EA010219B1 - Cast-in-place pan floor - Google Patents

Abstract

The invention relates to floor structures of buildings and constructions, in particular cast-in-place pan floors and ceilings and may find application in civil and industrial construction as well as bridge engineering.The proposed cast-in-place pan floor consists of integral plate and beams with reinforcement placed two-way to form a grid with height-to-width ratio less than 2. It contains domical cells that are trapeze-shaped in cross-section and located between the beams and the plate, the beam reinforcement cages are triangle in the section which is perpendicular to the centre lines and the grid reinforcement of the slab is rigidly connected to the reinforcement cage of each beam.

Description

The invention relates to the overlapping of buildings and structures, in particular to monolithic caisson ceilings and ceilings, and can find application in civil and industrial construction, as well as in bridge construction.

The monolithic caisson overlap is known, consisting of slabs and beams made at the same time, arranged in two directions and forming a grid with a ratio of less than two sides (Residential and public buildings. A brief reference book of the design engineer. Edited by Prof. Yu.A. Dykhovichny. - M .: Stroyizdat, 1991, pp. 221-223).

Known caisson overlap, the construction of which includes the manufacture of formwork complex configuration, installation of reinforcement, pouring formwork with concrete and dismantling the formwork after the concrete has set, and the formwork is made of a base plate and shaped elements in the form of a trough located on the base plate (Baikov V.P., EE Sigalov. Reinforced Concrete Structures (Moscow: Stroyizdat, 1976, p. 392-393).

Known overlappings are characterized by high weight, considerable cost of materials for their manufacture - concrete mix and metal reinforcement, high cost and high labor-intensiveness of assembling-disassembling formwork used for erection of the ceiling.

As a prototype of the present invention, a caisson overlap “Prost” (WI 2004103053 A1, 10.07.2005) was adopted, consisting of slabs and beams made at the same time, arranged in two directions and forming a grid with a ratio of less than two sides, which contains inserts that fill the space between the beams to the slab and made of heat and / or sound insulating material. Inserts as overlap elements are also formwork elements and do not require dismantling when dismantling the formwork. Only formwork base plates are removed.

However, in cases where additional heat and sound insulation is not required, the presence of the mentioned liners becomes redundant, which leads to an increase in the cost of the floor structure. In addition, the installation of the ceiling “Prost” requires the manufacture and assembly and disassembly not only of the elements, but also of the formwork support plate, which leads to additional labor costs.

The objective of the invention is to reduce the weights of the monolithic caisson overlap and reduce the material and labor costs for the manufacture and installation of floor elements and assembly-disassembly of the formwork while maintaining the strength characteristics of the whole structure.

To solve this problem, a monolithic caisson overlap is proposed. and located in the space between the beams to the slab, the reinforcement cages of the beams have a triangular shape in a plane perpendicular to their longitudinal axes, and the reinforcing mesh of the slab is rigidly connected Zana with reinforcement cage of each beam.

FIG. 1 shows the structure of the caisson overlap.

FIG. 2 shows section 1-1 of FIG. one.

These drawings have the following designations: 1 - floor plate; 2 - beams; 3 - reinforcement cages; 4 - reinforcing mesh; 5 - vaulted hollow cells. The caisson overlap contains the overlapping slab (1), the beams (2), and the vaulted hollow cells (5). The beams are located in two directions and form a grid with a ratio of less than two sides.

The essence of the invention lies in the fact that between the beams (2) horizontally and to the floor slab (1) vertically arranged vaulted hollow cells (5), having the shape of a trapezoid in cross section with a smaller base at the slab. The reinforcement cages (3) are placed in the beams (2) and serve to impart rigidity to the whole structure. They have a triangular shape in a plane perpendicular to their longitudinal axes - in cross section, with two edges of each reinforcement cage fixed in the corresponding beam, and the third edge is brought into the mass of the floor slab and is connected, preferably by welding, with reinforcing mesh (4) passing through it, which has dimensions of cells 200x200 mm or close to them, is fixed in an array of floor slab and rigidly connected with the reinforcement cage of each beam.

The vaulted trapezoidal in cross-sectional shape of the cells is achieved by using elements of plastic formwork of the appropriate form, rigidly interconnected. This form of cells with a rigid interconnection of plastic formwork elements eliminates the steps of manufacturing and assembling and disassembling the formwork support plate, which significantly reduces the material and labor costs for the device of the caisson floor.

The device of the caisson overlap is as follows.

Between the supporting elements of a building or structure (columns, pillars, walls) make plastic formwork for the construction of a caisson floor. First, make the required number of plastic formwork elements, then they are connected and rigidly fixed to each other.

After the formwork has been fabricated, the reinforcement cages are laid, rigidly connected to the reinforcing mesh by means of the upper edge and then the formwork is poured with concrete, forming a slab (1) and beams (2) at the same time.

- 1 010219

After the concrete has set, the plastic formwork is removed, and the vaulted hollow cells (5) become part of the caisson floor.

The dismantling of the formwork is reduced only to the removal of its flexible plastic elements, which significantly reduces the laboriousness of dismantling the formwork.

Claims (3)

CLAIM 1. Monolithic caisson overlap, consisting of slabs and beams with reinforcement made at the same time, arranged in two directions and forming a grid with a ratio of less than two sides, characterized in that it contains vaulted hollow cells in the form of a trapezium in cross section and located in the space between the beams to the slab, the reinforcement cages of the beams have a triangular shape in a plane perpendicular to their longitudinal axes, and the reinforcement mesh of the plate is rigidly connected to the reinforcement cage of each beam. 2. Monolithic caisson overlap according to claim 1, characterized in that the two edges of each reinforcement cage of the beam are fixed in the corresponding beam, and the third edge is taken out in the massif of the floor slab. 3. Monolithic caisson overlap according to claim 1 or 2, characterized in that the reinforcing mesh is fixed in the array of the slab and has a cell size of 200x200 mm.