RU47926U1 - MONOLITHIC COVERAGE - Google Patents

Abstract

The utility model relates to the field of construction and can be used in the construction of buildings and structures for various purposes. The objective of the claimed utility model is to increase the bearing capacity and operational performance of the overlap. The problem is solved due to the fact that the overlap contains an intermediate layer located between the mating surfaces of the elements of the fixed formwork and the monolithic reinforced concrete slab, and as connecting fittings it contains a spatial triangular reinforcing frame consisting of a continuous or discontinuous zigzag element forming interconnected stiffening planes with a given pitch and angle, inside a space bounded by parallel spaced longitudinal reinforcing bars.

Description

The utility model relates to the field of construction and can be used in the construction of buildings and structures for various purposes.

Known monolithic overlap containing fixed formwork from profiled flooring, a layer of concrete, an additional layer of polystyrene concrete and three-core reinforcing cages (RF Patent No. 2165501, E 04 B 5/40, 23.06.00)

The disadvantage of this overlap is the lack of bearing capacity, due to the fact that the working reinforcement is located in the area of lightweight concrete, such as polystyrene concrete.

Closest to the claimed utility model is a precast-monolithic slab containing fixed formwork of individual elements in the form of blocks of especially lightweight concrete with separate recesses and transverse channels in which the longitudinal and transverse reinforcement is placed. (RF patent No. 2097502, E 04 B 5/38, 11.26.92)

The disadvantage of this technical solution is also the lack of bearing capacity, since the overlap consists of small pieces and the working reinforcement is located in areas of both light and heavy concrete.

The objective of the claimed utility model is to increase the bearing capacity, as well as the operational performance of the overlap.

The problem is solved due to the fact that the overlap contains an intermediate layer located between the mating surfaces of the elements of the fixed formwork and the monolithic reinforced concrete slab, and as connecting fittings it contains a spatial triangular reinforcing frame consisting of a continuous or discontinuous zigzag element forming interconnected stiffening planes with a given pitch and angle, inside a space bounded by parallel spaced longitudinal reinforcing bars.

As the material of the intermediate layer, compositions are used from mineral, polymer or polymer-cement compositions highly adhesive to concrete and reinforcement, including using latexes and other polymer dispersions, which allows for a monolithic connection of concrete and reinforcement of the joined layers.

In the zone of the intermediate layer and adjacent monolithic reinforced concrete slabs, hollow formers can also be located, both in the longitudinal and transverse directions, formed from a thin-sheet structural, structural-heat-insulating or solid heat-insulating material.

Zigzag elements of the reinforcing cage can be made of round or profile reinforcement, or of solid or perforated tape, including those having bends or anchor outlets and form interconnected continuous stiffness planes of a triangular, trapezoidal or loop-like shape, located with a given step and angle of inclination. This provides a large area of adhesion to concrete, and the presence of anchoring in concrete of fixed formwork increases reliability during formwork, transportation and installation.

Spatial reinforcing cages can be located in the plane of the overlap parallel, perpendicular, at an angle relative to each other or curvilinearly depending on the design and the nature of its stress-strain state.

Since the upper open part of the reinforcement of the prefabricated part of the floor during storage, transportation and installation can be adversely affected, a steel corrosion inhibitor can be introduced into the intermediate layer.

In Fig.1 shows a precast-monolithic overlap in a perspective view, in Fig.2 - precast-monolithic overlap with void formers, section.

The precast-monolithic overlap includes the elements of the fixed formwork 1 with monolithic spatial triangular reinforcing cages, consisting of a continuous or discontinuous zigzag element 2, forming interconnected sequentially stiff planes with a given pitch and angle, inside a space bounded by parallel-spaced longitudinal reinforcing bars 3, as well as a monolithic reinforced concrete slab 4, connected with the elements of the fixed formwork 1 through the gap full-time layer 5 and spatial reinforcing cages. If necessary, in the zone of the intermediate layer 5 and adjacent monolithic reinforced concrete slab 4, hollow formers 6 can be placed, both in the longitudinal and transverse directions, formed from a thin-sheet structural, structural-heat-insulating or solid heat-insulating material.

After monolithic, the formed overlap is a bezel-less slab with increased load-bearing capacity, which is achieved due to the monolithic connection of the overlap elements by means of an intermediate layer and spatial reinforcing cages, which allows you to overlap large spans with improved performance, such as thermal and acoustic insulation, waterproofing, as well as increased strength when bending.

Claims (8)

1. Precast-monolithic overlap, comprising a fixed formwork of individual elements, a monolithic reinforced concrete slab and connecting fittings, characterized in that it contains an intermediate layer located between the mating surfaces of the elements of the fixed formwork and monolithic reinforced concrete slab, and used as connecting fittings spatial triangular reinforcing cage, consisting of a continuous or discontinuous zigzag element, forming interconnected sequentially arranged stiffness planes with a given pitch and angle of inclination within a space bounded by parallel spaced longitudinal reinforcing bars. 2. The overlap according to claim 1, characterized in that the intermediate layer is made of mineral, polymer or polymer-cement compositions highly adhesive to concrete and reinforcement, including using latexes and other polymer dispersions. 3. The overlap according to claim 1, characterized in that the intermediate layer is made of waterproofing, structurally heat-insulating or heat and sound insulating materials. 4. The overlap according to any one of claims 1 to 3, characterized in that the intermediate layer is reinforced with alkali-resistant materials, for example, mesh, fiber or rods. 5. The overlap according to claim 1, characterized in that in the zone of the intermediate layer and the adjacent monolithic reinforced concrete slab, hollow formers can be located, both in the longitudinal and transverse directions, formed from a thin-sheet structural, structurally-heat-insulating or solid heat-insulating material. 6. The overlap according to claim 1, characterized in that the reinforcing cages are parallel, perpendicular, at an angle relative to each other or curvilinear and may have bends or anchor outlets for connecting the elements of fixed formwork with each other and with a monolithic reinforced concrete slab, as well as with connecting elements of mating structures. 7. The overlap according to claim 1, characterized in that the zigzag elements of the reinforcing cages are made of either round or profile reinforcement, or of a solid or perforated metal strip. 8. The overlap according to claim 1, characterized in that the stiffness planes formed by the zigzag element of the reinforcing cage are triangular, trapezoidal or loop-shaped.