RU2778360C1 - Prefabricated protective structure of civil defense - Google Patents

Abstract

FIELD: population protection methods.

SUBSTANCE: invention relates to a product for protecting the population, personnel of the civil defense forces, including the largest working shift of the enterprise, as well as equipment and property from the effects of enemy attack means, as well as protecting the population in emergency situations, preventing or limiting the reduction of population losses and threats to it life and health from damaging factors and impacts of emergency sources. A pre-fabricated protective structure against high-explosive and fragmentation effects of civil defense weapons, consisting of main and auxiliary block modules connected horizontally using four-fold spikes for stacking, forming a single system. In order to ensure a closed sealing loop, a profiled rubber seal is glued at the joints of the block modules. To provide air supply to a single system of block modules, block modules are interconnected by air ducts made of pipes. Air is supplied to the air ducts of the block modules from a filtering chamber installed in one of the block modules. A hermetic valve is installed on each air duct of the block module to control the volume of supplied air and cut it off. The electrical wiring inside each of the block modules is laid along the contour with an installed sealed cable gland with a swivel cable fixation, and the cable glands are waterproof. The design of a single system of block modules along the perimeter and inside is reinforced with additional horizontal and vertical buttresses for stability and spatial immutability.

EFFECT: ensuring protection against high-explosive and fragmentation effects of weapons, including indirect action of nuclear weapons, from local and general effects of conventional weapons, such as impact and explosion of high-explosive ammunition, from the action of poisonous substances (PS), radioactive substances (RS) and bacterial agents (BA), from the action of penetrating radiation, through the use of multilayer materials of the walls of block modules, as well as increasing strength, stability and spatial invariability through the use of buttresses, polymer-composite inserts made of carbon fiber and quadruple spikes.

9 cl, 2 dwg

Description

The invention relates to a product for protecting the population, personnel of the civil defense forces, including the largest working shift of the enterprise, as well as equipment and property from the effects of enemy attack means, as well as protecting the population in emergency situations, preventing or limiting the reduction of population losses and threats to it life and health from damaging factors and impacts of emergency sources.

From the prior art, a modular shelter and a method for its construction are known, disclosed in the document RU 2529991 C2, publ. 10.10.2014. The modular shelter comprises an inner front module having a flat base and side walls that extend from the base, and an airlock, an outer front module slidably attached to the inner front module, with an airtight seal between the inner front module and the outer front module, wherein the outer front module has a front attachment portion, an inner rear module, and an outer rear module slidably attached to the inner rear module, wherein an air-tight seal is provided between the inner rear module and the outer rear module, wherein the outer rear module has a rear attachment portion by which the outer rear module is attached to the front outer front module attachment portion when the outer front module and the inner front module are in the extended state, and the outer rear module and the inner rear module are in the extended state , and the outer front module and the outer rear module are attached, while the outer front and rear modules and the inner front and rear modules form an airtight chamber. In this case, each attachment area is an outer flange, and between each attachment area, when they are attached to each other, there is an outer seal. Meanwhile, in the compact state, the inner front flange of the inner front module and the front attachment portion of the outer front module are flat and separated and spaced apart from the inner and outer rear modules. Moreover, the bracket is attached to the inner front module and the outer front module when the inner and outer front modules are in a compact state to hold the inner and outer front modules in a compact state.

The disadvantage of the known modular shelter is the impossibility of protecting sheltered from the action of an air shock wave, high-explosive action of conventional weapons, the action of toxic and radioactive substances, bacterial agents.

Known modular protective shelter, disclosed in the source of information WO 2020056276 A1, publ. 03/19/2020, which provides resistance to fire, explosion and toxic effects.

The modular shelter includes two or more precast concrete modular segments, each of which includes an embedded foundation, an embedded roof, and one or more side walls extending between the embedded foundation and the roof; at least one precast concrete vestibule segment including an embedded foundation, an embedded roof, at least three side walls extending between the embedded foundation and the roof, as well as external and internal doors located in respective side walls. Meanwhile, the precast concrete modular segments and the precast concrete vestibule segment are configured to attach to each other to provide a completely enclosed space within the modular shelter.

The disadvantage of the known modular shelter is the poor protection against high-explosive and shrapnel action of conventional weapons.

The closest analogue, selected as a prototype, is a protective structure of civil defense of a block-modular type of full factory readiness, disclosed in document RU 2634320 C1, publ. 10/25/2017. The fully prefabricated block-modular civil defense protective structure consists of separate metal containers to protect users from the external environment. The load-bearing structures of the outer walls, bases and ceilings of containers are reinforced on the inside with mutually perpendicular metal posts and beams, as well as with the help of transverse metal beams from a rolled profile. From the outer sides of the extreme block modules, metal buttresses are installed, fixed to the vertical metal racks of reinforcing the outer walls and anchored in a soil or concrete base, and the protective structure is mounted on the surface of the earth without excavation by excavation and subsequent sprinkling with soil.

The disadvantages of the known constructions is the unsatisfactory protection against high-explosive and fragmentation action of conventional weapons due to the use of thin-layer metal, as well as the lack of full protection against radioactive radiation and high temperatures.

The above disadvantages are eliminated in the claimed technical solution, due to the fact that in the proposed pre-fabricated protective structure of civil defense (hereinafter referred to as BVZS), block modules of different functional purposes are used, designed to perceive different combinations of loads and impacts, connected into a single system of a given shape with a closed sealing loop. The block modules use the modern concept of creating a composite (multilayer) protection against the action of an air shock wave (including the indirect action of nuclear weapons), from local and general actions of conventional weapons (impact and explosion of high-explosive ammunition), from the action of poisonous substances (S), radioactive substances (RS) and bacterial agents (BS), from the action of penetrating radiation.

For protection, they are used in the most effective combination, taking into account the penetrating ability: metal (steel) sheets; aramid fiber (Kevlar); polymer-composite inserts in the most vulnerable places, and steel sheets are used, which have the least resistance to rupture.

The technical result of the proposed solution is to provide protection from the action of an air shock wave, including the indirect action of nuclear weapons, from local and general actions of conventional weapons, such as impact and explosion of high-explosive ammunition, from the action of toxic substances (S), radioactive substances (RS) and bacterial agents (BS), from the action of penetrating radiation, through the use of multilayer materials of the walls of block modules, as well as increasing strength, stability and spatial invariability through the use of buttresses, polymer-composite inserts made of carbon fiber and quadruple spikes .

The technical result is achieved by the fact that the prefabricated protective structure of civil defense against the action of an air shock wave, from the local and general actions of conventional weapons, from the action of poisonous substances (S), radioactive substances (RS) and bacterial agents (BS), from the action of penetrating radiation , consisting of the main and auxiliary block modules, connected horizontally with the help of quadruple spikes for stacking, forming a single system, while at the joints of the block modules, a profiled rubber seal is glued to ensure a closed sealing loop, to ensure air supply to a single system from the block modules, block-modules are interconnected by air ducts from pipes, and air is supplied to the air ducts of block-modules from a filter-ventilation chamber installed in one of the block-modules, while a hermetic valve is installed on each air duct of the block-module to regulate the volume of supplied air and its cutoff, the electrical wiring inside each of the block modules is laid along the contour with an installed sealed cable gland with swivel cable fixation, and the cable glands are waterproof, the design of a single system of block modules around the perimeter and inside is reinforced with additional horizontal and vertical buttresses for stability and spatial immutability, and each block module contains a power metal frame, with walls, coating, floor, made of multilayer, in the following order, starting from the outside:

- radiation-resistant polymer coating, made of modified cement-barite X-ray protective plaster, which is applied to concrete blocks from the inside;

- a covering layer made of a profiled membrane based on high-density polyethylene (HPDE) with a web thickness of 0.8 mm, and a vapor-moisture barrier film;

- four layers of aramid, with two layers in the longitudinal direction and two in the transverse direction, and is a synthetic fiber of high mechanical and thermal strength with a thread breaking load of 260 sn/tex and a thread strength in microplastics of 600 kg/mm ² ;

- polymer-composite inserts;

- hot-rolled sheet steel St20 3 mm thick with anti-corrosion protection with a factory double-sided silicate-enamel coating with MK-5 enamel;

- sandwich panels made of PIR polyisocyanurate with eccentric locks 200 mm thick, soundproof sandwich panels for walls, roofing and flooring 42.5 mm thick; and to ensure the spatial rigidity of the metal frame of the block module between the steel buttresses and the slopes along the perimeter, polymer-composite inserts made of carbon fiber are additionally installed.

According to their functional purpose, the block modules are subdivided into the main ones, premises for hiding and storing food, sanitary units and posts; and auxiliary: diesel generator set (hereinafter - DGU), filter ventilation, emergency exit, regenerative.

For additional protection and tightness, an external waterstop is used, which is mounted after assembling all the block modules into a single structure in a leaky outer side with a silicone-based sealant.

The claimed solution is implemented as follows, taking into account the examples below.

The main block modules are designed to shelter people and store food and contain sanitary units and posts.

Auxiliary block modules containing a diesel generator set (hereinafter - DGU), filter ventilation, emergency exit, regenerative installations are necessary for life support.

Block-module with a diesel-electric power plant (DPP), contains a diesel generator set (DGU) for rated power, a remote cooling unit, a fuel reserve tank, an automatic backup power unit (AVR), DGU control cabinets, a fuel pump, a ventilation unit , a compartment with batteries, disconnecting devices, automation devices, instrumentation and automation (I&C).

The block-module with a diesel-electric station ensures the supply of guaranteed power supply to the BVZS, when the external power supply is turned off, the AVR switches the operation of all devices from the external power supply to the power supply from the DGU.

Auxiliary filter-ventilation module is equipped with the following equipment: filter-ventilation chamber, ventilation units, absorber filters FP-300, hermetic valves, cell filters of the FYARb type, automation cabinets.

The filter-ventilation block-module provides air supply to the BVZS, purified from dust, toxic substances (S), radioactive substances (RS) and bacterial agents (BS).

Air intake is carried out from the environment, with its subsequent purification in absorber filters and distribution by block modules, depending on the volume of required air and the air exchange rate.

The emergency exit block-module ensures the exit of sheltered from the BVZS to the outside, is a ventilated vestibule. Contains environmental sensors. When using BVZS for hydraulic structures in the zone of possible flooding in case of a breakthrough of the pressure front, the height of the exit to the surface above the flood mark is regulated.

The regenerative block-module provides life support for those sheltered in ventilation mode III in case of emergency chemically hazardous substances (AHOV) and / or fires. The regenerative block module for operation includes:

- in case of AHOV: regenerative installation, cylinders with air supply, hermetic valves, air reduction and drying device;

- in case of fires: regenerative installations, absorber filters of the FP, FG, FMSh types, regenerative cartridges of the RP type, air coolers, ventilation unit.

Depending on the functional purpose and location of the BVZS, it can be additionally equipped with block modules:

- for hydraulic structures with different wave break heights, i.e. in case of complete flooding of the area up to a certain level of the earth's surface, a separate docking module for hydraulic structures is used, which allows you to get to the surface above the flood level.

- for enterprises with emergency chemical hazardous substances (AHOV) (chemical industry), it is necessary to use the BVZS with a complete isolation mode, which does not use outside air, and for enterprises with the presence of a large amount of flammable substances (storage of diesel fuel; when located in a continuous forest array) it is necessary to use the partial isolation mode, which uses outdoor air purified from carbon monoxide (CO), turns on the ventilation mode, which provides oxygen supply due to the air regeneration system installed inside the BVZS. Outside air for breathing is not used.

- in areas of continuous fires, BVZS are completed with block modules containing a regenerative installation, absorber filters, regenerative cartridges, hermetic valves, automation devices, instrumentation and automation (I&C). For life support, in the event of a fire at the BVZS installation, taking into account the high gas content of combustion products, the ventilation mode is switched on, providing oxygen supply due to the air regeneration system installed inside the BVZS, to perform the necessary excess pressure inside the BVZS, outside air is taken in a limited volume.

- a tambour-gateway to ensure separate reception of those sheltered by the locking method, it is completed with intercoms, call bells.

- medical operating room, equipped with sterilization and dressing equipment, tools and materials for performing emergency medical operations.

- medical sanitary, equipped with a medical couch, cabinets with medicines, cabinets with clothes and dressings, a set of medical instruments to ensure a medical examination of people entering the BVZS.

- sanitary, equipped with washing cabins, containers for collecting and discharging contaminated water, containers for storing clean and dirty clothes to enable disinfection of sheltered people when placed in the BVZS.

All block modules provide protection for:

- from thermal impact, and providing heat and sound insulation, the following materials are used: expanded polystyrene; polyurethane foam panels; rubber filling of the BVZS cavities, the use of these materials provides a microclimate in accordance with the codes of practice for life support and protection.

- from the high-explosive and fragmentation effects of conventional weapons, taking into account the penetrating ability, the concept of creating a composite (multilayer) protection is applied in the most effective combination of materials such as metal (steel) sheets, aramid fiber (Kevlar), polymer-composite inserts in the most vulnerable places;

- from radioactive radiation and penetrating radiation, the effects of high temperatures, taking into account the use of modern structural materials and technical solutions;

- from the action of poisonous substances (OS), radioactive substances (RS) and bacterial agents (BS).

The order of arrangement of materials for combined protection, starting from the outside:

• radiation-resistant polymer coating, modified cement-barite X-ray protective plaster is applied to concrete blocks, it is also the first outer layer of BVU, it is necessary to weaken the effect of penetrating radiation, to protect the subsequent layer from mechanical influences.

• covering layer, waterproofing, vapor-moisture protection, profiled membrane based on high-density polyethylene (HPDE) with web thickness: 0.8 mm, vapor-moisture barrier film, designed to protect against the effects of atmospheric precipitation and moisture of subsequent layers (protection of steel sheets from corrosion due to moisture ingress, protection against swelling of aramid yarns).

• four layers of aramid (aromatic polyamide), two layers in the longitudinal and two in the transverse direction - a synthetic fiber of high mechanical and thermal strength with a thread breaking load of 260 sn/tex and a thread strength of 600 kg/mm ² in microplastics, necessary to protect against high-explosive and fragmentation action of ammunition.

• polymer-composite inserts for protection against high-explosive and fragmentation action of ammunition.

• hot-rolled sheet steel St20 3 mm thick with anti-corrosion protection with factory double-sided (in two layers, coating thickness 0.6 mm along the entire length) silicate-enamel coating with MK-5 enamel, necessary for protection against high-explosive and fragmentation action of ammunition

• polyisocyanurate (PIR) sandwich panels with 200 mm eccentric locks, soundproof sandwich panels for walls and ceilings 42.5 mm thick, designed to create a thermal circuit, reduce noise and reverberation inside the BVZS.

Additionally, polymer-composite inserts made of carbon fiber are installed in the cells between steel buttresses and slopes around the perimeter, which provide spatial rigidity of the metal frame of the block module.

The use of composite protection with the application of a radiation-resistant polymer coating by sputtering (including polyethylene) as a finishing layer ensures the attenuation of penetrating radiation by a factor of 1000, which meets the requirements of the set of rules for ZSGO SP 88.13330.2014.

Also, for the BVZS, it is provided for lining it with reinforced concrete slabs and blocks along the perimeter to protect against the action of an air shock wave (including with the indirect action of nuclear weapons), from local and general actions of conventional weapons (impact and explosion of high-explosive ammunition), from the action of poisonous substances (S), radioactive substances (RS) and bacterial agents (BS), from the action of penetrating radiation.

In order to comply with the requirements of Section 7 of SP 88.13330.2014 in terms of ensuring the bearing capacity of the BVZS, its design was strengthened after structural calculations with the creation of a finite element model, additional horizontal and vertical buttresses around the perimeter and inside the BVZS.

For additional protection and tightness, an external waterstop is used, which is mounted after assembling all the block modules into a single structure in a leaky outer side with a silicone-based sealant caulked.

To pass from one block-module to another, doors and shutters are installed in the openings, protective and protective-hermetic according to the type series 01.036-1, which provide protection from penetrating radiation of each block-module.

Protection against penetrating radiation with an attenuation factor of more than 1000 is provided by covering the block-modules with soil 800 mm thick.

Heat and sound insulation is provided by polyisocyanurate (PIR) sandwich panels with 200 mm thick eccentric locks, soundproof sandwich panels for walls and ceiling 42.5 mm thick.

Block modules for providing air supply are interconnected by air ducts made of steel electric steel pipes of the St20 grade with a wall thickness of 6 mm. Air supply to the BVZS is carried out from the block-module "Filter-ventilation chamber", a hermetic valve is installed on each air duct to be able to regulate the volume of supplied air and cut it off, if necessary.

The electrical wiring inside each of the block modules is laid to the circuit with a specially installed sealed cable gland with a swivel cable fixation. The cable glands are waterproof. The connection is made with industrial connectors (3P+N+E IP66/IP67 32A 6h 346-415 VAC).

Block modules are delivered in full factory readiness. A site is being prepared at the facility for the installation of the structure, reinforced concrete products and the required volume of soil are provided. Docking of block-modules is carried out with the help of a jib-type crane. Block modules are connected horizontally with the help of four stacking spikes (see Fig. 1, Fig. 2).

Quadruple spikes contain an intermediate plate 1 and cones 2. The upper and lower cones must keep the connected block modules from horizontal movements. The intermediate plate is used to fasten the block modules to each other.

Thus, the BVZS takes into account the requirements (Section 7 of SP 88.13330.2014) for the creation of enclosing and supporting structures of the BVZS, taking into account the calculation for special combinations of loads consisting of permanent, long-term, short-term and one of the special loads: dynamic from overpressure of an air shock wave .

Due to the use of modern modeling systems based on specialized software, composite technologies, this characteristic of the BVZS meets the required level of security.

Claims (17)

1. A prefabricated protective structure of civil defense against the action of an air shock wave, from local and general actions of conventional weapons, from the action of poisonous substances (S), radioactive substances (RS) and bacterial agents (BS), from the action of penetrating radiation, consisting of the main and auxiliary block modules, connected horizontally with the help of four stacking spikes, forming a single system, at the same time, a profiled rubber sealant is glued at the joints of the block modules to ensure a closed sealing loop, to ensure air supply to a single system of block modules, block the modules are interconnected by air ducts from pipes, and the air supply to the air ducts of the block modules is carried out from a filtering chamber installed in one of the block modules, while a hermetic valve is installed on each air duct of the block module to regulate the volume of supplied air and cut it off, electrical wiring inside each block k-modules is laid along the contour with an installed sealed cable gland with swivel cable fixation, and cable glands are waterproof, the design of a single system of block modules around the perimeter and inside is reinforced with additional horizontal and vertical buttresses for stability and spatial immutability, with each block the module contains a load-bearing metal frame with walls, coating and floor made of multilayer, in the following order, starting from the outside: - radiation-resistant polymer coating, which is applied to concrete blocks; - covering layer; - four layers of aramid, with two layers in the longitudinal direction and two in the transverse direction; - polymer-composite inserts; - hot-rolled sheet steel; - sandwich panels; - soundproof sandwich panels; and to ensure the spatial rigidity of the metal frame of the block module, polymer-composite inserts made of carbon fiber are additionally installed between the steel buttresses and slopes around the perimeter. 2. A prefabricated protective structure of civil defense according to claim 1, characterized in that modified cement-barite X-ray protective plaster is used as a radiation-resistant polymer coating. 3. A prefabricated protective structure of civil defense according to claim 1, characterized in that the covering layer is made of a profiled membrane based on high-density polyethylene (HPDE) with a web thickness of 0.8 mm and a vapor-moisture barrier film. 4. A prefabricated civil defense protective structure according to claim 1, characterized in that aramid is a synthetic fiber of high mechanical and thermal strength with a thread breaking load of 260 sn/tex and a thread strength in microplastic of 600 kg/mm ² . 5. A prefabricated protective structure of civil defense according to claim 1, characterized in that sheet steel of the St20 grade 3 mm thick was used, with anti-corrosion protection, with a factory double-sided silicate-enamel coating with MK-5 enamel. 6. A prefabricated protective structure of civil defense according to claim 1, characterized in that the sandwich panels are made of PIR polyisocyanurate with 200 mm thick eccentric locks. 7. A prefabricated protective structure of civil defense according to claim 1, characterized in that soundproof sandwich panels 42.5 mm thick are used for the walls, coating and floor. 8. A prefabricated protective structure of civil defense according to claim 1, characterized in that, according to the functional purpose, the block modules are divided into the main ones: premises for hiding and storing food, sanitary facilities and posts; and auxiliary: diesel generator set, filter ventilation, emergency exit, regenerative, air overpressure. 9. A pre-fabricated protective structure of civil defense according to claim 1, characterized in that for additional protection and ensuring tightness, an external waterstop is used, mounted after assembling all the block modules into a single structure in a leaky outer side with silicone-based sealant caulked.

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