RU2609772C1 - Method of car armor producing - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to method of car armor producing. Method involves using a substrate and protective cylindrical elements tightly arranged on it, above which outer lining is arranged. Substrate, layer of protective cylindrical elements and lining are connected together by adhesive substance. Protective cylindrical elements are formed as hollow metal cylinders. Inner diameter, as well as the gap size between cylinders is smaller than that of small arms bullets.

EFFECT: reliable protection of personnel and equipment at hitting armored protection with small arms bullets is achieved.

4 cl, 1 dwg

Description

The invention relates to armored protective structures used in various fields of technology, namely, structures designed to protect against small arms bullets [F41H 5/04].

A COMPOSITE ARMOR is known [UK patent No. 2191275] comprising armored plates offset relative to each other in depth, a series of armored layers located between them, each inclined at a significant angle to the plane of the back plate, and air gaps or rubber are formed between the armored layers of the metal plates. gaskets. The disadvantage of this composite armor is that it is intended mainly for protection against sliding damaging elements and does not provide high protection efficiency with a direct hit of the damaging element.

BACKGROUND OF THE INVENTION A COMPOSITE ARMOR BARRIER [RF patent for utility model No. 140126], comprising a layer of ceramic elements that are made in the form of hemispherical elements bonded to the outer lining, the substrate and each other in the layer, as well as at the junctions of the side surfaces of the hemispherical elements to each other using sealant.

The closest in technical essence to the claimed solution is a COMPOSITION ARMOR BARRIER [RF patent for utility model No. 128306] containing a substrate and protective cylindrical elements densely located on it made of ceramic, on top of which there is an outer lining, while the substrate, a layer of protective cylindrical elements, as well as cladding bonded together by an adhesive.

The disadvantages of these analogues are the formation of an additional damaging field of fragments of ceramic elements with multiple bullets and the destruction of the integrity of the lining, which can affect manpower and equipment, as well as insufficient quenching of the kinetic energy of the bullet.

The technical result of the invention is the provision of reliable protection of personnel and equipment when small arms bullets get into the armor protection, as well as providing effective extinction of the kinetic energy of a bullet.

The specified technical result is achieved due to the fact that the claimed method of making armor of a car, characterized by the use of the substrate and the protective cylindrical elements tightly located or with a gap on it, on top of which the outer lining is placed, the substrate, the layer of protective cylindrical elements, and the lining are connected between an adhesive substance, characterized in that the protective cylindrical elements form in the form of hollow metal cylinders, the inner diameter, and also the size of the intermediate between which carry less than the diameter of bullets of small arms. In particular, metal cylinders hollow from composite materials are made of ductile metals.

In particular, epoxy resins or any high-strength adhesive resins or various types of sealants are used as the adhesive.

In particular, the openings of the hollow cylinders are filled with epoxy.

Brief Description of the Drawings

In FIG. sectional view of armor protection is presented.

The implementation of the invention

The method of making the car’s armor can be implemented by the fact that the armor protection comprises a substrate 1 on which a layer of hollow metal cylinders 2 is located, over which the lining 3 is located.

The holes 4 in the metal cylinders are made smaller than the diameter of the smallest used caliber of small arms bullets.

The spaces 5 between the cylinders are also made smaller than the smallest caliber of small arms used.

The substrate 1, the cylinders 2, as well as the cladding 3 are bonded together by an adhesive, which can be used as epoxy resins or various types of sealants.

In one embodiment of the invention, the openings 4 may be filled with epoxy resin or any other material.

Hollow metal cylinders 2 can be made of various plastic grades of steel or other metal.

The use of hollow metal protective elements reduces the mass of armor protection, while maintaining the protective properties.

The thickness of the cladding can be less than 1 mm and is optimal in weight to 3 mm. Depending on the purpose, the thickness can be more than 3 mm.

Armor protection works as follows.

When it enters the armor protection, the bullet penetrates the outer lining 3, pierces it and comes into contact with one or more protective elements 2. The action of the bullet causes significant stresses in the protective elements, as a result of which they deform plastic and extinguish the kinetic energy of the bullet. In this case, the bullet is destabilized and deformed.

The technical result of the invention is the provision of reliable protection of personnel and equipment when small arms are hit by using hollow metal cylinders 2 made of plastic metal composites as protective elements. When a bullet enters the protective element, its plastic deformation occurs, while an additional damaging field of fragments of the protective element does not form.

The technical result of the invention is the provision of effective quenching of the kinetic energy of a bullet due to its transformation into plastic deformations of hollow metal elements 2.

Claims (4)

1. The method of making the car’s armor, characterized by the use of a substrate and protective cylindrical elements tightly located on it, on top of which an outer cladding is placed, the substrate, a layer of protective cylindrical elements, as well as the cladding are interconnected by adhesive, characterized in that the protective cylindrical elements form in the form of hollow metal cylinders, the inner diameter, as well as the size of the gaps between which perform less than the diameter of the bullets of small arms. 2. The method according to claim 1, characterized in that the hollow metal cylinders are made of ductile metals. 3. The method according to claim 1, characterized in that the adhesive used epoxy resin or any high-strength adhesive resin or various types of sealants. 4. The method according to claim 1, characterized in that the holes of the hollow metal cylinders are filled with epoxy resin.

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