RU126341U1 - DOME CONSTRUCTION - Google Patents

Abstract

1. The dome structure, characterized by the presence of a monolithic strip foundation located on a sand and gravel cushion in the form of a ring in the plan, which is made on top in the form of two conical surfaces, one of which faces inward of the foundation and the other outward, conjugated with the formation of the foundation in cross section obtuse angle, the apex of which defines the apex of the foundation, which runs along its entire perimeter, of a dome having the shape of a segment of a sphere, of a smaller hemisphere, conjugate with the foundation along the top facing inward of a conical surface, which consists of an outer layer of weather-resistant continuous material of air-bearing formwork, a layer of polyurethane foam deposited on the inner surface of the outer layer, and also a carrier layer located further inward of the dome, reinforced with sets of median arcs and parallel in the form of concentric rings of fiberglass rods reinforced with basalt and / or polymer fibers and made of fiber-reinforced concrete with a filler from segments of basalt and / or polymer GOVERNMENTAL fibers and the concrete foundation, located inside the dome on sandy dumping fundamenta.2 above the belt. The construction according to claim 1, characterized in that at least part of the fiberglass reinforcement rods of the dome in the form of concentric rings is made in the form of continuous rings with one joint. The construction according to claim 1 or 2, characterized in that the foundation contains segments of reinforcing rods located in the directions of the medians of the dome, released and connected with reinforcing rods of the dome located in these directions

Description

The utility model relates to the field of construction, and specifically to a dome structure, which can be erected in cold climatic zones with significant rainfall on permafrost soils in areas with high seismic activity and can be used as a residential building, or as a structure for solving special problems, including taking into account the possibility of constructing a radio-transparent dome.

A domed structure is known that contains a strip foundation, having a ring shape in plan, a hemisphere-shaped dome consisting of an outer layer of weather-resistant continuous material of air support formwork, fixed with an edge to a closed foundation, a layer of polymer material conjugated with the outer layer on its inner side, located next inside the dome of a concrete layer reinforced with sets of bars located in the directions of the medians and parallel to the rods, and also containing a concrete base located horizontally inside the strip foundation with the interface with its inner wall. The foundation contains segments of reinforcing rods located on vertical planes, released and connected with the reinforcing rods of the dome, which are also located in the directions of the medians, and protrudes beyond the surfaces of the dome both inside and outside (TW 460642 V, IPC E04B 1/32, 1999 )

Known dome structure containing a strip foundation, having a planar shape and a cross section in the shape of an inverted "T", a dome of curvilinear volumetric shape from the outer layer of weather-resistant continuous material of air support formwork, mounted on the outer side of the foundation, a layer of foamed polymeric material, which can be used polyurethane foam, paired with the outer layer on its inner side, and from the layer of fiber concrete located further inside the dome, reinforced sets of lines arranged in medians and along parallels rods. The foundation contains segments of reinforcing elements located on vertical planes, released and connected with the reinforcing elements of the dome, located in the directions of the medians (US 6840013 B2, IPC E04B 1/34, 2005).

The methods for erecting the well-known domed structures are generally the same and involve the construction of a strip foundation with the installation of sections of released reinforcing elements, which are subsequently connected to the dome reinforcement, and then the erection of the dome. To erect the dome, first they install the air-supported formwork in the form of a dome made of weather-resistant solid material, fixed with an edge on the strip foundation, lift the pneumatic formwork, spray the formwork of the layer of foamed polymeric material onto the inner surface of the dome, install the adjacent reinforced polymeric material layer on the inner surface, spray it onto the inner surface a layer of foamed polymeric material of a layer of fiber-reinforced concrete with an arrangement of reinforcing bars mounted before it. Then the inner base is made.

Known solutions do not have a high degree of reliability when operating in cold climates on unstable, including permafrost soils, when the operation of the structure is accompanied by significant temperature drops, rain and significant snowfall, as well as the presence of groundwater, protection against which in the known solutions is not provided .

The technical result of the utility model is to increase the reliability of a domed translucent structure during its long-term operation in cold climatic zones with high rain and snow precipitation during construction on permafrost soils with high groundwater levels.

The solution to this problem is provided by the dome structure, which is characterized by the presence of:

- located on a sand-gravel cushion of a monolithic strip foundation in the form of a ring in plan, which is made on top in the form of two conical surfaces, one of which faces inward of the foundation, and the other outward, conjugated with the formation in the cross section of the foundation of an obtuse angle, the top of which sets the top of the foundation, passing along its entire perimeter;

- a dome, having the shape of a segment of a sphere, smaller than a hemisphere, conjugated with the foundation along the inwardly facing upper conical surface, which consists of an outer layer of weather-resistant continuous material of airborne formwork, a layer of polyurethane foam deposited on the inner surface of the outer layer, and also the carrier layer located further inward of the dome reinforced with sets of median arcs and parallel parallels in the form of concentric rings of fiberglass rods reinforced with basalt / Or polymeric fibers, and made of fiber-reinforced concrete with a filler segments of basalt and / or polymeric fibers;

- a concrete base located inside the dome on a sand and gravel bed above the level of the strip foundation.

In the best embodiment of the utility model, at least part of the fiberglass reinforcement rods of the dome in the form of concentric rings is made in the form of solid rings with one joint.

Preferably, when the foundation contains segments of reinforcing rods located in the directions of the medians of the dome, issued and associated with the reinforcing rods of the dome located in these directions. The foundation can be made with concrete reinforced with fiberglass rods reinforced with basalt and / or polymer fibers.

In the best embodiment of the utility model, a concrete base is interfaced with the inner surface of the dome through a sedimentary seam and includes a lower heat-insulating layer of cellular concrete and an upper supporting layer of solid concrete. Sedimentary seam, as a rule, is filled with foamed polymeric material.

The feasibility of the utility model is confirmed by the example of the construction of the dome structure illustrated in the drawing (Fig. 1), which contains a monolithic strip foundation 1, dome 2 and base 3.

The strip foundation 1 is located on a sand and gravel cushion 4 and is made of concrete monolithic in the form of a ring in the plan. On top of the foundation 1 has the shape of two conical surfaces 5 and 6, one of which is facing inward of the foundation 1, and the other outward. The conical surfaces 5 and 6 are conjugated with the formation in the cross section of the foundation 1 of an obtuse angle, the vertex 7 of which defines the top of the foundation, passing along its entire perimeter. The surface 6 of the foundation 1 performs the function of a blind area, which, if necessary, can be extended separately (not shown in the drawing). The foundation 1 is reinforced around the circumference and radially by reinforcement 8 in the form of fiberglass rods reinforced with basalt and / or polymer fibers, and the reinforcement 8 located around the circumference can also be made in the form of continuous rings with one joint. During the construction of the foundation 1, segments of the reinforcing rods 9 are installed, which are located in the directions of the medians of the dome 2 and are released.

Dome 2 has the shape of a segment of a sphere smaller than a hemisphere. Outside, the surface of the dome 2 is conjugated with the foundation 1 along the inwardly facing upper conical surface 5. The dome 2 consists of an outer layer 10 of weather-resistant continuous material of air support formwork, a layer 11 of polyurethane foam deposited on the inner surface of the outer layer 10, and also located further inward of the dome 2 the carrier layer 12, reinforced by sets of arcs located in the directions of the median arcs (13) and parallel (14) in the form of concentric rings of fiberglass rods 13, 14, reinforced, in turn, basalt bubbled and / or polymeric fibers, and made of fiber-reinforced concrete with a filler segments of basalt and / or polymer fibers. The segments of the reinforcing rods 9, released from the foundation 1, are connected with a set of reinforcing rods 13 located parallel to the dome 2 by arcs. The use of fiberglass rods 13, 14 for reinforcing the dome 2 provides its radio transparency. For the same purpose, basalt or polymer fibers were used for the fiber concrete filler. From fiberglass rods can also be made pieces of reinforcing rods 9. At least part of the fiberglass rods 14 of the reinforcement of the dome 2 in the form of concentric rings is made in the form of solid rings with one joint.

Concrete base 3 is located inside the dome 2 on a sand and gravel bed 15 above the level of the strip foundation 1. Concrete base 3 is interfaced with the inner surface of the dome 2 through a sedimentary seam 16 and includes a lower heat-insulating layer 17 of aerated concrete and an upper supporting layer 18 of solid concrete. Sedimentary seam 16 is made with filling with foamed polymeric material, in particular polyurethane foam.

To erect a dome structure, first prepare the construction site and pour sand and gravel cushion 4, and then build the monolithic concrete strip foundation 2 located on the sand and gravel cushion 2 in the form of a ring in the plan, which has the shape of the two above-mentioned conical surfaces 5, 6 with the top 7, as well as the released segments of the reinforcing rods 9. After preparing the foundation 1, consumable materials and equipment necessary for forming the foam layer 11 are located inside its ring urethane and the bearing layer 11 fiber reinforced concrete, including materials for reinforcing the latter.

Then, an air-supported formwork is made of weather-resistant solid material, which is positioned along the top of the foundation 7 and the edge is fixed on its conical surface 6. The edge of the formwork is fastened using anchor bolts (not shown in the drawing) fixed in the foundation 1 and clamping elements, for example , pieces of corners, metal arcs or the like.

After raising the air support formwork and maintaining its dome in a stable position, a layer of polyurethane foam 11 is sprayed onto the inner surface of the air support formwork.

Then, fittings adjacent to the inner surface of the layer 11 of polyurethane foam are mounted from sets of median arcs (13) and parallel (14) in the form of concentric rings of fiberglass rods 13, 14 reinforced with basalt and / or polymer fibers. Fiberglass rods 13, 14 are unwound from bundles of prefabricated fiberglass rods, the fittings are knitted, including knitted to the segments of the reinforcing rods 9, protruding from the foundation 1, where they were installed during the construction of the foundation 1. Fiberglass rods 14 for reinforcing the dome 2 are made in the form of solid rings with one joint. After that, a spraying is carried out on the inner surface of the layer 11 of polyurethane foam of the carrier layer 12 of fiber concrete with a filler from segments of basalt and / or polymer fibers with the location in it (in the body of layer 12) of reinforcement from these sets of fiberglass rods 13, 14. As a filler of fiber concrete use basalt and / or polymer fibers.

Next, carry out the construction inside the dome of the concrete base 3 above the level of the foundation 1 for which an additional dumping (15) of the surface is carried out inside the dome 2 with a sand and gravel mixture.

Then, to form a sedimentary seam 16, a layer of polyurethane foam is sprayed onto the lower part of the inner surface of the carrier layer 12 with a thickness corresponding to the thickness of the sedimentary seam 16 (for example, 25 mm). After this, a concrete base 3 is directly constructed, first forming the lower heat-insulating layer 17 of cellular concrete, and then the upper layer 18 of solid concrete.

The air support casing is left to be used as the outer layer 10, which protects the polyurethane foam layer from atmospheric precipitation, which is made from known materials using known technologies.

When the layers 11 and 12 are formed by separate formwork inside the dome of the air support formwork, the necessary openings are set.

Subsequently, the necessary internal partitions and ceilings are erected inside the dome 2, in the case of the construction of several floors. Both technical rooms, special rooms, and residential can be organized. If necessary, at the stage of preparation for construction underground utilities can be summed up.

The construction of the dome structure is carried out using well-known materials using well-known technologies using well-known equipment. Layer 11 of polyurethane foam (can be from 100 to 150 mm and even more) gives pneumatic formwork the necessary rigidity for further work on reinforcing and forming the supporting layer 12 of fiber concrete.

Rods 13 and 14 may be spaced 200 mm apart. Fiberglass rods with a thickness of 8-20 mm can be used. Such reinforcement is lightweight, does not corrode, does not interact with salt water, is highly elastic, is dielectric, has low thermal conductivity, is immune to magnetic fields and does not prevent the propagation of radio waves. In addition, reinforcement made of fiberglass rods does not lose its strength properties when exposed to low temperatures and can be made of virtually any length to individual requirements.

The finished dome structure, made in accordance with the utility model, in addition to its unique strength characteristics and the ability to withstand huge external influences (in the form of hurricane winds, earthquakes) has even more important properties - it is an insulator and does not impede the propagation of radio waves, that is, it does not impede the operation of radioelectric equipment inside the building, which allows the use of such a structure to solve special problems. The strength of the dome structure is determined by both the shape of the foundation 1 and the shape of the dome 2.

The utility model is not limited to the embodiment presented above. Other specific forms of constructive implementation of a technical solution, based on the use of a utility model and ordinary engineering knowledge, that lie within the scope of patent claims are possible.

Claims (6)

1. The dome structure, characterized by the presence of a monolithic strip foundation located on a sand and gravel cushion in the form of a ring in the plan, which is made on top in the form of two conical surfaces, one of which faces inward of the foundation and the other outward, conjugated with the formation of the foundation in cross section obtuse angle, the apex of which defines the apex of the foundation, which runs along its entire perimeter, of a dome having the shape of a segment of a sphere, of a smaller hemisphere, conjugate with the foundation along the top facing inward of a conical surface, which consists of an outer layer of weather-resistant continuous material of air-bearing formwork, a layer of polyurethane foam deposited on the inner surface of the outer layer, and also a carrier layer located further inward of the dome, reinforced with sets of median arcs and parallel in the form of concentric rings of fiberglass rods reinforced with basalt and / or polymer fibers and made of fiber-reinforced concrete with a filler from segments of basalt and / or polymer GOVERNMENTAL fibers and the concrete foundation, located inside the dome on sandy dumping above the strip foundation. 2. The construction according to claim 1, characterized in that at least part of the fiberglass reinforcement rods of the dome in the form of concentric rings is made in the form of continuous rings with one joint. 3. The construction according to claim 1 or 2, characterized in that the foundation contains segments of reinforcing rods located in the directions of the medians of the dome, released and connected with the reinforcing rods of the dome located in these directions. 4. The construction according to claim 3, characterized in that the foundation is made of concrete reinforced with fiberglass rods reinforced with basalt and / or polymer fibers. 5. The construction according to claim 4, characterized in that the concrete base is interfaced with the inner surface of the dome through a sedimentary seam and includes a lower heat-insulating layer of cellular concrete and an upper supporting layer of solid concrete. 6. The structure according to claim 5, characterized in that the sedimentary seam is filled with foamed polymeric material.

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