RU2116607C1 - Bulletproof flexible structure - Google Patents

Abstract

FIELD: manufacture of means of individual protection, protection of foxholes, motor vehicles, etc. SUBSTANCE: proposed bulletproof flexible structure includes protective elements put on material of base and manufactured in the form of parts from hard material with reflecting side facing outwards. Base is made of elastic material and protective elements are not rigidly intertied but are arranged in material of base in several layers with overlapping of spacings between elements by following layers of protective elements. Reflecting side of protective element is fabricated in the form of cylindrical surface or combination of cylindrical surfaces in the form of angle pieces, pyramids or prisms. EFFECT: directed change of trajectory of travel of bullet. 4 cl, 2 dwg

Description

 The invention relates to means of protection against bullets and fragments and can be used both in personal protective equipment, for example in bulletproof vests, and to protect other objects, such as rifle cells, cars, etc.

 Known protective structures using metal plates that are overlapped or adjacent to each other. They constitute the outer protective layer, behind which there are shock-absorbing layers that disperse or absorb energy from a bullet (for example, USSR patent N 852182 "Soft protective construction", authored by G. Haupt et al .; [4] and others).

 The disadvantage of these structures can be considered a sufficiently large thickness of the plates, the need to ensure safety at the joints of the plates, the complexity of manufacturing products.

 Multilayer constructions are known that use various sets of composite materials or of high modulus, artificial or natural fibers (for example, ed. St. USSR N 1792518, ed. St. USSR N 1784830, etc.). The basic principle of action of these structures is to hold the bullet and quench its energy when interacting with elements or material of the structure.

 As a prototype of the invention, a product is selected in which reflective elements (OE) are made of solid material, made in the form of bodies bounded by two surfaces of revolution (hemisphere and cone), fixed with a fixing material with its spherical part in the recesses on the ceramic plate and facing conical part out, towards the arrival of the bullet. When a bullet enters the OE, the fixing material is violated and the OE is displaced, as a result of which the bullet changes its trajectory, capsizes and ricochets [1].

 The coincident feature in the prototype and the proposed design is the presence of elements with a reflective side, contributing to a change in the trajectory of the bullet and its rebound.

 The invention is aimed at improving the reliability of personal protective equipment against small arms fire (to almost any degree of protection), expanding the scope of application (both for protecting individual parts of the body, and for protecting individual objects: rifle cells, cars, etc.), reducing the complexity and cost of manufacturing samples.

 The technical result of the invention is the implementation of directional changes in the trajectory of the bullet.

 Achieving such a technical result is possible under conditions in which the bullet ricochets repeatedly while moving in a bulletproof flexible structure, in which the path change is directed away from the original aiming point and, as a result, from the protected object.

 The invention is characterized by the presence of protective elements (ZE), which are individual parts of a solid material, which are located in several layers in the base of an elastic material, for example rubber-like, and face in the direction of arrival of the bullet (outward) with a reflecting (rebounding) side. The reflecting side is made in the form of a cylindrical surface or a combination of cylindrical surfaces, for example, a surface of rotation of a cylinder, angles, prisms, pyramids with faces in the form of cylindrical surfaces, other cylindrical surfaces, their individual fragments. CEs are not rigidly interconnected and can have gaps between themselves. Despite the presence of gaps between the SE in the protective layer, continuous protection is carried out due to the mutual overlap of these gaps with the protective elements of subsequent layers.

 The invention differs from the chosen prototype by the following essential features: other forms of the reflecting side (cylindrical surfaces), a base made of elastic material, the absence of rigid bonds between the elements, and the multilayer arrangement of protective elements.

 In addition to the specified details and conditions characterizing the essential features, additional cushioning layers, external coatings, holders for solar protection, bullet catchers at the edges of the product, etc. can be used.

 In FIG. 1 is a vertical sectional view of a bulletproof flexible structure illustrating the principle of operation of the structure; in FIG. 2 - horizontal section.

 The bulletproof flexible structure consists of an outer cover 1, an elastic layer 2 and three layers of protective elements in the form of tube halves 3. To illustrate the principle of operation in FIG. 1 shows a bullet 4 and its path in construction. For better perception, the bullet’s channel of movement is indicated by a thin solid line and is not shaded. The extreme positions of the CEs occupied by them at the moment of interaction with the bullet are indicated by a dashed line and are also not shaded.

 Bulletproof flexible design responds as follows.

 Bullet 4 penetrates the outer coating 1, part of the layer of elastic material 2 and collides with the protective element 3. Since the SE is facing the arrival side of the bullet with the reflecting side and, in addition, being in an elastic medium when exposed to force, it can change its position within certain limits, he occupies a position that maximizes the ricochet of the bullet. Having changed direction, the bullet again collides with the SE of the next protective layer and again changes the direction of movement, etc. Thus, as a result of repeated collisions with the reflecting sides, the bullet changes the direction of movement and moves away from the original aiming point, and under certain conditions is reflected towards arrival.

 Additional significant factors weakening the action of the bullet are the elongation of the bullet path, its discrete loss of kinetic energy during collisions with the SE, and due to the reaction of the elastic layer, energy is scattered in different directions.

Claims (5)

 1. Bulletproof flexible design containing protective elements located in the base material, made in the form of parts of solid material with a reflective side facing outward, characterized in that the base is made of elastic material, and the protective elements are not rigidly interconnected and are located in the base material in several layers with overlapping gaps between the elements in the layer by subsequent layers of protective elements, while the reflective side of the protective element is made in the form of a cylindrical surface or combinations of cylindrical surfaces.  2. The construction according to claim 1, characterized in that the protective elements are made in the form of a corner formed by cylindrical surfaces.  3. The design according to claim 1, characterized in that the protective elements are made in the form of a pyramid, the edges of which are formed by cylindrical surfaces.  4. The construction according to claim 1, characterized in that the protective elements are made in the form of a prism, the edges of which are formed by cylindrical surfaces.  5. The design according to claim 1, characterized in that the reflective side of the protective element is made in the form of a surface of revolution.

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