RU2367883C2 - Fortified structure - Google Patents

Abstract

FIELD: weapons.

SUBSTANCE: invention relates to fortified structures for personnel protection against modern munitions. Proposed fortified structure consists of carcass and flexible fabric cover to be laid on over the said carcass. The latter is made from ellipse rings with thickness-to-width ratio making 1:10, while height-to-width ratio being equal to 1.85-1.9.

EFFECT: easier assembly, lower costs, reduced time of assembly.

4 dwg

Description

The invention relates to the field of fortifications used in the engineering equipment of the terrain to protect personnel at positions and in areas where troops are located from the effects of modern weapons.

The known design of the fortification frame-fabric structure LKS-3 (light frame structure) is an analogue (Instructions for the use of light frame structure, M., Military Publishing House, 1961), consisting of the frame of the main building and the entrance in the form of separate rings of ellipsoid shape from pipes aluminum alloy and flexible fabric coating.

The construction of a fortification structure is also known - a prototype (DE No. 3242080, Е04Н 9/00, 1984, 6 pp.), Consisting of a frame and a flexible fabric coating placed on top of the frame.

The disadvantages of such technical solutions are: a large number of operations for the assembly of cores; the complexity of their extraction from the ground for reuse or elimination of deformations and damage to frame elements (coatings); the high cost of kits and the lack of reliability of structures to ensure repeated use.

The main objective of the proposed technical solution is to reduce the complexity of the assembly of the frame, the time of erection of the structure and the cost of the kit for its one-time use without the expense of effort, money and time to remove from the ground when changing positions and areas of troop locations.

The solution to this problem is achieved by the fact that in it the frame is made of rings of elliptical shape with a ratio of the thickness of the cross section to its width of 1:10, and their height to width - 1.85-1.9.

Such a technical solution ensures the integrity of the construction of the fortification structure due to the lack of prefabricated elements, which significantly reduces the time of its construction, creates convenience during transportation and storage in warehouses. The stability of the structure is achieved by the joint work of the frame and fabric coating with soil.

The essence of the proposed technical solution is shown in the drawings: in Fig.1 is a General view of a fortification installed on the surface of the earth; figure 2 is a plan of a fragment of a fortification, located in the ground; figure 3, 4 shows a flat element of an ellipsoidal shape, respectively, front view and in section.

The fortification structure (Figs. 1, 2) consists of a frame made of rings 1 of an elliptical shape, with walls 2 of rectangular cross section (Fig. 4) with a ratio of thickness (a) to width (b) of 1:10, and their height to width - 1.85-1.9 and the ratio of small diameter (d) to large diameter (D) of rings 1: 2 made of materials of mass production of minimum cost, while a flexible fabric coating 3 is attached to the outer surfaces of the walls 2, rigidly clamped soil 4 (figure 2). The entrance to the structure is closed by a door (curtain) 5.

In the transport position, the construction kit is folded into a compact package that can be easily transported by a crew of 2-3 people and can be transported by any vehicle.

The fortification is deployed and installed in a regulatory position in the pit or trench. The structure of the structure is decomposed (folded) on the principle of "accordion" with equal distance (pitch) between the rings of an elliptical shape 1 and the uniform tension of the flexible fabric 3 between them (figure 2). Before the installation of the structure in the walls of the pit (trench) 6, using the template, slots 7 are arranged with a depth corresponding to the width of the working cross section (a), for laying the walls of the rings 2 with the fixed flexible fabric coating 3. The frame is fixed and the flexible coating of the skeleton is ensured filling with soil 8 slots 7 with the rings 1 inserted into them and the spaces between the flexible coating and the wall of the foundation pit 6. After unfastening the structure of the structure, the structure is covered with soil to the required thickness.

The stability and bearing capacity of the proposed design from the action of the calculated short-term dynamic load is ensured by pinching the skeleton of the skeleton with soil, redistributing the transmitted pressure to a flexible fabric coating, its flexibility and corresponding physical and mechanical characteristics.

The design of the fortification, designed for one-time use, is made using semi-finished products of mass consumption of industrial production with a minimum cost; ring elements of an ellipsoidal shape are made of material with an elastic modulus in the range from 30,000 to 150,000 kgf / cm ² and a bulk weight of 400-1,200 kgf / m ³ , and a flexible fabric coating is made of material with an elastic modulus of 60-100 kgf / cm and resistance to stretching in the range from 20 to 35 kgf / cm.

The use of material with the proposed limit values of physico-mechanical properties from semi-finished products of industrial production of mass consumption in the construction of the structure allows you to transfer the structure to protect personnel from the category of multiple to the category of single use, which eliminates the need for effort, money and time to remove from the soil for reuse when changing positions and areas of location of troops. The calculation results carried out at the Grant Research and Development Institute have shown that the proposed design has sufficient stability, bearing capacity, low cost, ease of manufacture and can be transferred to the category of disposable fortification materials. The cost of similar structures is 10-12 times higher than the proposed design.

The readiness of the proposed technical device for implementation is confirmed by the presence of working drawings and manufactured working layout of the fortification structure (figure 1).

Experimental studies and calculations have confirmed that the proposed fortification according to the main criterion for assessing "application efficiency - cost" has indicators about 5 times higher compared to existing analogues.

Using the fortified structure of the proposed design will reduce by 2 times the time for its construction and 10-12 times reduce the cost of the kit.

Claims (1)

A fortification structure consisting of a carcass and a flexible fabric coating laid on top of the carcass, characterized in that the carcass is made of ellipsoid rings with a ratio of the thickness of the cross section to its width of 1:10 and their height to the width of 1.85-1.9.

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