RU2681018C1 - Monolithic building - Google Patents

Abstract

FIELD: construction.SUBSTANCE: monolithic building includes the foundation, walls and roof, formed by the outer and inner layers of reinforced concrete, a layer of slab solid insulation, core ties and cavities. Layer of slab solid insulation is placed between the outer and inner layers of reinforced concrete close to them with belts in the places of application and concentration of loads and openings. Rod ties are connected to the steel reinforcement of the outer and inner layers of reinforced concrete and are passed through a layer of plate solid insulation at the places of application and concentration of loads and openings. Cavities completely isolate the outer and inner layers of reinforced concrete from each other in any other place of the cross section of the wall. Outer layer of reinforced concrete may contain a water-repellent additive. It is possible to use plate foam glass as plate solid insulation. Core connections can be made of composite or steel reinforcement. Cavities can be filled with air, or with backfill insulation, or with foam insulation.EFFECT: proposed a construction method of a monolithic building.8 cl, 2 dwg

Description

The invention relates to the construction and can be used in the construction of buildings for residential, social and industrial purposes. Namely, the invention relates to a special construction of walls, foundations and roofs, the construction of a monolithic three-layer reinforced concrete structure with a heat-insulating layer inside, and is intended for the construction of frame and frameless buildings and structures from monolithic reinforced concrete with improved characteristics.

A three-layer reinforced concrete model is known from the prior art (RF patent for invention No. 2398078, IPC Е04С 2/06, published August 27, 2010), containing a heat-insulating layer, outer and inner reinforced concrete layers. Reinforced concrete layers are interconnected by rigid bonds passing through a heat-insulating layer.

A disadvantage of the known invention is the inability to use foamed and filling heaters, as well as the inability to use air as a heat insulator in the panel.

A monolithic building is known from the prior art (RF patent for utility model No. 147338, IPC Е04В 1/04, published November 10, 2014). The well-known monolithic building includes walls and a foundation formed by the outer and inner layers of reinforced concrete, a layer of insulation and rod ties. The insulation layer is placed between the reinforced concrete layers close to them and is used as a fixed formwork in the formation of the inner surfaces of the walls. Rod connections are passed through a layer of insulation and made of composite materials - carbon fiber, basalt plastic and fiberglass reinforcement.

A disadvantage of the known utility model is the mandatory use of slab insulation, due to the fact that the construction of this solution involves the use of insulation for molding concrete. It is impossible to use foamed and filling heaters. It is not possible to use air as a heat insulator in the wall.

A prefabricated panel for a building is known from the prior art (patent US 4669240 A, IPC Е04В 1/04, published 02.06.1987), including external (external) and internal reinforced concrete layers with steel reinforcement, a number of steel bar ties located in the transverse direction and placed between the layers of reinforced concrete, as well as the insulating layer. The heat-insulating layer is connected to the inner side of the outer layer of reinforced concrete, occupying part of the space between the reinforced concrete layers, and the remaining part of the space forms an air cavity. Glass fiber is used as the heat insulating layer. Steel rod ties pass through the insulating layer and through the air cavity.

A disadvantage of the known invention is the high cost of the materials used due to the need to include a heat-insulating layer over the entire height of the building.

In the prior art, a butt joint of an external wall with a building frame is known (RF patent for the invention No. 2155257, IPC EV04 1/38, published on 08.27.2000), including the connected elements of the frame and walls, mounting connections and fasteners. The supporting contour belt is made in the form of a reinforced concrete beam, and the mounting ties are made in the form of transverse reinforced concrete lintels for one with this belt. Between the layers of reinforced concrete is a layer of insulation with an air cavity. Layers of reinforced concrete are interconnected by flexible bonds. In the gap along the entire length, in addition to discrete mounting ties and fasteners, there is a thermal liner equipped with vertical drainage channels connecting the air cavities between the ceilings.

A disadvantage of the known invention is the high cost of the materials used due to the need to include a heat-insulating layer together with a thermal liner to the entire height of the butt joint.

The external multilayer monolithic wall of a multi-storey building is known from the prior art (RF patent for utility model No. 41475, IPC EV04/84, EC04/26, published October 27, 2004) containing monolithic outer and inner reinforced concrete layers with reinforcement, a heat-insulating layer with air cavities located between reinforced concrete layers, and flexible connections. Flexible connections are attached to the reinforcement of the outer and inner reinforced concrete layers and passed through air cavities.

A disadvantage of the known invention is the reduction of the strength characteristics of the building due to the lack of flexible connections in the insulating layer, because the height of the insulating layer of the outer and inner reinforced concrete layers are not connected to each other.

The technical result of the invention is to increase the energy efficiency, thermal characteristics of the building, the exclusion of freezing, the reduction of capital investment, the reduction of the labor input and the cost of construction work, the increase of the durability of the building, its strength and fire resistance, and the absence of waste.

The essence of the invention lies in the fact that the monolithic building includes a foundation, walls and roof formed by the outer and inner layers of reinforced concrete, a layer of slab solid insulation, placed between the outer and inner layers of reinforced concrete with belts close to them at the places of application and concentration of loads and openings, rod connections connected to steel reinforcement of the outer and inner layers of reinforced concrete and passed through a layer of slab solid insulation in places of application and concentration of loads and max, and cavities that completely isolate the outer and inner layers of reinforced concrete from each other at any other place in the wall section. In this case, the outer layer of reinforced concrete may contain a hydrophobizing additive. As a stove solid insulation, you can use slab foam glass. Rod ties can be made of composite or steel reinforcement. The cavities can be filled with air or filling heater or foam insulation.

The invention is illustrated by the following graphic materials.

In FIG. 1 shows a vertical section of a building, where 1 is soil, 2 is geotextile, 3 is foam glass rubble, 4 is a drainage pipe, 5 is roll waterproofing, 6 is rod connection, 7 is slab solid insulation, 8 is steel reinforcement, 9 is external reinforced concrete layer, 10 - inner reinforced concrete layer, 11 - roof waterproofing, 12 - cavity with air or foamed insulation or filling heater.

In FIG. 2 shows a cross section of a fragment of a wall without a frame, where 6 are rod ties, 7 is solid plate insulation, 8 is steel reinforcement, 9 is the outer layer of reinforced concrete, 10 is the inner layer of reinforced concrete.

The wall, foundation and roof of the monolithic building are formed by the outer 9 and inner 10 layers of reinforced concrete, a layer of slab solid insulation 7, rod ties 6 and cavities 12.

The outer 9 and inner 10 layers of reinforced concrete contain steel reinforcement 8.

The outer 9 layer of reinforced concrete may contain a hydrophobizing additive.

The outer 9 layer of reinforced concrete can be made with a thickness of 0.1 m. The inner 10 layer of reinforced concrete can be made with a thickness of 0.1 m. However, the thickness of the reinforced concrete walls can also be more or less, since the thickness of the outer 9 and inner 10 layers of reinforced concrete and the cross section of steel reinforcement 8 are calculated values: the thickness of the reinforced concrete layer, suitable for small and light houses, will be insufficient for large and heavy buildings. In turn, the thickness of the reinforced concrete layer, suitable for large and heavy buildings, will lead to cost overruns for small and light buildings.

A layer of slab solid insulation 7 is placed between the outer 9 and inner 10 layers of reinforced concrete close to them with belts at the places of application and concentration of loads - the base, adjacent to the ceiling and roof structure, and the openings - door and window. As a plate solid insulation 7, you can use plate foam glass.

The rod connections 6 are connected to the steel reinforcement 8 of the outer 9 and inner 10 layers of reinforced concrete and passed through a layer of plate solid insulation 7 at the places of application and concentration of loads and openings. The rod connection 6 can be made of composite reinforcement, the use of composite reinforcement improves thermal performance and provides long reliable connection of loaded belts inside the wall. As composite reinforcement, it is possible to use, in particular, carbon fiber reinforced plastic, basalt plastic and fiberglass reinforcement. It is also possible to perform rod connections 6 of steel reinforcement, however, this will lead to energy losses during operation and to reduce the durability of structures.

Cavities 12 completely isolate the outer 9 and inner 10 layers of reinforced concrete from each other in any place of the wall, foundation and roof sections, except for places of application and concentration of loads (base, adjacent to the ceiling and roof structure), and openings (door and window). In this case, the cavity 12 can be filled with air or filling heater or foamed insulation. As backfill insulation, you can use, in particular, foam glass in granules. As foamed insulation, you can use, in particular, penoizol. Depending on the filling of the cavities 12, the thermal characteristics change. The cavity 12 can be made 0.3 m thick (the distance between the outer 9 and inner 10 layers of reinforced concrete).

One of the possible options for the construction of the foundation is a strip construction of the foundation, namely, a monolithic reinforced concrete strip foundation, finely buried in the ground 1 (shown in Fig. 1). Crushed stone 3 from foam glass (backfill) is poured into the trench under the tape in geotextile 2. At the bottom of the trench, a drainage pipe 4 with a branch in the drain well. On top of crushed stone 3 from foam glass roll waterproofing 5. The base of the tape can be expanded. Two reinforced concrete tapes under the outer 9 and inner 10 walls are connected through a layer of plate solid insulation 7, connected by rod ties 6, in particular, by composite reinforcement. In this case, reinforced concrete structures may not be buried in the ground 1. A heater with a drainage system excludes freezing and swelling of the base and isolate the inner part of the tape from the influence of low temperatures.

Another possible embodiment of the construction of the foundation is a foundation plate, interconnecting inner tapes. The external wall tape is attached to the foundation plate in the same way as the above-described design - through solid slab insulation (in particular, foam glass) with rod ties (in particular, composite reinforcement). Crushed stone (bedding) under the slab of the same material as under the tape. This embodiment of the foundation design provides an increase in the bearing capacity of the base.

In the construction of the roof (roof), the upper surface of the outer 9 layer of reinforced concrete is covered with waterproofing 11. The drainage of water from the roof is individually decided. If necessary, a leveling screed with slopes to the places of water drainage from the roof is performed.

The design of the presented monolithic construction of the building can be used fully and in terms of components (foundation, roof, walls). On the claimed construction of walls and foundations, there can be a roof using any insulation. It is possible to use the foundation with other wall and roof structures. It is possible to use the described wall construction on other types of foundations, with a roof of a different design. It is possible to use the described construction of the roof (roof) of the building with other designs of walls and foundations.

For the organization of underground premises, you can apply the construction of the foundation with insulation on a single reinforced concrete base (described in the patent of the Russian Federation for utility model No. 147338, IPC Е04В 1/04, published 10.11.2014).

Thus, the invention provides:

- improving energy efficiency - the thermal characteristics of the building, eliminating freezing and reducing costs during subsequent operation due to the use of a thermal insert made of solid stove insulation (in particular, foam glass) between the outer and inner layers of reinforced concrete,

- reduction in investment due to optimization in the use of materials,

- reducing the complexity and cost of construction work, the absence of waste,

- increase the durability of the building, its strength and flame retardant characteristics.

Claims (12)

1. Monolithic building, including the foundation, walls and roof, formed the outer and inner layers of reinforced concrete, a layer of plate solid insulation, placed between the outer and inner layers of reinforced concrete close to them with belts at the places of application and concentration of loads and openings, rod ties connected to steel reinforcement of the outer and inner layers of reinforced concrete and passed through a layer of plate solid insulation in places of application and concentration of loads and openings, and cavities that completely isolate the outer and inner layers of reinforced concrete from each other at any other place in the wall section. 2. The building according to claim 1, characterized in that the outer layer of reinforced concrete contains a water-repellent additive. 3. The building according to p. 1, characterized in that as a slab of solid insulation use slab foam. 4. The building according to claim 1, characterized in that the rod ties are made of composite reinforcement. 5. The building according to claim 1, characterized in that the rod ties are made of steel reinforcement. 6. The building under item 1, characterized in that the cavity is filled with air. 7. The building under item 1, characterized in that the cavity is filled with filling insulation. 8. The building under item 1, characterized in that the cavity is filled with foamed insulation.

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