MD599Z - Process for installation of cast-in-situ floor with prestressed reinforcement - Google Patents

Abstract

The invention relates to the construction, in particular to processes for installation of cast-in-situ floor with prestressed reinforcement, and can be used during the installation of cast-in-situ floors of buildings and structures.In the process for installation of cast-in-situ floor with prestressed reinforcement is carried out erection of vertical load-bearing structures of the building, is installed the floor formwork, is placed therein nonprestressed and prestressed reinforcement. The prestressed reinforcement is laid in the form of solid pieces along the full length and/or width of the building. On the perimeter of the building, from the outside, to the vertical load-bearing structures is carried out fastening of vertical struts/frames, is carried out tension of prestressed reinforcement with the transfer of force from it to the struts/frames, is concreted the floor and, upon concrete reaching the stripping strength, is carried out stripping of the floor with the transfer of tensile force to the concrete.

Description

The invention relates to construction, in particular to methods for installing monolithic floors with prestressed reinforcement, and can be applied to the installation of monolithic floors of buildings and edifices.

A method of installing a monolithic slab with prestressed reinforcement of a building/edifice with a frame is known. The vertical load-bearing structures - columns - are raised. Between the adjacent columns, mounting (demountable) struts of adjustable length are installed, which can be placed along the building axes above or below the floor level, which are also load-bearing elements of the floor formwork. The floor formwork is installed with the placement of non-tensioned and tensioned reinforcement. The forces of the tensioned reinforcement are transmitted to the struts. The floor is concreting and, after reaching the concrete stripping strength, the formwork is stripped. During the removal of the struts, which can be carried out with a delay of 1...2 floors compared to the installation work for raising the frame, the transmission of the tension force of the reinforcement from the struts to the floor concrete is carried out [1].

The disadvantages of the known process and the device used for its implementation - the spacers, include the fact that it can be applied during the erection of buildings with a frame with prefabricated columns or with columns made of concrete poured into metal tubes (reinforced concrete / corrugated concrete). In addition, as a result of the analysis of the technical drawings, which explain the invention, it is seen that the spacers are installed in each opening of the frame and, therefore, cut pieces of tensioned reinforcement are used for one opening and the tensioning of the reinforcement is carried out in each opening, which requires a considerable amount of work and a large amount of materials for the process. Since the tensioned reinforcement consists of cut pieces, the simultaneous single work of the entire monolithic slab disc is not fully ensured.

The problem solved by the invention consists in reducing the volume of work and the volume of materials for the installation process of the monolithic floor with prestressed reinforcement while ensuring the simultaneous work of the floor elements of the entire building.

The problem is solved by the fact that in the process of installing a monolithic floor with prestressed reinforcement, the vertical load-bearing structures of the building are raised, the floor formwork is installed, and unstressed and tensioned reinforcement is placed in it. The tensioned reinforcement is placed in the form of whole cut pieces along the entire length and/or width of the building; on the perimeter of the building, from the outside, at the vertical load-bearing structures that have reached the design strength, vertical uprights/frames are reinforced with platforms level with the floor to be concreted, on which the equipment for fixing and stretching the tensioned reinforcement is placed, or horizontal beams/platforms with the equipment for fixing and stretching the tensioned reinforcement are mounted level with the floor on the vertical uprights/frames; the tensioning of the tensioned reinforcement is carried out with the transmission of the force from it to the uprights/frames, the floor is concreted and, after reaching the concrete's formwork resistance, the floor is stripped with the transmission of the tension force to the concrete.

Reinforcement of vertical uprights/frames can be carried out along the building axes.

In the case of building elevation with a frame, the installation of vertical uprights/frames can be carried out on columns.

During the erection of vertical monolithic load-bearing structures, the reinforcement of vertical uprights/frames can be carried out at the vertical load-bearing structures of the levels/floors, located below the level/floor on which the floor is installed.

Reinforcing vertical load-bearing structures that have reached design strength, vertical uprights/frames with platforms at the same level as the floor to be concreted, on which the equipment for fixing and stretching the tensioned reinforcement of the floor is placed, or on which horizontal beams/platforms are mounted at the same level as the floor with the equipment for fixing and stretching the tensioned reinforcement of the floor using whole cut pieces of tensioned reinforcement over the entire length/width of the building, makes it possible to reduce the workload for installing and stretching the reinforcement. The number of machines to be used is reduced, because until the formwork of the poured floor is removed, the forces of the tensioned reinforcement are taken over by the uprights/frames, mounted on the outside of the building perimeter, while, for example, in the closest solution, the forces of the tensioned reinforcement are taken over by the mounting spacers, installed between the columns in each opening of the building shell. After the floor is removed and the force of the tensioned reinforcement is transmitted from the uprights/vertical frames to the floor concrete, the simultaneous work of the elements of the entire monolithic floor disc is ensured. The proposed process can be applied both during the construction of buildings with a frame with prefabricated and/or monolithic columns, and during the construction of buildings with external vertical load-bearing structures made of monolithic reinforced concrete. During the erection of vertical monolithic load-bearing structures (walls and/or columns), the reinforcement of vertical uprights/frames is carried out at the vertical load-bearing structures of the levels/floors, located below the level/floor, on which the floor is installed, which ensures the transmission of the tension forces of the reinforcement through the vertical uprights/frames to the vertical structures of the building, which have already reached the theoretical design strength, which does not require additional time to perform the erection work of the next level/floor of the building. Thus, the use of the invention makes it possible to reduce the workload and the volume of materials for the process of installing a monolithic floor with prestressed reinforcement while ensuring the simultaneous work of the floor elements of the entire building. In addition, the invention can be used during the erection of frame buildings, both with prefabricated and monolithic columns, as well as buildings with external monolithic enclosing structures.

The invention is explained by the drawings in Fig. 1-5, which represent:

- Fig. 1, vertical section of the building with a monolithic column shell;

- Fig. 2, reinforcement fixing node;

- fig. 3, node B in fig. 1, the node with the reinforcement tensioning mechanism;

- Fig. 4, general view (axonometry) of the building with a monolithic column frame;

- Fig. 5, general view (axonometry) of the building with external monolithic load-bearing enclosing structures and with the tensioned reinforcement of the floor, located on the axes and inside the openings.

The installation process of the monolithic slab with prestressed reinforcement is carried out in the following way (fig. 1-4).

The vertical load-bearing structures are raised - the columns 1, using known methods and devices, the formwork 2 of the floor 3 is installed. The floor reinforcement 3 is installed, including the tensioned reinforcement 4. On the perimeter of the building at the columns 1, vertical uprights/frames 5 are reinforced with platforms 6 at the same level as the floor 3, which is to be concreted, on the platforms 6 the equipment for stretching the tensioned reinforcement 4 is placed, in the given example the tensioned reinforcement is placed only along the axes of the building. The length of the cut pieces of tensioned reinforcement 4 exceeds the length and width of the building, taking into account ensuring the possibility of its reinforcement in the fixing and tensioning mechanisms. For stretching, known devices are used: mechanical, for example, jacks 7, thermoelectric, etc. During the erection of vertical monolithic load-bearing structures (columns, Fig. 1, 4; Fig. 5), the installation (reinforcement) of vertical uprights/frames 5 is carried out on vertical structures that have reached the theoretical design strength and are located below the level/floor on which the floor is installed, it is desirable on buildings of two levels/floors below. This will ensure optimal transmission of the tensile forces of the reinforcement 4 through the vertical uprights/frames 5 to the vertical load-bearing structures of the building, and at the same time it ensures the possibility of performing work on the erection of the next level/floor of the building. If prefabricated columns 1 are used during construction, then the installation (reinforcement) of vertical uprights/frames 5 is carried out on the columns 1 of the level/floor on which the floor 3 is installed and on the columns 1 of the level/floor below. If the tensioned reinforcement 4 of the floor 3 is also located inside the openings of the casing or between the axes of the building (when it comes to monolithic enclosing walls), then this reinforcement can be, for example, reinforced by horizontal beams 8, placed between the vertical uprights/frames 5, and the tension of the reinforcement 4 can also be achieved by the action of tensioning mechanisms, placed on the axes of the building, on the horizontal beams 8 (Fig. 5). If necessary, conditioned by calculations, the formwork 2 of the floor 3 can be supported by uprights 9. The floor is concreting. When the freshly laid concrete of the floor has reached the theoretical design strength, the floor 3 is stripped, the reinforcement 4 is released from the fixing and tensioning equipment and the tensioning forces of the reinforcement 4 are transmitted to the concrete of the floor 3, the reinforcement protrusions 4 are removed from the perimeter of the building and the front surfaces of the floor 3 are smoothed using known procedures. The lower sections of the vertical uprights/frames 5 and uprights 9 are dismantled and moved to the levels/floors above.

The application of the claimed monolithic slab installation method with prestressed reinforcement makes it possible to reduce the amount of work and the amount of materials for the process while ensuring the simultaneous work of the floor elements of the entire building. The rigidity and resistance of the floor to cracking are increased, the consumption of building materials is reduced, while maintaining a high level of construction reliability indices, which is especially important in seismic regions. The architectural and planning possibilities during the design of the building are significantly expanded, conditioned by the possibility of increasing the spans between columns (between load-bearing structures) up to 18 m and obtaining a flat floor without a chord (without a beam). The http://poafe.fi process is used during the erection of frame buildings, both with prefabricated and monolithic columns, as well as buildings with monolithic external enclosing structures.

1. RU 2147328 C1 2000.04.10

Claims (4)

Installation process of a monolithic floor with prestressed reinforcement, in which the vertical load-bearing structures of the building are raised, the floor formwork is installed, unstressed and tensioned reinforcement is placed in it, at the same time the tensioned reinforcement is placed in the form of whole cut pieces along the entire length and/or width of the building; on the perimeter of the building, on the outside, at the vertical load-bearing structures, which have reached the design strength, vertical uprights/frames are reinforced with platforms level with the floor to be concreted, on which the equipment for fixing and stretching the tensioned reinforcement is placed, or horizontal beams/platforms with the equipment for fixing and stretching the tensioned reinforcement are mounted level with the floor on the vertical uprights/frames; the tensioning of the tensioned reinforcement is carried out with the transmission of the force from it to the uprights/frames, the floor is concreted and, after reaching the concrete's formwork resistance, the floor is stripped with the transmission of the tension force to the concrete. 2. Method according to claim 1, wherein the reinforcement of the vertical uprights/frames is carried out along the axes of the building. 3. Method according to claim 1, in which in the case of raising the building with a frame, the mounting of the vertical uprights/frames is carried out on columns. 4. Method according to claim 1, wherein during the erection of the vertical load-bearing monolithic structures, the reinforcement of the vertical uprights/frames is carried out at the vertical load-bearing structures of the levels/floors, located below the level/floor on which the floor is installed.