RU2120103C1 - Armor-piercing projectile - Google Patents

Abstract

FIELD: artillery ammunition. SUBSTANCE: armor-piercing projectile has chamber that houses armor-piercing core installed for movement. Beneath this chamber there is located second chamber filled with explosive charge. Chambers are interconnected by means of window. EFFECT: enhanced armor-piercing action. 3 cl, 1 dwg

Description

 The invention relates to the field of artillery weapons, namely to armor-piercing shells. Of the known armor-piercing shells, the closest to the declared are sub-caliber armor-piercing shells that contain a body with a camera, an armor-piercing core placed in this chamber with the ability to move in the direction of projectile movement, a ballistic tip (see, for example, "Artillery and Missiles", Military Publishing House, 1968 p. 128-129).

 Armor breakdown by such shells is carried out by an armor-piercing core, and the hull stops and collapses when it encounters armor.

 A foreign-made armor-piercing-explosive shell is also known, which contains a body with a camera, an armor-piercing core placed in this chamber with the possibility of movement and a ballistic tip having a charge of explosives in the armor-piercing core, which serves to rupture the core after breaking through the armor ( see for example: Journal "Youth Technology" N 6, 1988, p. 27, Fig. A).

 The disadvantages of sub-caliber armor-piercing shells include a rapid loss of speed on the trajectory of movement, which leads accordingly to a decrease in the range of armor-piercing action, as well as their tendency to ricochet. In addition, the disadvantage is that the body contributes to penetration of the armor by the core by increasing its mass only until it meets the armor (i.e. only the part of the core that protrudes above the body).

 Known are also armor-piercing shells of cumulative action, containing a shell with an explosive charge placed inside, explosive charge detonators and a ballistic tip. In such shells, the explosive charge has a cumulative recess designed to concentrate the energy of the explosion in the jet and ensure its directed action.

 The design and operation of such shells is described in the above ("Artillery and Missiles", pp. 129-130). The disadvantages of cumulative shells are the dependence of their armor-piercing action on the speed of rotation, the properties of the armor and the angle of encounter with the armor.

 The tasks to which the invention is directed are to increase the armor-piercing effect of the projectile, in particular for armor having complex properties, to improve the conditions for the breakdown of armor at the site of impact of the projectile and to reduce the likelihood of its rebound, and also to effectively use the explosive effect of the explosive charge.

 The solution to the problem of increasing the armor-piercing action is achieved by the fact that the armor-piercing projectile containing a housing with a chamber for an armor-piercing core, an armor-piercing core placed in the housing chamber with the ability to move, the explosive charge with means for its detonation, differs in that the explosive charge is placed in the shell housing under the camera for the armor-piercing core, and the cameras themselves are interconnected by a window. The explosive charge is detonated when the shell contacts the armor before it breaks through to give these additional speed to the armor-piercing core in the direction of movement.

 The solution to the problem of improving the conditions at the place of armor breakdown by the core and reducing the probability of its rebound is achieved by the fact that in the proposed projectile the armor-piercing core is made with a longitudinal through hole ending in a recess in the lower part directed towards the explosive charge. A hole with a recess in the core serves to form and pass a cumulative jet to the armor through the core.

 The solution to the problem of the breakdown of armor, which has complex properties, is achieved by the fact that the shell is equipped with an armor-piercing tip installed in the upper part of the hole of the armor-piercing core with the possibility of movement.

 The solution to the problem of more efficient use of the explosive charge is achieved in all versions of the projectile due to the fact that the explosion energy of the explosive charge is used primarily to enhance the armor-piercing effect of the projectile, and then to destroy the explosion products penetrating into the armored space after the breakdown of the armor. In the particular case, the effective action of the explosive charge is increased by the fact that it is made with a cumulative recess, which ensures the concentration of the explosion energy in the jet and its directed action towards the armor-piercing core.

 The invention is illustrated in the drawing, which shows one of the options for the proposed projectile in the context.

 The projectile has a housing 1, an armor-piercing core 2 located in the housing chamber with the possibility of movement and fixed in the lower part against the protrusions of the housing, and in the upper part by a retaining ring 3, explosive charge 4, window 5, connecting the explosive chamber and the chamber for armor-piercing core.

 The fuse 6 with the detonation tube 7 serves to detonate the explosive charge. The head fairing 8 and the fairing of the housing 9 serve to improve aerodynamic performance. The lead belt 10 is used to guide the projectile along the barrel.

 In embodiments of the projectile, it is equipped with either a continuous armor-piercing core 2 or a core with a longitudinal through hole having a recess directed towards the explosive charge, or with a core with a longitudinal through hole having a recess, at the top of which an armor-piercing tip is installed with the ability to move.

 In each of these options, the explosive charge is either continuous or cumulatively recessed.

 Armor-piercing projectile operates as follows. In the embodiment of equipping the shell with a continuous armor-piercing core, when the shell hits the armor, its ballistic tip is destroyed, and the fuse 6, installed for this option in this part of the casing 1, undermines the explosive shell. Explosion products, through window 5, affecting the bottom of the armor-piercing core, dramatically increase its speed, and hence its energy.

 By increasing the speed of the core with respect to the housing, it is advanced from the housing in the direction of movement. When the core hits the armor, its speed decreases, and the body moves forward, runs onto the core and transfers to it its energy of movement through the products of the explosion, thereby increasing its mass. Since the core moves forward under the action of the explosion products, before hitting the armor, the contact of the body with the armor comes later, which increases the time of energy transfer by the body to the core, and therefore its armor-piercing effect. Thus, the problem is solved to increase the armor-piercing action of the core by increasing its speed and mass.

 In the embodiment of equipping the projectile with an armor-piercing core having a longitudinal through hole with a recess in the direction of the explosive charge (as shown in the drawing), the action of the projectile along with the above described is that when the explosive charge is detonated by fuse 6 by means of detonation tube 7, the explosion products through window 5 acting on the bottom of the armor-piercing core, not only increase its speed, but at the same time with the help of a recess in the lower part of the core openings are formed into a cumulative stream directed through the core to the bron . Since the speed of the jet is 1–2 orders of magnitude higher than the speed of the core, its top in motion overtakes the top of the core and, hitting the armor, pierces it or, in the event of a breakdown, knocks a hole in it. The armor in this place is weakened, and the armor-piercing core, moving along the jet, strikes a hole knocked out by the jet, which reduces the likelihood of its rebounding. Since the formation of a cumulative jet is carried out by a recess in the hole of a high-strength core, the dimensions of which can be selected during design, it is possible to achieve the optimal shape of the jet, and hence its best impact.

 In the installation option in the armor-piercing core with a longitudinal hole in its apex of the armor-piercing tip, with the possibility of moving along with the above, the armor-piercing action of the projectile is supplemented by an impact on the armor of the movable armor-piercing tip, which received additional speed from being hit by the tip of the cumulative jet. Such consistent striking of armor with an armor-piercing tip, a cumulative jet, and an armor-piercing core in the same place solves the problem of breaking through armor having complex properties.

 In an embodiment of the installation of an explosive charge in a projectile with a cumulative recess during its explosion, the concentration and directional action of the energy of the explosion products towards the core is ensured, thereby achieving the goal of more efficient use of the explosive charge energy.

 The striking effect in the reserved space is achieved due to the impact of the armor-piercing core, the cumulative jet and the armor-piercing tip, depending on the equipment of the projectile and the explosion products penetrating the armor through the punched hole.

Claims (4)

 1. Armor-piercing projectile containing a body with a chamber for an armor-piercing core, an armor-piercing core placed in the chamber of the housing with the ability to move, the explosive charge with means for its detonation, characterized in that the explosive charge is placed in the chamber chamber under the chamber for the armor-piercing core, and the cameras themselves are interconnected by a window.  2. Armor-piercing projectile according to claim 1, characterized in that the armor-piercing core is made with a longitudinal through hole ending in the lower part of the recess, directed towards the explosive charge.  3. Armor-piercing projectile according to claim 2, characterized in that it is equipped with an armor-piercing tip installed in the hole of the armor-piercing core in its upper part with the possibility of movement.  4. Armor-piercing shell according to any one of paragraphs. 1 to 3, characterized in that the explosive charge is made with a cumulative recess.