RU2670007C1 - Shelter with protection from electromagnetic radiation - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to equipment for preventing earthquake consequences. In a shelter with protection from electromagnetic radiation, containing a frame, a sluice, places for accommodation of evacuees, a filter-ventilation device, a toilet and water and food supplies, while it is equipped with a block quick-erectable earthquake-proof construction containing a system of blocks and connecting elements, one of the blocks is made in the form of a rectangular parallelepiped with grooves made on four faces of the parallelepiped, in the plane of its symmetry, grooves are formed with cylindrical holes for the outer diameter of the cylindrical body of the connecting element, and the other blocks are interfaced with the first ones and are made in the form of a rectangular parallelepiped with spikes, executed on four faces of the parallelepiped, spikes being provided with cylindrical holes for the outer diameter of the cylindrical body of the connecting element, surfaces of the grooves and studs are equidistant, congruent and equal in number and are joined in a block, quick-build structure by means of connecting elements, connecting element for the blocks of the seismic resistant structure consists of an elastic cylindrical body, with mounting discs fixed to its ends, cavity of the cylindrical body is filled with a damping material and the body is made of two flanged, oppositely disposed and coaxial cylindrical threaded sleeves with fixed mounting discs fixed to their end part, on which the elements for threading the bushings into a single cylindrical body are made and is made of an elastic material, for example spring steel, the cavity of which is filled with a damping material, for example a VD-17 vibro-damping mastic, block quick-erectable earthquake-resistant structure contains, as lining, elements of a portable radiation shielding, each of which elements comprises a protective shell, a matrix with a filler, a reinforcing mesh, at the same time, rectangular sheets with holes are installed along the perimeter of the protective shell, attached to the protective polymeric material and providing the possibility of fixing and assembling protective screens on the walls of a block, prefabricated closed structure of the shelter, radiation protection part in the form of a protective shell of the portable radiation shield is made of a composite radio-absorbing material containing a ferrite-based powder filler and a polymer binder, material containing a mixture of barium hexagonal ferrite doped with scandium ions with a dispersion of 5 to 50 mcm with the addition of carbon nanotubes is selected as the powder filler, with the following component content, wt. %: barium hexagonal ferrite, doped with scandium ions, 58.80÷69.93; carbon nanotubes 0.1÷2; polymer binder 29.40÷39.96.EFFECT: invention relates to the technique for preventing the effects of earthquakes and is aimed at reducing the time of construction of a shelter.1 cl, 8 dwg, 1 tbl

Description

The invention relates to techniques for preventing the effects of earthquakes.

The closest technical solution to the claimed object is the shelter according to patent RU No. 2512854, А62С 31/02, containing a frame, a gateway, places to place evacuated, a filter-ventilation device, a toilet and supplies of water and food.

A disadvantage of the known construction is the relatively long construction time of the shelter.

EFFECT: reduced time for erecting a shelter by equipping the frame with a block closed structure.

This is achieved by the fact that in a shelter with electromagnetic radiation protection, containing a frame, a gateway, places for evacuated, a filtering device, a toilet, and supplies of water and food, it is equipped with a quick-assembled block-type earthquake-resistant structure containing a system of blocks and connecting elements, one of the blocks is made in the form of a rectangular parallelepiped with grooves made on four faces of the parallelepiped, in the plane of its symmetry, while the grooves are made with cylindrical holes they are for the outer diameter of the cylindrical body of the connecting element, and the other blocks are paired with the first and are made in the form of a rectangular parallelepiped with spikes made on four faces of the parallelepiped, while the spikes are made with cylindrical holes for the outer diameter of the cylindrical body of the connecting element, and the surface of the grooves and tenons are equidistant, congruent and isometric, and are connected in a block quick-mount structure by means of connecting elements, while the only element for blocks of an earthquake-resistant structure consists of an elastic cylindrical body, with mounting discs fixed at its ends, while the cavity of the cylindrical body is filled with damping material, and the body is made of two flanged, opposed and coaxial cylindrical threaded bushings, with rigidly attached to them the end part with mounting discs on which the elements for threaded connection of the bushings into a single cylindrical body are made and made of elastic material, e.g. an example made of elastic spring steel, the cavity of which is filled with damping material, for example, VD-17 vibrodamping mastic, wherein the block quick-assembled earthquake-resistant construction contains elements of a portable radiation-protective shield, each of which contains a protective shell, a matrix with a filler, reinforcing mesh, while along the perimeter of the protective sheath there are rectangular sheets with holes attached to the protective polymer material and providing the possibility of l fastenings and arrangements of protective shields on the walls of the block quick-erected closed shelter structure, and the radiation protective part in the form of a protective shell of a portable radiation protective shield is made of a composite radio-absorbing material containing a powdery filler based on ferrite and a polymer binder, moreover, the powdery filler is selected material containing a mixture of barium hexagonal ferrite doped with scandium ions with a dispersion of 5 to 50 microns with added eat carbon nanotubes, with the following contents, wt. %: barium hexagonal ferrite doped with scandium ions 58.80 ÷ 69.93; carbon nanotubes 0.1 ÷ 2; polymer binder 29.40 ÷ 39.96.

In FIG. 1 shows a general scheme of a shelter with a block enclosed structure; FIG. 2 is a structural diagram of a block prefabricated closed structure; FIG. 3 and 4 are axonometric projections of blocks with grooves and spikes for a prefabricated block closed structure, in FIG. 5 is a perspective view of a connecting element for a block closed structure; FIG. 6, 7 - variants of the connecting element for the block closed structure of the shelter, in FIG. 8 is a diagram of a portable radiation protective shield.

The shelter with protection against electromagnetic radiation (Fig. 1, 2) contains a frame 1, a gateway 5, places 10 for accommodating evacuated people, a filter and ventilation device equipped with a fan 7 and a filter 6, a toilet 9 and water and food supplies 8. To reduce the erection time Shelters, it is additionally equipped with a closed block structure 2 (Fig. 2), connected to the frame 1 shelters through blocks 3 with grooves and blocks 4 with spikes.

The block structure (Figs. 3 and 4) consists of elements made in the form of blocks, one of which is made in the form of a rectangular parallelepiped 22 with grooves 23 made in the plane of symmetry on the four faces of the parallelepiped 22 (Fig. 3 shows one groove made on one of the bases of the box 22). In this case, the grooves 23 are made with cylindrical holes 24 for the outer diameter of the cylindrical body 13 of the connecting element (Fig. 5-7).

Other blocks 25 (Fig. 4) of a quick-assembled block construction, which are paired with the first, are made in the form of a rectangular parallelepiped with spikes 26 made in the plane of symmetry on four faces of the parallelepiped 25 (Fig. 4 shows one spike made on one of the bases of the parallelepiped fifteen). In this case, the spikes 26 are made with cylindrical holes 27 for the outer diameter of the cylindrical body 13 of the connecting element (Fig. 5-7). The surface of the grooves 23 and the spikes 26 are equidistant, congruent and equal, and are connected in a block quick-mounted seismic-resistant design by means of connecting elements.

Each connecting element (Fig. 5) for blocks of an earthquake-resistant structure (Fig. 1) is installed in prepared holes made in blocks, and the blocks are alternating in a row: one block is made with spikes at the ends, and the other with grooves, while the blocks are connected by means of connecting elements, into pre-prepared and coaxially located holes.

The connecting element (Fig. 6) consists of two flange, opposite, and coaxial cylindrical threaded bushings 15 and 16, with mounting discs 11 and 12 rigidly attached to their end parts, on which elements are made for threaded connection of 14 bushings into a single cylindrical body 3, for example, turnkey flats (not shown in the drawing).

The connecting element is made damping, consisting of an elastic cylindrical body 13 (Fig. 6) made of an elastic material, for example, spring elastic steel, the cavity of which is filled with damping material, for example, VD-17 vibro-damping mastic.

A possible embodiment (Fig. 5 and 7) of the connecting element with coaxial and coaxially located inside the housing 13, a cylindrical tubular damping element 17, consisting of a cylindrical shell with bases 8 and 9, made of a rigid elastic vibration-damping material, for example of the type “Agate” ", The inner cavity 20 of which is filled with damping material, such as sand, or vibration damping mastic type" VD-17 ". The cavity 21 of the connecting element between the cylindrical body 13 and the outer surface of the cylindrical shell of the cylindrical tubular damping element 17 is filled with a less rigid vibration damping material, for example polyurethane.

A possible embodiment of a connecting element for blocks of an earthquake-resistant structure is when, mounted rigidly to the flange, opposed, cylindrical threaded bushings 15 and 16, the mounting discs 11 and 12 are made combined, consisting of at least three layers: the outer ones are rigid, and the third layer, located between them, is made damping (not shown in the drawing).

The connecting element for blocks of earthquake-resistant structures works as follows. During seismic vibrations, the displacement of blocks interconnected by connecting elements occurs, which leads to elastic deformation of their elastic cylindrical body 3 made of an elastic material, the cavity of which is filled with damping material, which leads to a decrease in the vibrations of the blocks even in resonant modes of seismic or vibrational effects. In this case, the blocks, due to the damping of vibrations by the connecting elements, maintain the integrity of the structure.

A variant of the cladding of a block prefabricated closed shelter structure with elements of a portable radiation protective shield is possible (Fig. 8).

The anti-radiation screen contains a protective shell 22, a matrix 23 with a filler reinforcing the mesh 24. Two rectangular sheets with holes 25 are installed along the perimeter of the protective shell, attached to the protective polymer material and providing the possibility of fastening and assembling the protective screens on the walls of the quick-erected closed structure of the shelter. The radiation protective part (RCH), inside which is enclosed a radiation absorbing material, consists of 92 masses. % tungsten powder as a filler and 8 mass. % silicone as a matrix, RZCh is placed in a polymer protective shell and a reinforcing mesh is included in it. In addition, the protective shell consists of two rectangular sheets of protective polymer material sewn along the edges with holes 25. In addition, a woven metal mesh was used as a reinforcing mesh.

The installation of a portable anti-radiation screen provides for conducting control measurements to determine the radioactive contamination on the protective sheath 22 after performing radiation-hazardous work to determine the number of layers of the radiation protective part (RCH) of the screen. If radioactive contamination is detected on the protective shell 22 after performing radiation-hazardous work, the protective shell must be decontaminated, and if it is not possible to reduce the amount of radioactive contamination of the protective shell to an acceptable level using decontamination, the protective shell must be disposed of.

When testing the material RZCh obtained the optimal ratio of tungsten powder and silicone. High values of the attenuation coefficient of gamma radiation are achieved due to the use of 92 masses in the rare-earth element. % tungsten powder and 8 mass. % silicone.

The use of a screen with the specified RZCh, the density of which is 7 g / cm ³ , provides high values of the attenuation _ratio K _donkey presented in the table. The table shows the attenuation _factor K of the _{donkey of} gamma radiation with an energy of 661.6 keV, depending on the thickness of the protection L.

When using the screen, a high uniformity of attenuation of gamma radiation over the area of the RF part of the product is ensured - the average value of the heterogeneity of the attenuation ratio is 3.5%.

On-screen protective shell RZCH - reusable. It can be removed, deactivated and changed. The reinforcing mesh RZCH helps to increase the strength of the proposed REZE in bending. Portable radiation protective shields based on tungsten metal powder and silicone are not carcinogens, do not pose a toxicological hazard, and work with them is not limited by sanitary and hygienic norms and rules.

A variant of the cladding of a block prefabricated closed shelter structure with a protective shell 22 with protection against electromagnetic radiation is possible.

The protective shell 22 of the portable protective shield is made of a composite material for absorbing electromagnetic waves based on a magnetodielectric material containing a polymer dielectric binder and a magneto-dielectric fine filler, the polymer dielectric binder being a polyorganosiloxane oligomer with an additive of a catalyst, which is a product based on gamma-aminopropyltriethoxysilane and the magnetodielectric fine filler nen of iron-aluminum alloy with a ratio (87,5 ÷ 88,5) :( 12,5 ÷ 11,5), wt.%, respectively, with the following ratio of the starting components in the composite material, by weight. %:

Polyorganosiloxane Oligomer 33.5 ÷ 40.0 Catalyst 1,5 ÷ 2,0 Finely dispersed magnetodielectric filler 65 ÷ 58

A variant of the cladding of a block prefabricated closed shelter structure with a protective shell 22 with protection against electromagnetic radiation is possible. A composite radar absorbent material containing a ferrite-based powder filler and a polymer binder. As a powdery filler, a material containing a mixture of barium hexagonal ferrite doped with scandium ions with a dispersion of 5 to 50 μm with the addition of carbon nanotubes was selected, with the following content of components, wt. %:

barium hexagonal ferrite doped with scandium ions, 58.80 ÷ 69.93 carbon nanotubes 0.1 ÷ 2; polymer binder 29.40 ÷ 39.96

Claims (2)

1. Shelter with protection against electromagnetic radiation, containing a frame, a gateway, places to place evacuated, filtering device, toilet and supplies of water and food, characterized in that it is equipped with a quick-assembled modular block earthquake-resistant structure containing a system of blocks and connecting elements, one of blocks are made in the form of a rectangular parallelepiped with grooves made on four faces of the parallelepiped in the plane of its symmetry, while the grooves are made with cylindrical holes under the diameter of the cylindrical body of the connecting element, and the other blocks are paired with the first and made in the form of a rectangular parallelepiped with spikes made on four faces of the parallelepiped, while the spikes are made with cylindrical holes for the outer diameter of the cylindrical body of the connecting element, and the surfaces of the grooves and spikes are equidistant congruent and isometric and are connected in a block pre-fabricated structure by means of connecting elements, while connecting an element for blocks of an earthquake-resistant structure consists of an elastic cylindrical body with mounting discs fixed at its ends, while the cavity of the cylindrical body is filled with damping material, and the body is made of two flanged, opposed and coaxial cylindrical threaded bushes with mounting discs rigidly attached to their end part on which the elements for threaded connection of the bushings in a single cylindrical body are made, and is made of an elastic material, for example, elastically spring steel, the cavity of which is filled with damping material, for example, VD-17 type vibration-damping mastic, moreover, the quick-erected block earthquake-resistant structure contains elements of a portable radiation protective shield, each of which contains a protective shell, a matrix with a filler, a reinforcing mesh at the same time, rectangular sheets with holes are mounted around the perimeter of the protective sheath, attached to the protective polymer material and allowing fastening and the layout of the protective screens on the walls of the block of prefabricated closed shelter design, and the radiation protective part in the form of a protective shell of a portable radiation protective shield is made of a composite radar absorbing material containing a powdered filler based on ferrite and a polymeric binder, and the material containing a mixture of barium hexagonal ferrite doped with scandium ions with a dispersion of 5 to 50 microns with the addition of carbon nanotubes, with the following content of components, wt. %: barium hexagonal ferrite doped with scandium ions, 58.80 ÷ 69.93; carbon nanotubes 0.1 ÷ 2; polymer binder 29.40 ÷ 39.96. 2. Shelter with protection against electromagnetic radiation according to claim 1, characterized in that the radiation protective part in the form of a protective sheath of a portable radiation protective shield is made of a composite material for absorbing electromagnetic waves based on a magnetodielectric material containing a polymer dielectric binder and finely dispersed magneto-dielectric filler, while the polymer dielectric binder is a polyorganosiloxane oligomer with the addition of a catalyst, representing present a product on the basis of gamma-aminopropyltriethoxysilane, and magnetodielectric finely divided filler is made of iron-aluminum alloy with a ratio (87,5 ÷ 88,5) :( 12,5 ÷ 11,5), wt. %, respectively, in the following ratio of starting components in the composite material, weight. %: polyorganosiloxane oligomer 33.5 ÷ 40.0; catalyst 1.5 ÷ 2.0; magnetodielectric fine filler 65 ÷ 58.

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