RU92167U1 - COMBINED ARMOR - Google Patents

Abstract

1. Combined armor containing volumetric cells in the supporting frame, filled with armor elements, characterized in that the supporting frame is made in the form of at least two corrugated sheets interconnected by corrugations perpendicular to each other, while the profile of the corrugations is made in size armor elements that are installed in the corrugations on an elastic insulating substrate, and on the outside corrugated sheets are covered with flat sheets. ! 2. Combined armor according to claim 1, characterized in that the outer flat sheets are made of armored steel. ! 3. Combined armor according to claim 1, characterized in that the outer flat sheets are made of Kevlar. ! 4. Combined armor according to claim 1, characterized in that the armor elements are staggered. ! 5. Combined armor according to claim 1, characterized in that the joints of the armor elements of one corrugated sheet are located under the armor elements of another corrugated sheet.

Description

The utility model relates to armored structures designed to protect objects, in particular, military vehicles.

A known method of production and design of composite mosaic armored blocks [1]. The invention relates to armored structures, including composite materials. The essence of the invention lies in the fact that the composite mosaic armor block contains armor elements placed in a metal shell. Armor elements are placed with a gap relative to each other, the value of which is less than the caliber of the weapon. The shell is made of ductile metal with the possibility of formation of deformation leakage between the armor elements after a comprehensive reduction. The technical result is to increase the survivability of the armor block and the effectiveness of its use.

The disadvantage of this device is its great technological complexity of manufacturing.

Known multilayer armored barrier of the Open Joint-Stock Company "Moscow Helicopter Plant named after ML Mil" [2].

The invention relates to the construction of a multilayer armored barrier that protects against the effects of armor-piercing bullets, for use, for example, as armored panels of tanks, helicopters or other vehicles. The multilayer armored barrier contains an aluminum alloy substrate, a layer of adjacent aluminum oxide ceramic plates and an outer lining. The thickness of the ceramic plates is 0.8-1.2 of the thickness of the substrate, while the substrate is made of aluminum alloy with a tensile strength of at least 340 MPa, with a tensile elongation of at least 15% and with a hardness of 3.7-4.0 mm, and ceramic plates are made of alumina with a density of 3.3-3.9 g / cm ³ . Ceramic plates are bonded to the outer lining, the substrate and to each other in the layer at the places where their ends adjoin each other using glue with a density of 1-2 g / cm ³ , the thickness of the adhesive layer between the ceramic plates does not exceed 0.5 mm, and between these plates and substrate does not exceed 0.7 mm. The outer lining is made of two layers of fabric, such as fiberglass. The use of the invention is ensured by the simplicity of the design and the technology of its manufacture with the necessary durability when protecting against armor-piercing bullets.

The disadvantage of this design is its lack of structural rigidity and strength.

Known armor panel of the Russian Federal Nuclear Center. All-Russian Research Institute of Technical Physics. Academician E.I.Zababakhin [3]. This invention relates to armored structures and is intended to protect objects from damage by bullets and fragments. An armored panel is proposed that contains at least three interconnected identical corrugated layers, between which a filler is located. The corrugations of adjacent layers are in contact with the protrusions. At the points of contact, the protrusions are connected with the possibility of relative displacement in the plane of contact, and the filler is made loose of heat-resistant low-density solid material with a low coefficient of thermal conductivity and a high coefficient of friction. At the joints of the layers, elastic dampers are installed. The technical result of the invention is to increase the efficiency of dispersion of the kinetic energy of the impact.

The disadvantage of the design is its relatively large structural thickness formed by at least three corrugated layers. The cavities formed by the corrugations outside the panel are not filled with anything and create an unused volume.

However, despite its shortcomings, the latest technical solution may well serve as a prototype of the proposed one.

The problem solved by the proposed design is to increase the overall specific strength with increased armor protection.

This goal is achieved by the fact that the proposed combined armor containing volumetric cells in the supporting frame filled with armor elements is made as follows: the supporting frame is made in the form of at least two corrugated sheets interconnected by corrugations perpendicular to each other, while the corrugation profile is made according to the size of the armor elements that are installed in the corrugations on an elastic insulating substrate, and the corrugated sheets are covered with flat sheets outside. In this case, the outer flat sheets are made of armored material of armor steel, Kevlar, etc., and the armor elements are staggered.

Moreover, the joints of the armor elements of one corrugated sheet are located under the armor elements of another corrugated sheet.

1 and 2 show the proposed design.

The device contains a supporting frame, which is made in the form of at least two corrugated sheets 1 and 2, interconnected by corrugations perpendicular to each other, while the profile of the corrugations is made according to the size of the armor elements 3, which are installed in the corrugations on an elastic insulating substrate 4 and outside the corrugated sheets are covered with flat sheets 5 and 6. Sheets 1 and 2 are interconnected at the points of contact of the corrugations, for example, by welding or glue. The outer sheets 5 and 6 are attached in the same way. The joints of the armor elements 3 of one corrugated sheet 1 are located under the armor elements of another corrugated sheet 2.

The device operates as follows. When bullets and fragments are affected by the armor, the local local protection is provided by the armor elements 3, absorbing impact energy, and the ribs of the corrugations provide the general rigidity of the structure.

Thus, the proposed design with its structural and technological simplicity rationally uses all the material used, and due to this it has the highest specific indicators.

List of sources used

1. RF patent №2229674, Method of production and design of composite mosaic armored blocks.

2. RF patent No. 2180426, a multilayer armored barrier.

3. RF patent No. 2187061, Armor panel (prototype)

Claims (5)

1. Combined armor containing volumetric cells in the supporting frame, filled with armor elements, characterized in that the supporting frame is made in the form of at least two corrugated sheets interconnected by corrugations perpendicular to each other, while the profile of the corrugations is made in size armor elements that are installed in the corrugations on an elastic insulating substrate, and on the outside corrugated sheets are covered with flat sheets. 2. Combined armor according to claim 1, characterized in that the outer flat sheets are made of armored steel. 3. Combined armor according to claim 1, characterized in that the outer flat sheets are made of Kevlar. 4. Combined armor according to claim 1, characterized in that the armor elements are staggered. 5. Combined armor according to claim 1, characterized in that the joints of the armor elements of one corrugated sheet are located under the armor elements of another corrugated sheet.