RU2094581C1 - Device for protection of structures - Google Patents

Abstract

FIELD: construction engineering. SUBSTANCE: this relates to protection of structures from action of cumulative projectiles. Installed on surface or inside earth covering of structure is one or two layers of charges of explosive material which can be arranged in fabric apron provided with earth anchors and guy straps. Apron is made from fabric with strength value of 25-75 kgf/cm. EFFECT: high efficiency. 4 cl, 3 dwg

Description

 The invention relates to the field of construction and can be used in the construction of field defensive structures for firing and surveillance, as well as other structures buried in the ground.

 A known device for the protection of structures, mainly field defensive, includes soil backfill, arranged on top of the protruding part of the building envelope structures.

 The known device provides protection of the structure from high-explosive shells, the action of which is extinguished by the soil sprinkling.

 A disadvantage of the known device is that it does not protect the structure from the action of cumulative means of destruction, and by increasing the thickness of reinforced concrete building envelopes and soil backfill, the necessary degree of protection against the action of cumulative means of destruction could be achieved, but at the same time it would lead to the loss by the structure of its combat properties.

 The aim of the invention is the creation of a reliable device for protecting field defenses against the action of cumulative weapons.

 To solve this problem, the structure is equipped with protective explosive charges that are installed on the surface or in the thickness of the soil sprinkling of the structure in one or two layers, separated by a layer of soil.

 The device for protecting structures can be made with a fabric cloth with pockets sewn on it close to each other to place explosive protective charges in them, while the fabric cloth can be equipped with soil anchors and guy ropes for fastening on the sprinkling of the structure, and fabric cloths can be interconnected by means of emergency files located in the eyelets made on the edges of each fabric, which can be made of fabric with strength on a gap based on 25.75 kgf / cm.

 The technical result that arises when solving this problem is that when a cumulative stream of ammunition enters the protective charge of an explosive, it detonates and under the influence of gaseous products of the explosion, the metal plates of the protective charge break the cumulative stream into separate fragments, the speed of which decreases due to soil filling in which or on which these protective charges are placed and together with which the soil backfill works. The presence of a fabric panel, its fastening on the backfill or inside it, the placement of protective charges in the pockets of the panel allows to increase the effectiveness of the protection of the structure by creating a continuous protective screen over the structure and ensuring the joint work of protective charges and soil.

 In FIG. 1 shows a device for protecting a structure; in FIG. 2 arrangement of layers of protective charges in the device; in FIG. 3 cloth panel for protective charges.

 A device for protecting field defensive structures includes a soil sprinkler 1 arranged on top of the protruding part 2 of a reinforced concrete building 3 structures, the thickness of which is 10.20 cm. The thickness of the soil sprinkler is 15.250 cm. The top of the sprinkler is covered with a masking layer of soil 4 with a thickness of 5.7 cm. On the surface of the sprinkler 1 or inside it, the protective charges of the explosive 5 are installed in one layer or in two layers, separated by a layer of soil 6 with a thickness of 10 20 cm.

 Protective charges are a casing containing at least one insert with a layer of explosive placed between two layers of metal plates. Such a charge is currently used to protect armored objects, such as tanks, on the armor of which a protective charge is fixed in the form of a container. The design of protective charges is described in the literature (Zaets A. The main means of protection. Technique of youth, 1990, N 11, pp. 46-49) and is protected by European patent EP 0161390 from 08.02.85.

 Protective charges 5 can be placed in fabric panels 7 made of fabric with a tensile strength of 25 75 kgf / cm to protect the structure. Such fabrics include synthetic nylon fabrics, for example, brands CBM, AP-K-133. Protective charges 5 in the fabric are placed in pockets 8 sewn onto the fabric of the same fabric close to each other. To protect the currently used defensive structure, four fabric panels 7 with dimensions of 3.5 x 1.5 m each with seventy-two pockets sewn on each panel are required 8.

 To fix the panel 7 in the dusting 1 of the structure, the fabric panels are equipped with soil anchors 9 and guy belts 10, and the panels are connected to each other by reserve files 11, passed through the eyelets 12, made along the edges of each fabric panel 7.

The device operates as follows:
after installing reinforced concrete building envelopes 3 of the defensive structure, sprinkling 1 is carried out, on which protective charges 5 are placed in pockets 8 of the fabric cloth 7. The cloth 7 is fixed and secured to the ground with braces 10 and soil anchors 9. A masking layer 4 of soil is poured over the protective charges. .

 When a cumulative weapon (for example, a reactive anti-tank grenade) enters the masking layer of soil 4, an explosive charge explodes and a cumulative stream forms, which, through the masking layer of soil 4, enters a protective charge 5 and continues to move in the thickness of soil dust 1 in the direction of reinforced concrete building envelopes 3 buildings.

After (1.2) • 10 ^-6 s, detonation is excited in the protective charge. The gaseous products of the explosion set in motion the metal plates of the protective charge housing. At the same time, the front plate of the body involves the movement of part of the masking layer of soil 4, and its rear side part of the soil sprinkling 1. Both plates are braked and their speed is slower than if they were installed freely without soil on the structure. This means that protective charges are longer on the trajectory of the cumulative jet and are able to act on it for a longer time. At the same time, the mass of moving material increases (a metal plate together with the soil), i.e. the destruction efficiency of the cumulative jet increases, which reduces the breakdown ability of the cumulative jet by more than 70% and ensures the non-penetration of the enclosing reinforced concrete structures of the structure. The movement of the back metal plate of the protective charge housing 5 deep into the soil sprinkling of the structure 1 causes local deformation of the dusting, which leads to the filling of the channel pierced by the cumulative jet in the dusting, which reduces the effect of the part of the jet passing through the hole pierced in the metal plates of the body at large angles between it and the trajectory of the jet. The placement of protective charges in the pockets of the fabric allows for continuous protection over the entire surface of the sprinkling structure.

For example, when a cluster cumulative ammunition falls at an angle of 60 ^o to the surface of the protective charge 5, its penetration ability in the proposed device is reduced by at least 60%, which ensures non-penetration of the reinforced concrete structure.

The presence of an additional / second / layer of protective charges 5 allows to reduce the breakdown ability of the cumulative means of monoblock construction at angles of 20 30 ^o not less than 90% and the breakdown ability of tandem weapons by 65 70%, which is confirmed by the experimental results.

 In the case of the action of tandem cumulative weapons, the outer layer of protective charges 5 destroys the cumulative charge stream, which cannot already detonate the inner layer of protective charges 5. This inner layer destroys the cumulative stream of the main charge of the tandem ammunition, just as a single-layer device destroys the cumulative stream of a single-block weapon defeat.

 The strength of the fabrics of the panel (25 75 kgf / cm) provides a small area of destruction of the device when a cumulative means of destruction gets into it. So, with a fabric strength of 35 kgf / cm, the destruction is approximately 5%, and with a strength of 8 10 kgf / cm, the destruction area of the device increases by 1.5 times.

 Thus, the proposed device for the protection of field defensive structures provides reliable and effective protection against the action of cumulative monoblock and tandem means of destruction.

Claims (5)

 1. A device for the protection of structures, mainly field defensive, for firing and surveillance, including soil sprinkling of building envelopes, characterized in that it is equipped with protective explosive charges mounted on the surface or in the thickness of soil sprinkling, the latter being placed in one or two separated a layer of soil tier.  2. The device according to claim 1, characterized in that it is equipped with a fabric panel with pockets sewn onto it closely to each other, and the protective charges of the explosive are located in the latter.  3. The device according to claim 2, characterized in that the fabric is equipped with soil anchors and brace bands for fastening in dusting.  4. The device according to claim 2, characterized in that the fabric is made of composite parts that are interconnected by means of emergency files located in holes with grommets made along the edges of each part of the fabric.  5. The device according to claim 2, characterized in that the cloth of the panel has a tensile strength on the basis of 25 to 75 kgf / cm.

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