RU224511U1 - Anti-fragmentation mesh armor for ships - Google Patents

Abstract

The utility model relates to surface shipbuilding, namely to the field of means of protecting the crew located inside the ship's premises, as well as mechanisms and instruments from fragments of high-explosive fragmentation artillery shells and missiles. Mesh anti-fragmentation ship armor is made in the form of several, located at a short distance from each other on the outside of the ship, woven meshes made of anisotropic materials, with small clearance and wire diameter. The grids are attached to a stainless steel glass with a rubber coating, which is covered with a thin plate of ceramic material. Moreover, the closer the mesh layer is to the ship’s skin, the smaller the clearance and diameter of the wire. The declared technical solution does not have a significant impact on the landing parameters of the ship, due to the relatively low mass of the armor, and meets the requirements for protective properties.

Description

The utility model relates to surface shipbuilding, namely to the field of means of protecting the crew located inside the ship's premises, as well as mechanisms and instruments from fragments of high-explosive fragmentation artillery shells and missiles.

Known patent RU 112385 U1, class. F41H 5/00, composite anti-fragmentation ship armor, consisting of layers of composite materials, the number of which can be from 3 to 37, with a total thickness of 25 mm to 275 mm, depending on the class and rank of the protected ship. The disadvantage of the claimed technical solution is that the proposed design's own weight has a significant impact on the landing parameters of the ship.

The goal of this useful model is to eliminate the above-mentioned disadvantages, namely: increasing the effectiveness of the protective properties of armor, reducing the weight of armor.

This goal is achieved by the fact that, unlike the prototype, the armor is made in the form of several, located at a short distance from each other on the outside of the ship, woven meshes made of anisotropic materials, with small clearance and wire diameter. A thin plate of ceramic material is installed in front of the first layer of mesh. The number of meshes, the distance between them, the clearance and diameter of the wire are determined depending on the displacement and purpose of the protected ship, while the closer the mesh layer is to the hull of the ship, the smaller the clearance and diameter of the wire.

The essence of the claimed utility model is illustrated in Fig. 1 shows the ship's anti-fragmentation mesh armor.

Mesh anti-fragmentation ship armor includes a plate made of ceramic material 1 and meshes of anisotropic materials 4, which are mounted in a stainless steel cup 2 with a rubber coating 3. Such cups 2 cover the ship hull 5, in a place that requires protection from damage by fragments.

The mechanism of penetration by a damaging fragment operates as follows. When interacting with a ceramic plate, the inertia of the fragment is damped. When interacting with the first mesh, the fragment is divided into smaller parts, which, when passing through subsequent layers consisting of meshes with smaller gaps and wire diameters, are defragmented to particles of such a small size that, at a given speed, they are not capable of breaking through the skin of the ship. Woven meshes made of anisotropic materials have a relatively low mass, which does not have a significant effect on the landing parameters of the ship. At the same time, this design provides the necessary protective functions. The rubber coating of the cups provides protection from the negative consequences of their friction against each other when the ship's hull bends during rolling.

Thus, compared to the closest analogue, this utility model is novel, and the set of obvious distinctive features meets all the conditions for patentability.

Claims (1)

Anti-fragmentation mesh armor for ships, consisting of a glass in which woven meshes made of anisotropic materials and a layer of ceramic material are fixed, characterized in that the meshes are located at a distance from each other on the outside of the ship so that the closer the mesh layer is to the skin of the ship, the smaller the clearance and diameter of the wire, with the furthest layer from the ship's skin being a plate of ceramic material.