RU2750189C1 - Protective gabion device - Google Patents

Abstract

FIELD: defensive structures.SUBSTANCE: invention relates to defensive structures that are designed for fortification equipment of positions of motorized infantry, tank and artillery units, points of temporary deployment of troops in a short time in order to protect personnel, military equipment, transport and material assets. The protective gabion device is a frame made in the form of a gabion, filled with filler. The gabion frame is additionally provided with straight threads attached from the inside, forming its own frame and the filler is made in the form of soil mixed with randomly located high-strength Kevlar threads connected repeatedly to each other.EFFECT: reducing the depth of penetration and increasing the survivability of the structure, and therefore reducing the probability of damage to the protected object.1 cl, 2 dwg

Description

A protective gabion device (ZGU) refers to defensive structures that are designed for fortification equipment in a short time of positions of motorized rifle, tank and artillery units, points of temporary deployment of troops in order to protect personnel, military equipment, transport and materiel, and can also be used during the construction of hydraulic structures, strengthening the slopes of roads, as pre-fabricated fences for flood control measures associated with flooding of rivers, lakes, reservoirs and an increase in the water level on the sea coast.

There is a known device implemented in the invention "Protective wall of gabions" (RF patent for invention No. 2459904, IPC E02B 3/04, E02B 3/12, E02D 17/20, published on August 27, 2012). The protective wall consists of a frame that forms a three-dimensional multi-section structure of gabions. Gabions are made in the form of truncated pyramids, including lateral sections of the knitting mesh, connected to trapezoidal transverse mesh frames. The transverse mesh frames have hinges for removing the gabion frame. At the same time, the angles at the base are equal to the average angle of repose of the compacted soil aggregate.

The disadvantage of this technical solution is a significant depth of penetration of shells into the structure, low survivability and a high probability of hitting protected objects of a volumetric gabion structure from the impact of shells due to the use of "natural compacted soil filler".

Also known is a device implemented in the invention "Gruntogabion" (RF patent for invention No. 2131493, IPC E02B 3/12, 3/04. E02D 17/20, published 10.06.1999), taken as a prototype. In the ground gabion, which is a mesh frame made of galvanized metal wire with a filler, and the frame is equipped with an inner cover made of synthetic geotextile material or fiberglass, and soil or dispersed material is used as a filler, including a heat-insulating material with mechanized filling and compaction of the filler, mainly by pressing ... The dispersed material used was asbestos waste, tailings of processing plants, granulated slag, ash-ash waste from power plants, burnt rocks of mine workings, peat.

The advantage of such a gabion device in comparison with the invention "Volumetric gabion construction" (RF patent for invention No. 2651591, E02B 3/04, E02B 3/12, E04H 9/04, F41H 3/02 published on April 23, 2018) is that that as a filler, in addition to the "soil filler", dispersed material is used: asbestos waste, tailings of concentration plants, granular slag, ash ash from power plants, burnt rocks of mine workings and peat, which undoubtedly expands the range of gabion filler and, in some cases , its vitality.

The disadvantage of this technical solution is the low viscosity of the proposed filling of the gabion device, as a consequence - the still significant depth of penetration of the projectile into the structure, low survivability of the gabion device, high probability of hitting the protected object.

The objective of the present invention is to reduce the likelihood of hitting the protected object.

This problem is solved by adding high-strength threads, for example, Kevlar, to the filler of the gabion device, which are repeatedly interconnected.

Due to the addition of high-strength threads, which are repeatedly interconnected, to the filler, the projectile penetrating into the gabion device increases the amount of energy required to penetrate the gabion device and destroy the protected object.

FIG. 1 shows a possible arrangement of threads, where: 1 - the frame of the gabion device, 2 - straight threads, which are the frame for randomly arranged threads.

FIG. 2, position 3 corresponds to an example of randomly arranged threads, poured together with the main filler.

In general, the proposed invention operates as follows.

When installing a protective gabion device, straight threads are attached to the frame from the inside, forming its own frame. After that, the protective gabion device is filled with the main filler, for example, soil, mixed with threads. Thanks to the threads, which are repeatedly interconnected, their engagement with other elements of the gabion filling, a kind of network is formed that increases the overall viscosity of the structure, resisting the movement of one part of it relative to the other. When the projectile (its part) penetrates into the gabion device, it engages with the threads, as well as parts of the gabion filling elements, which are hooked by the threads, which increases the mass that the projectile (its part) has to pull along with it. Accordingly, the values of the projectile's own energy, spent on penetrating the structure, increase significantly, and therefore the probability of its "getting stuck" inside the gabion device increases and, consequently, the probability of hitting the protected object decreases.

The technical result of the invention is to reduce the likelihood of damage to the protected object.

Claims (1)

A protective gabion device, which is a frame made in the form of a gabion filled with a filler, characterized in that the frame of the gabion is additionally equipped with straight threads attached from the inside, forming its own frame, and the filler is made in the form of soil mixed with randomly located high-strength kevlar threads, knitted many times between themselves.

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