RU2188382C1 - Protective device against shaped-charge jet grenades - Google Patents

Abstract

FIELD: defense works, designed for protection of objectives against shaped-charge jet grenades. SUBSTANCE: protective device has protective components in the form of shields made of metal screens, with the cell size varying from half to one grenade caliber. The screen is made of wire, 1.4-3.0 mm in diameter and having an index of plasticity within 80-150 (MPa). EFFECT: enhanced protective properties of netted shields.

Description

 The invention relates to the field of armaments and military equipment and is intended to protect objects for various purposes, including checkpoints of stationary and mobile accommodation, places of concentration of military equipment, various shelters, poorly protected environmentally hazardous and explosive objects, etc. from the effects of anti-tank grenades of the PG-7 type, rocket-propelled anti-tank grenades RPG-18, RPG-22, RPG-26, RPG-27 and other similar types of weapons.

 The search for analogues of technical solutions was carried out by the sources of patent and scientific and technical information from Russia (USSR), the USA, Germany, France, Great Britain, Japan, and the European Patent Office for the period from 1975 to 2000. In the process of searching for analogues, promising directions and new principles for creating effective means of protection against the action of anti-tank grenades were identified. The most promising should include funds using deflecting elements.

 The authors chose the last direction in the development of protective equipment, which allows to solve this problem through the use of inexpensive materials with a sufficient degree of efficiency.

 As deflecting elements, various devices can be used in the form of a combination of plates located at different angles to each other, corrugations, thin-walled gratings, etc. The most effective means are metal grids, which at a certain location provide not only the deflection of the anti-tank grenades, but also initiate the explosion of the anti-tank grenade on the mesh screen, as a result of which the fragmentation and high-explosive effects of the grenade on the protected object are removed and the effect of the cumulative jet, engine fragments and stabilizer is reduced.

 The closest analogue of the claimed technical solution is the "Anti-grenade and bulletproof protective device" according to the patent of Russia 2122702, published on 11/27/1998

 The device is placed in front of the protected object and consists of metal shock-absorbing nets, for example, armor-plated or netting, mounted at an angle to each other at a distance between them greater than the length of the grenade, and their removal from the wall of the object is 1-15 grenade lengths. Metal mesh curtains have different cell sizes and are in a loose loose state. The curtain closest to the object has a cell size of at least half and no more than one caliber of a bullet, and more distant curtains - at least half and no more than one caliber of a grenade.

 The main disadvantage of the known device is the lack of requirements for the material from which the metal mesh of the curtains is made, so it is possible to use steel wire with low ductility indicators for these purposes. As a result of this, when a reactive grenade interacts with a grid, the grenade breaks can occur without initiating or deflecting, which can lead to the triggering of an anti-tank grenade on the protected object and its destruction.

 The aim of the present invention is to increase the protective properties of mesh screens.

 The specified technical result is achieved in that the protective device against reactive cumulative grenades includes protective elements in the form of screens made of metal grids with a cell size of from half to one caliber grenades. The mesh is made of wire with a diameter of 1.4-3.0 mm and an ductility index of 80-150 (MPa /%).

 In the manufacture of mesh screens, a steel wire is used with a normalized plasticity index, which is determined by the ratio of temporary resistance and relative elongation and should be in the range of 80 - 150 MPa /%, as well as structural parameters of the wire - with a diameter of 1.4-3.0 mm. When the cumulative grenade and the mesh screen interact, in order for the head part of the fuse to fire before the grenade breaks through the screen mesh, its kinetic energy should be approximately equal to the energy spent on the destruction of the mesh screen. This energy depends on the mechanical properties of the wire from which the mesh is made (temporary resistance - MPa and elongation -%), as well as its diameter. In the event that the value of the plasticity index is less than 80 and the wire diameter is less than 1.4 mm, then a small force is required to destroy the mesh screen and, therefore, the cumulative grenade can overcome the mesh screen without firing. If the ductility index exceeds 150, then due to the low ductility of the steel wire, there may be cases where strength properties are not realized, and when the mesh screen is destroyed, a small part of the grenade kinetic energy will be absorbed, which can also lead to a breakthrough of the grid without fuse triggering. The use of wire with a diameter of more than 3 mm for the manufacture of metal mesh screens is not advisable due to a significant increase in their mass and, therefore, the difficulty of installing such protective devices.

 The authors are not aware of technical solutions with the set of features indicated in the claims aimed at achieving the same goal as in the object claimed as an invention, therefore, the proposed technical solution meets the criterion of "significant differences".

 The authors conducted experimental firing of rocket-propelled anti-tank grenades in the conditions of one of the ranges 15 of the Research Institute of the Ministry of Defense of the Russian Federation with the aim of testing the indicated device, the mesh screen of which is made of wire with a diameter of 1.4 mm and a plasticity index of 100, showed its effectiveness and 100% operation of the cumulative grenade detonator.

 Based on the foregoing, the present invention in comparison with the prototype provides a positive effect and has the criterion of "positive effect".

Claims (1)

 A protective device against reactive cumulative grenades, including protective elements in the form of screens made of metal nets with a mesh size from half to one caliber grenades, characterized in that the mesh is made of wire with a diameter of 1.4-3.0 mm and an ductility index of 80- 150 MPa /%.