RU2833182C1 - Protective fortification - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to the field of construction, namely to the prefabricated, and, if necessary, collapsible, field protective structures of the Ministry of defence for the protection of personnel and equipment from the effects of air attacks, including unmanned aerial vehicles (UAV), and enemy artillery fire, as well as for shelter from atmospheric effects and bad weather, and can be used in construction of trenches, erected using engineering equipment in areas of concentration of troops. Protective fortification arranged in trench comprises side walls and roof-coating made of panels, wall and roof-coating panels, respectively. Side walls include waterproofing, which covers the side slopes of the trench, and wall panels from the profiled flooring, wherein in the transverse direction the profiled flooring of each wall panel is fastened by stiffeners placed along the entire length of the structure at a distance from each other, which ensures the perception of the design loads of the structure, wherein each stiffening rib is made in the form of a spatial truss, and the lower and upper ends of the stiffening ribs of the opposite side walls of the structure are interconnected by spacers, forming a stiffness arch and a base, on which a roof covering panel is laid, made of a profiled flooring, on top of which there are sheets of composite material and a power flooring assembled from universal modular elements, profile of each of which in cross-section is an open trapezoid, the upper small base of which is a base-shelf, and the lower larger base is made open, wherein the load-bearing flooring of the coating is laid on top of the roof-coating panel with support on the ground, and a composite woven cloth is laid on top of the load-bearing flooring of the coating of the structure and soil is filled.

EFFECT: production of prefabricated elements of prefabricated, and, if necessary, collapsible, protective fortification structure, which can be easily delivered to the installation site.

1 cl, 4 dwg

Description

The invention relates to the field of construction, namely, to quickly erected, prefabricated, and, if necessary, collapsible, field protective structures of the Ministry of Defense for the protection of personnel and equipment from the effects of air attacks, including unmanned aerial vehicles (UAVs), and artillery shelling by the enemy, as well as for shelter from atmospheric influences and bad weather, and can be used in the construction of trenches, ditches erected using engineering equipment in areas of troop concentration.

A mobile fortification structure is known according to the patent of the Russian Federation No. 67598, class E04B 1/343, 2007, including the frame of the main room and auxiliary rooms telescopically extendable from it. The frame of the main room is made of the main, middle and upper blocks laid on top of each other, fastened together with tie bolts, and to increase the useful area, the middle and upper blocks can be connected to the main room by the end or side sides using sliding sealed grooves, while to improve the operating conditions and increase the strength properties, they are provided with folding, hinged spacer floors, and mechanisms for their installation and removal.

The device is integral and structurally complex during delivery, requiring the use of a crane. In combat conditions and in the field, where there is mud and access to the installation site is only possible on special or tracked vehicles, the use of a crane is problematic.

A field prefabricated and collapsible fortification structure is known according to the patent of the Russian Federation No. 2721552, class E04H 9/12, 2020, consisting of the main and backup entrances and the frame of the structure made of volumetric concrete blocks, a heat-protective element. Volumetric concrete blocks are connected by prestressed composite reinforcement, for which channels and recesses are formed in volumetric concrete blocks during their manufacture at the plant for passing prestressed reinforcement, while volumetric concrete blocks additionally have grooves at the junctions with other blocks, and on one side of the block a sealing gasket is installed in the groove, ensuring the tightness of the structure at the joints.

The device consists of concrete blocks, which are structurally complex to deliver and install, requiring the use of a crane. In field conditions and in combat situations, using a crane to unload and install such a structure is extremely difficult.

A similar decision is the decision on the patent of the Russian Federation No. 2751172, class E04H 9/16, 2021. It has the same problems.

In the context of a special military operation conducted by the Russian Federation since 24.02.2022, the installation of cylindrical construction trailers or parallelepiped-shaped transport containers as dugouts has also found application.

These bunkers, although easy to install (can be erected quickly), also require the use of a crane.

A transformable field protective structure is known according to the patent of the Russian Federation No. 169611, class E04B 1/343, 2017, consisting of a frame and an input device assembled from frame and shell elements. In the structure, the supporting frame of the skeleton is made using innovative technology from composite materials of polygonal design with lower curvilinear elements and end diaphragms with built-in protective and hermetic doors connected to each other by means of two synthetic shells, an external supporting one and an internal heat-insulating one, deployed in the operational position by spacer rods of eccentric compression by means of the action on them of the end diaphragms with supports on the supporting elements of the frame, in places of their probable deflection under load, while to fix the skeleton in a stationary working state, its ends are fixed from the inside to the ground with anchor stakes, and to maintain a favorable temperature and humidity microclimate inside, additional heat-protective panels of the "sandwich" type are installed on the outside.

In combat conditions and, as the practice of modern warfare has shown, the use of military transport aviation is problematic in the presence of enemy air defense.

Therefore, delivery is possible only by ground transport.

Despite the fact that the transportation of individual elements of this structure can be carried out by any type of freight transport, in order to transport all parts of the structure, it is necessary to make quite a few trips of a special truck there and back.

These transport costs are not justified from a logistical point of view, and are also associated with the risk of detection by the enemy due to the excessive activity of cargo transport.

A field prefabricated and collapsible fortification structure is known according to the patent of the Russian Federation No. 2526076, class E04N 9/04, 2014, containing walls and a covering made of panels and backfilled with soil. The structure is made prefabricated and collapsible from identical flat wall panels and identical bent covering panels, all panels are fastened together end-to-end, while all panels along their periphery have evenly spaced embedded parts with threaded holes, into which bolts are screwed through the connecting elements of the panels, the top of the entire structure under the soil backfill is covered with a durable waterproofing coating, and wall panels with openings with doors built into them are used for the entrances to the structure and for the partitions of the structure.

Despite the fact that the transportation of individual elements of this structure can be carried out by any type of freight transport, but due to the fact that individual elements are large-sized panels (walls and roof), several trips of a special truck will be required to transport all parts of the structure.

In addition, after the structure is assembled and filled with soil, it cannot be dismantled until it is dug out, since in the event of an attempt to dismantle a structure that is already covered with soil, the soil may interfere with the dismantling process at the time of separation of its elements, filling the interior of the structure. Thus, dismantling this structure requires special equipment for digging or requires long manual digging, which is logistically unjustified in combat conditions. As a result, this structure will simply be left in place and dismantled only after the end of combat operations in this area, and this circumstance requires the use of another similar container. Consequently, the prototype solution, although collapsible, is of a one-time use nature in combat conditions.

Also, the disadvantage is the limited volume of the structure, initially specified during design. Thus, increasing the space of the structure by adding additional identical modules is problematic.

A collapsible fortification structure is known according to the patent of the Russian Federation No. 2804955, class E04H 9/12, 2023, adopted by the applicant as a prototype. It contains walls and a roof, the structure is made collapsible from identical flat and bent panels, all panels are fastened together end-to-end, and flat panels with openings with doors are used for entrances to the structure. All flat and bent panels are made with bends at the end, where they have correspondingly located fastening holes into which bolts are inserted, and opposite wall panels in the lower part are connected by at least one row of struts, where pallets are installed on the upper strut, forming a floor. The bent panels have arched stiffeners on the inside, and the flat wall panels have horizontally located stiffeners on the inside. In the upper part, in the area where the bent panels are connected, loops are fixed, which makes it possible to dismantle the structure without the need to dig up the soil. The wall panels of the structure are fixed in such a way that in the end section they look like an inverted pyramid.

Despite the fact that the transportation of individual elements of this structure can be carried out by any type of freight transport, but due to the fact that individual elements are large-sized panels (walls and roof), transportation will take a very long time.

These transport costs are not justified from a logistical point of view, and are also associated with the risk of detection by the enemy using reconnaissance drones due to the excessive activity of cargo transport.

In addition, after the structure is assembled and filled with soil, it cannot be dismantled until it is dug out, since in the event of an attempt to dismantle a structure that is already covered with soil, the soil may interfere with the dismantling process at the time of separation of its elements, filling the interior of the structure. Thus, dismantling this structure requires special equipment for digging or requires long manual digging, which is logistically unjustified in combat conditions. As a result, this structure will simply be left in place and dismantled only after the end of combat operations in this area, and this circumstance requires the use of another similar container. Consequently, the prototype solution, although collapsible, is of a one-time use nature in combat conditions.

Also, the disadvantage is the limited volume of the structure, initially specified during design. Thus, increasing the space of the structure by adding additional identical modules is problematic.

The technical problem in the creation of protective structures, including quickly erected ones, is the need for their industrial production based on the use of universal elements of the structure, which constitute the minimum nomenclature and allow for compact and easy transportation of components to the installation site, as well as allowing for manual assembly using hand tools, the created protective structure, which at the same time does not require lifting mechanisms during loading/unloading and installation, and heavy freight transport during transportation.

The technical problem is solved by the fact that in the proposed solution the protective structure, containing walls and a roof covering, made of panels, respectively wall panels and roof covering panels, having stiffening ribs, each wall panel and roof covering panel is made of profiled sheeting, and each stiffening rib is made in the form of a spatial truss, while the covering of the structure is made in the form of a power flooring, which is assembled from universal modular elements.

In addition, the profile of the universal modular element in section is an open trapezoid, the upper small base of which is a shelf base, and the lower larger base is made open, with the power decking of the roof laid on top of the roof panel with support on the ground.

The technical result achieved by using the proposed solution is that a quickly erected, and if necessary, collapsible, protective fortification structure is obtained from industrially manufactured elements, easily delivered to the installation site. In addition, a structure is obtained consisting of the minimum required number of standardized component elements, compactly transported and quickly assembled and disassembled manually, using hand tools, and also ensuring minimum construction time with the least expenditure of effort and resources. In addition, the design of the component elements used allows them to be transported by light-duty vehicles, namely: Pickup, Gazelle, UAZ, IZH, VIS, etc., by road trains with or without trailers. The design of the assembled proposed protective structure provides the necessary conditions for protecting personnel and equipment from the effects of air attacks, including unmanned aerial vehicles (UAVs), and enemy artillery shelling, as well as from atmospheric influences and bad weather, and from natural disasters.

Fig. 1 shows a protective fortification structure, a cross-section, with an additional covering made of component elements and a power flooring, and a fill of soil covering the structure;

Fig. 2 shows a universal modular element manufactured industrially, from which the power flooring is assembled;

Fig. 3 shows a stiffening rib manufactured industrially and made in the form of a spatial truss, front view;

Fig. 4 - graph of ultimate loads on different types of profiles made from materials of different thicknesses;

The declared protective structure in cross-section is made in the form of a trapezoid installed on a small base, the side sides of which are walls 1 and 2, and the upper base is a roof covering 3. Walls 1 and 2 and roof covering 3 are made of unified panels made of profiled sheeting made of structural thin-walled steel sheet or of composite material. The profile of the structure trench is determined in advance by the dimensions of the selected profiled sheeting. The side wall 1 and 2 includes waterproofing 4, which covers the side slopes of the prepared trench and wall panels 5 and 6 made of profiled sheeting. Waterproofing 4 protects the erected protective structure from moisture ingress from the outside into the premises, creating normal humidity conditions, protecting against excessive dampness, and can be made, for example, of woven fabric.

In the transverse direction, the profiled sheeting of each wall panel 5 and 6 is fastened with stiffening ribs 7, located along the entire length of the structure at a certain distance from each other, ensuring the perception of the design loads of the structure. Stiffening rib 7 is made in the form of a spatial truss, which is made of light steel thin-walled structures of a C-shaped profile, the lower 8 and upper 9 belts of the spatial truss are connected to each other by posts 10 and diagonals 11. The lower ends of the stiffening ribs 7 of the opposite side walls of the structure are connected to each other by a spacer 12. The C-shaped profile used for the manufacture of the spatial truss stiffening rib 7 is also included in the minimum list of standardized component elements, which are manufactured industrially on automatic lines.

The upper ends of the lateral stiffening ribs 7 are connected by the same spatial truss, forming a stiffening arch and a base on which the panel 13 of the roof covering 3 is laid. On top of the panel 13 of the roof covering 3, also made of profiled sheeting, sheets (mats), a woven fabric 14 of a composite material are laid, which protects the roof covering 3 from dynamic effects. The spatial trusses connected to each other not only form a stiffening rib 7 in the form of an arch, but also repeat the shape of the cross-section of the structure, made in the form of a polygon.

At the bottom of the trench, a trench 15 is made along its base for collecting and draining groundwater, and the floors 16 in the structure are made, for example, from under the bottoms.

In order to enhance the reliability of the erected protective fortification structure and to preserve personnel, the structure's covering is made in the form of a load-bearing deck 17 assembled from universal modular elements 18, in accordance with the perceived loads of the selected profiled load-bearing deck (Fig. 4). The profile of the universal modular element 18 in section is an open trapezoid, the upper small base 19 of which is a shelf base, and the lower larger base 20 is made open.

And in order to reduce deformations of the structure's covering under the impact of loads arising from the explosion of destructive means, and to facilitate the speed of erection and extraction for reuse, the load-bearing flooring 17 of the covering is laid over the panel 13 of the roof-covering 3 with support on the ground. And over the load-bearing flooring 17 of the structure's covering, a composite woven fabric 21 is laid and a backfill of soil 22 is made to absorb loads and dynamically protect the structure from destruction and penetration of destructive means.

The protective structure is erected in the following manner.

A pit or trench is prepared in advance, depending on what kind of protective structure needs to be built and depending on the operational situation in the areas of troop concentration, with the possible use of engineering equipment. The bottom of the trench is planned and marked to the size of the future shelter, a trench 15 is made to collect and drain groundwater.

After this, or simultaneously with the preparation of the trench, elements of the profiled sheeting are brought in for the manufacture of wall panels 5 and 6 and panels 13 of the roof covering 3. A set of universal modular element 18 for the assembly of the load-bearing sheeting 17 of the structure covering is also delivered to the construction site, as well as component elements manufactured industrially in the form of spatial trusses for use as stiffeners 7, which are delivered to the construction site already assembled, which reduces the time for the construction of the structure and saves effort and money. And other material necessary for the construction of the shelter.

Since the elements of profiled sheeting and the universal modular element 17 are manufactured industrially on profile bending lines, they are standardized products that are compactly and easily delivered to the assembly site, stacked. Transportation of these components in this form is possible even by light-duty vehicles, such as: Pickup, Gazelle, UAZ, IZH, VIS with or without a trailer. At the same time, these products do not require the use of lifting mechanisms during loading, unloading and installation.

Before assembling the structure, the subassembly of wall panels 5 and 6 and panel 13 of roof-covering 3 is performed, as well as the subassembly of load-bearing decking 17 of the covering. The component parts, profiled decking and universal modular element 18, from which wall panels 5 and 6 and load-bearing decking 17 of the covering are assembled, allow them to be assembled manually using hand tools.

The installation of the structure begins with covering the side slopes of the prepared trench with a woven waterproofing fabric 4. Then, the assembled wall panels 5 and 6 are applied to the slopes covered with waterproofing 4, and stiffening ribs 7 are installed and fastened to the wall panels 5 and 6 evenly along the entire length, forming stiffening arches and a base for laying the panel 13 of the roof covering 3.

The upper horizontal stiffening rib 7 is connected to the lateral stiffening ribs 7, the lower ends of which are connected to each other by a spacer 12, increasing the rigidity of the structure.

On top of the panel 13 of the roof covering 3, sheets 14 made of composite material are laid to protect the roof covering 3 from dynamic impacts and shock waves, and pallets, for example, are laid as floors 16.

Then, perpendicular to the longitudinal axis of the shelter, the power flooring 17 of the covering is laid. Made from a universal modular element 18, it is laid with an open large base 20 on sheets 14 of composite material with the formation of air voids that help reduce the density, pressure and speed of propagation of the shock wave and external dynamic effects on the structure.

Moreover, a composite woven fabric 21 is laid over the power flooring 17 of the structure covering and a fill 22 of protective soil covering is made over the structure to withstand external loads and dynamically protect the structure from destruction and penetration of destructive agents. The structure is ready.

Thus, a quickly erected, and if necessary, collapsible, protective fortification structure was built from component elements manufactured industrially and easily delivered to the assembly and installation site.

After the final construction of the shelter, the location of the protective structure is camouflaged.

The use of the proposed technical solution allows to obtain a quickly erected, and if necessary, collapsible, protective fortification structure from industrially manufactured component elements, easily delivered to the installation site. In addition, a structure is obtained consisting of the minimum required number of standardized component elements, compactly transported and quickly assembled and disassembled manually, using hand tools, and also ensuring minimum construction time with the least expenditure of effort and resources. In addition, the design of the component elements used allows them to be transported by light-duty vehicles, namely: Pickup, Gazelle, UAZ, IZH, VIS, etc., by road train with or without trailers. The design of the assembled proposed protective structure provides the necessary conditions for protecting personnel and equipment from the effects of air attacks, including unmanned aerial vehicles (UAVs), and enemy artillery shelling, as well as from atmospheric influences and bad weather, and from natural disasters.

Patent No. 2561127, class E04G 11/40, E04B 5/40, 2015, “Permanent formwork for monolithic floors”, patent holder Sergei Mikhailovich Anpilov, was used.

Claims (1)

A protective fortification structure located in a trench, comprising side walls and a roof covering made of panels, respectively wall panels and roof covering panels, characterized in that the side walls include waterproofing, which covers the side slopes of the trench, and wall panels made of profiled sheeting, wherein in the transverse direction the profiled sheeting of each wall panel is fastened with stiffening ribs placed along the entire length of the structure at a distance from each other, ensuring the perception of the design loads of the structure, wherein each stiffening rib is made in the form of a spatial truss, and the lower and upper ends of the stiffening ribs of the opposite side walls of the structure are connected to each other by struts, forming a stiffening arch and a base on which a roof covering panel is laid, made of profiled sheeting, on top of which sheets of composite material and a load-bearing sheeting assembled from universal modular elements are laid, the profile of each of which in section is an open trapezoid, the upper small base of which is a shelf base, and the lower larger base is made open, wherein the load-bearing decking of the roof is laid on top of the roof-covering panel with support on the ground, and on top of the load-bearing decking of the structure's roof, a composite woven fabric is laid and a soil backfill is made.

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