RU2045736C1 - Polyelement armour - Google Patents

Abstract

FIELD: protective devices, individual protection of armored jacket type. SUBSTANCE: destabilization of shell penetrating power is ensured at its penetration in one of the movable armour elements 4 positioned on connecting elements 3 in recesses 2 made in fixed armour plate 1, and motion of movable element 4 of asymmetric shape with an offset center of inertia jointly with the shell due to asymmetrically applied force. An additional destabilizing moment arises at outflow of decomposition products-free-burning self-igniting compound 6 through ducts and holes 7 that are tangential to normal. To enhance the effectiveness of destabilization of shell penetrating power, multilayer movable armour elements can be used. EFFECT: enhanced effectiveness. 2 cl, 3 dwg

Description

 The invention relates to military equipment and weapons and can be used in the design of armored, aviation, rocket and engineering equipment, Navy ships, protective devices of air defense and missile defense systems, civil defense facilities, light personal protection such as bulletproof vests.

 The closest in technical essence and the technical result achieved is the armor containing movable armor elements, the lower part of each of which is formed by a spherical surface connected by a destructible connecting element with a fixed armor plate, while the armor elements can be multilayer and fastened together by connecting compounds. The specified armor has the following disadvantages. Firstly, the presence of destructible connecting element complicates the design of the armor. Secondly, the system has "dead" zones, i.e. the surface of the armor is uneven, which reduces the overall effectiveness of the armor. Thirdly, the restoration of such armor is very time-consuming and requires considerable time, which reduces the survivability of a sample of military equipment. Fourth, the armor is designed to provide effective protection only from a certain type of shells, in particular, ineffective when exposed to cumulative shells.

 The purpose of the invention is the destabilization of the directed penetrating energy of the projectile.

 To do this, in a polyelement armor containing a fixed armor plate, movable armor elements in spherical recesses connected with it through connecting elements to install the lower part of the movable armor elements, the upper part of which is formed by a spherical surface conjugated with the spherical surface of the lower part, and in each movable armor plate the element is made of a cavity filled with a quick-burning self-igniting composition, and tangential channels communicating with them coming to the surface top part.

The proposed polyelement armor is characterized by the following distinctive essential features:
a) movable armor elements are installed in spherical recesses in a fixed armor plate;
b) the upper part of each movable armored element is formed by a surface mating with the spherical surface of the lower part;
c) cavities and channels are made in the body of each element with openings extending onto the outer surface tangential to the vertical line;
d) cavities and channels are filled with a quick-burning self-igniting composition.

 The prototype does not have the listed features, therefore, the invention meets the criterion of "novelty."

 Figure 1 shows the polyelement armor, top view; in Fig.2 a section aa in Fig. 1, a section of polyelement armor along the axis of one movable armor element; figure 3 illustration of the operation of the armor.

 The multielement armor consists of a fixed plate 1 with spherical recesses 2, fastened to it through a connecting element 3 of movable armor elements 4, in each of which a cavity 5 is made, filled with a quick-burning self-igniting composition 6, and channels with holes 7 exit tangentially to the normal Holes 7 in a particular case can be made in the form of a Laval nozzle, which leads to increased efficiency in creating a reactive destabilizing moment. In the movable armored element 4, the upper part is made conjugated with the spherical lower part in the form of an asymmetric recess (convexity) 8. The gaps between the movable armored elements can be made in the form of protruding polyhedra 9.

 Polyelement armor works as follows (figure 3).

 The flying projectile 10 penetrates the movable armor element 4 until this element is kept from being displaced by the connecting element 3 from being displaced relative to the fixed plate 1. After the connecting element 3 is broken and, therefore, the connection between the plate 2 and the element 4 is broken, the latter starts to move along a complex path due to the asymmetry of the applied force and the displaced center of mass, carries and destabilizes the projectile 10, which leads to the destabilization of the penetrating energy of the projectile. The destabilization of the penetrating energy of the projectile is additionally ensured by the rotation of the movable armored element 4 at the expiration of the decomposition products of a rapidly combustible self-igniting composition and a cumulative jet through tangentially located openings 7.

 To increase the efficiency of destabilization of the directed penetrating energy of different-caliber shells, bullets and fragments, the mobile armor elements of the polyelement armor can be multilayer. In this case, on a fixed plate are placed in several layers of different-sized movable armor elements fastened with connecting elements.

 When exposed to a projectile, a bullet, one or more layers of elements are activated, and the combined effect exceeds the total.

 The destabilization of the penetrating energy of the projectile allows not only to increase the protection of the armor, but also to provide ricocheting of the shells when it enters a spherical cavity (bulge) 8.

 Displaced spherical recesses (convexities) 8 also serve to give the initial moment of destabilization in the case of a projectile hit strictly in the center of the movable element 4.

 The surface between the movable armor elements, made in the form of protruding polyhedrons, provides ricocheting of the projectile when it enters into the intermediate space and creates an initial destabilizing moment, changes the direction of the projectile movement to the movable armor element, thereby reducing the unprotected area of the armor is minimized.

 The technical advantage of the invention is as follows. When exposed to armor, part of the kinetic energy of the projectile is spent on destabilizing its directed penetrating energy, i.e. the energy of the projectile contributes to its destabilization, and the initiating moment is the movable armor element. Polyelement armor is easy to maintain and recover from the effects of shells, bullets and fragments.

Claims (2)

 1. POLYELEMENT EQUIPMENT, containing movable armor elements, the lower part of each of which is formed by a convex spherical surface connected by a destructible connecting element with a fixed armor plate, characterized in that spherical recesses are made in the fixed armor plate to install the lower part of the movable armor elements, the upper part which is formed by a spherical surface conjugated with a spherical surface of the lower part, and a cavity is made in each movable armored element and, filled with quick-burning self-igniting composition, and tangential channels communicating with them, emerging on the surface of the upper part.  2. Armor according to claim 1, characterized in that the surface between the movable armored elements is made in the form of protruding polyhedra.