RU2032032C1 - Monolithic building - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: building walls and floors are made of a layer of warmth-keeping material and two layers of gunned concrete. Some holes equispaced around the entire area of the warmth-keeping material accommodate individual bar connectors installed coaxially with holes while the other holes are intended for installation of three-dimensional reinforcing cages. Inclined bar connectors pass through the warmth-keeping material at an angle of 45 deg to its external surface. All bar connectors and cages are connected with the reinforcing meshes of gunned concrete layers. Warmth-keeping material fills the holes and forms keys. Stiffener bars are set close to the warmth-keeping material and are connected therewith. EFFECT: improved design. 5 dwg

Description

 The invention relates to the construction and can be used in the construction of low-rise buildings for residential, social and industrial purposes.

 Known prefabricated monolithic construction of the building, including walls, floors, roofs, and each of the elements of the building is made of three layers and contains an inner layer of insulation, enclosed on both sides in reinforcing mesh, which are welded together in a spatial frame using connecting clamps and serve as reinforcement for outer layers of shotcrete. The manufacture of this building structure is carried out in several stages: first, large-sized panels are formed, for which the expanded polystyrene plates are supplied on both sides with steel welded meshes, which are welded together using connecting clamps. Next, the panels are mounted on guides made of bent steel channels and fixed. After connecting the panels to each other, shotcreting is applied to the inner and outer layers of concrete [1].

 The closest technical solution, selected as a prototype, is the construction of a volumetric iron block [2], including walls and ceilings formed from a layer of plate insulation, reinforcing meshes placed on both sides of the latter parallel to it and at a calculated distance from it and rod ties.

 The disadvantages of the known technical solutions include the high complexity and cost of construction work, because after laying the panels of walls and ceilings, it is necessary to additionally build up stiffening ribs with monolithic concrete to connect the external and internal layers of concrete and create a pressure distribution plate.

 The purpose of the invention is to reduce the complexity and cost of construction work.

This goal is achieved by the fact that in a monolithic building, including walls, coatings and ceilings, formed from a layer of plate insulation, reinforcing meshes placed on both sides of the latter parallel to it and at a calculated distance from it, and rod connections, some of which are passed through the plate insulation and connected to reinforcing nets, monolithic concrete layers, and the roof, the insulation is made with through holes evenly spaced along its area, monolithic concrete with the formation of dowels, and the other h Part of rod ties arranged axially side dowels and pivotal connection, missed through a heater, placed at an angle of ⁴⁵ ° in different directions with respect to the outer surface of the insulation, the walls, roof and floor are provided with at least one rigid spatial bond in in the form of a spatial frame placed in the key and connected to reinforcing meshes and at least two stiffening rods installed parallel to each other and close to the insulation and attached to it.

The introduction into the building structure of the additional structural elements listed above with their interconnection allows us to achieve the goal, because the building structure has several types of connections at the same time (rigid spatial connection and core connections monolithic in concrete dowels, as well as core connections passed through the insulation layer at an angle of 45 ^o ) in conjunction with other elements allow for a complete connection between the outer and inner concrete layers in a three-layer construction of building elements, and and to use as a fixed formwork a rigid spatial frame formed by a plate heater, enclosed on both sides in reinforcing meshes, and at the same time equipped with several types of ties and installed on the foundation of the building.

 The essential features listed above are sufficient in all cases to which the requested amount of legal protection applies.

 Figure 1 shows a building with a flat pitched roof, General view; in FIG. 2 - a building with a domed roof, general view; figure 3 is a section aa in figure 1; figure 4 is a section bB in figure 3; figure 5 - section bb in figure 3.

The monolithic building consists of wall elements 1, floor 2, roof 3. Each of these elements, in turn, consists of insulation 4 made in the form of a plate with through holes 5 placed evenly across the entire field of the plate perpendicular to its surface. In the part of the holes, rod connections are inserted along their axis 6. A rigid spatial connection 7 is made through other holes in the insulation, made in the form of a rigid volumetric frame of reinforcing rods 8. On both sides of the insulation 4, stiffness rods 9 are installed and fixed on it, on top of which, at a certain distance l from the plane of the insulation plate, reinforcing meshes 10 are installed, which are fixed with a knitting wire (not shown) with protruding from the plane of the insulation rigid spatial connection linkage 7, rod links 6 and 11. The rod connection 11 are passed through a layer of insulation and installed in different directions (upwards - downwards) at an angle 45 ^about the vertical axis of the plane heater. After the concrete mixture of the outer 12 and inner 13 layers of the building is formed by shotcrete, the core bonds 6 and the rigid spatial connection 7 are placed in the concrete dowels of the through-holes of the insulation and thus act as the connection between the layers.

The manufacture of a monolithic building is carried out in two stages. Termoarmaturny package is first formed, which in a horizontal plane (not shown) installed insulation slab 4 with preformed holes in it: in round holes establish connection rod 6, a rectangular - rigid spatial relationships 7. Next an angle ^of 45 to the plane of the insulation, piercing it through, establish rod connections 11. Over the entire surface of the insulation plate 4, evenly install mounting bars (not shown in the drawing) that define the specified distance l between the insulation 4 and reinforcing mesh 10, and also stack the stiffening rods 9 and fix them. Reinforcing mesh 10 is laid on top of the mounting bars on both sides of the insulation, knitted with knitting wire with rod ties, rigid spatial bonds and stiffening rods.

 After the foundation and the basement of the building (not shown) are erected, the alignment axes are applied, the previously assembled thermo-reinforcing bag is installed. When installing a thermo-reinforcing bag and fixing it on the foundation of a building, it is necessary to ensure the stability of its previously mounted part. After the final installation of thermo-reinforcing bags, beacons are installed on them to control the thickness of the outer and inner layers of shotcrete. The number of rigid spatial 7 and rod 6 bonds, as well as the thickness of the insulation plate 4 and the distance l between the insulation and the reinforcing mesh are assigned during the design of the building and depend on the load bearing of each of the building elements. Thermo-reinforcing bags are made one floor high. After the walls are formed from thermo-reinforcing packages, they are fixed on the foundation and between each other by overlays of reinforcing meshes, overlap or coatings are formed, and only then, by spraying the concrete mixture, the outer and inner surfaces of the building frame are applied. The application of layers (external or internal) is carried out in one go. Similarly form the roof.

 The construction of buildings using thermo-reinforcing bags as a permanent formwork for shotcrete of concrete mix allows avoiding large labor costs in the production of building products in industrial plants and the use of heavy construction equipment, as well as significantly reducing heat and energy costs during construction work.

Claims (1)

MONOLITHIC BUILDING, including walls and ceilings formed from a layer of plate insulation, reinforcing meshes placed on both sides of the insulation parallel to it and at a calculated distance from it, and rod connections, some of which are passed through the plate insulation and connected to reinforcing grids monolithic shotcrete concrete, and a roof, characterized in that the insulation is made with through holes evenly distributed over its area, monolithic shotcrete-concrete with the formation of dowels, the other part of the core connections arranged axially side dowels and pivotal connection, missed through insulation arranged under an angle of 45 ^o in different directions with respect to the outer surface of the insulation, the walls and floor are provided with at least one rigid reinforcement bond in a spatial frame, placed in a key and connected to reinforcing meshes, and at least two stiffening rods installed parallel to each other and close to the insulation and attached to it.

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