiveness of the shot as a whole.

It should also be noted that in the method selected for the prototype, the impulse given to the charger as a result of acceleration in the barrel bore with the projectile directly depends on the strength of the discontinuous element, which, when using variable propelling charges, will lead to a large spread in the extraction speeds of the charger, which to a certain extent, reduces the reliability and applicability of artillery systems in general.

The objective of the invention is to increase the efficiency of artillery and mortar systems, the reliability of their work while improving the convenience of their operation.

The solution to the problem is achieved by a method of firing from artillery guns and mortars, including loading a shot into the barrel, firing a projectile and extracting through the muzzle section of the barrel bore a charging device containing a prechamber with an igniter, at the ends of which are installed the upper and lower diaphragms, in which the projectile and charger divided in the bore when reaching a predetermined pressure, and the extraction of the charger through the muzzle of the bore is carried out by creating a pressure drop on the upper and the lower diaphragms of the prechamber of the charger due to the difference in the dynamic component of the pressure of the powder gases.

The method is implemented by a shot, for artillery pieces and mortars, including a shell and a charger containing a pre-igniter chamber, at the ends of which an upper and lower diaphragm, a capsule sleeve, a propelling charge and a boost element in which the lower diaphragm is made with a diameter equal to the caliber of the artillery gun or mortar, and the area of the passage section of the upper diaphragm is less than or equal to the area of the passage section of the lower diaphragm.

Extraction of the charger through the muzzle of the bore due to the pressure drop across the upper and lower diaphragms of the prechamber of the charger, which arises due to the difference in the dynamic component of the pressure of the expiring powder gases, ensures the efficient use of the propellant charge, the energy of which, in this case, is transmitted only to accelerate the projectile the barrel and is not expended to disperse the additional mass of the charger. The use of the process of the outflow of propellant charge gases from the barrel for extraction of the charger increases the reliability and efficiency of the shot, since it does not require the introduction of additional devices to the design of the shot that reduce the overall reliability of the shot, and does not impose restrictions on the use of variable propellant charges.

The diameter of the upper diaphragm, equal to the caliber of the gun, provides centering of the projectile with a charger in the barrel while loading and during the movement of the charger in the barrel.

The presence of an upper diaphragm, the area of the passage section of which is not larger than the area of the passage section of the lower diaphragm, provides the necessary acceleration of the charger after separation of the charger from the projectile under the influence of the pressure of powder gases flowing from the barrel due to the pressure difference between the lower and upper diaphragms of the charger created due to the difference dynamic component of pressure of expiring powder gases.

The invention is illustrated in the drawing, which shows a shot including a projectile 1 and a charger 2, containing a pre-chamber 3 with an igniter 4, at the ends of which are installed apertures 5 and 6, a capsule sleeve 7, a propelling charge 8 and a boost element 9.

The diaphragms 5 and 6 are mechanically bonded to the charger 2. The diameter of the lower diaphragm 5 is equal to the caliber of the gun, and the area of the passage section of the upper diaphragm 6 is not larger than the area of the passage section of the lower diaphragm (S _in ≤S _n ).

The operation of the device is as follows.

In the process of preparing a shot for firing, the charger 2, if necessary, is connected to the projectile 1, after which the shot is loaded into a gun or mortar. When the capsule sleeve 7 is activated, the igniter 4, located in the charging device 2, is ignited. The igniter initiates the main propelling charge 8, under the influence of the gases of which the movement of the projectile 1 along the barrel begins. When the specified, calculated pressure is reached, the boost element 9 is triggered and the charger 2 is separated from the projectile 1. Further movement of the charger 2 and projectile 1 along the barrel occurs separately. After the projectile 1 leaves the barrel, the charger 2 continues to move along the barrel due to the pressure differential on the upper 5 and lower 6 diaphragms, created due to the difference in the dynamic component of the pressure of the powder gases, and is extracted through the muzzle of the barrel.

Thus, the use of the proposed method and device for its implementation increases the efficiency of artillery and mortar systems and the reliability of their work, and also improves the ergonomic characteristics of shots due to:

- use of the process of expiration of propellant charge gases from the barrel as a mechanism for extracting a charging device;

- reducing the passive mass of the projectile, which expends the energy of the propelling charge;

- exceptions to the design of the shot of additional devices;

- the use of a wide range of propelling charges.

Claims (2)

1. A method of firing artillery guns and mortars, including loading a shot into the barrel, firing a projectile and extraction through the muzzle of the barrel bore of a charger containing a pre-chamber with an igniter, at the ends of which are installed upper and lower diaphragms, characterized in that the projectile and the charger the device is separated in the bore when reaching a predetermined pressure, and the extraction of the charger through the muzzle of the bore is carried out by creating a differential pressure on the upper and lower diaphragms the prechamber of the charger due to the difference in the dynamic component of the pressure of the powder gases. 2. A shot for firing from artillery guns or mortars, including a shell and a charger containing a pre-igniter chamber, at the ends of which an upper and lower diaphragm, a capsule bushing, propellant charge and a boost element, characterized in that the lower diaphragm is made with a diameter equal to the caliber of an artillery gun or mortar, and the area of the passage section of the upper diaphragm is less than or equal to the area of the passage section of the lower diaphragm.