RU2043465C1 - Sectional prestressed concrete skeleton of a building or construction - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: columns are installed at 45 angle to axes of skeleton cells formed by the columns. Cross bars of U-section are located on diagonals of the cells and form overlapping grids of triangular cells with beams connected to them. Overlapping plates with bevels rested on bevels of cross bars and beams are located in the latter. Reinforcement is located in hollows of cross-bars. The reinforcement passes through opening in columns. EFFECT: construction of high strength. 3 dwg

Description

 The invention relates to the construction and can be used in the construction of prefabricated prestressed frames of buildings or structures.

Known prefabricated reinforced concrete frame of a multi-storey building, including columns installed with rotation at an angle of 45 ^about relative to the axes of the cells, frame, crossbars installed along the axes of the cells and floor slabs, supported on the crossbars [1] The disadvantage of this solution is the high complexity of installation and increased material consumption.

 The closest in technical essence to the proposed is a prefabricated prestressed frame of a building or structure, including columns that form cells in the plan of the building or structure and made with holes in the level of the ceilings for the passage of prestressed reinforcement, which is placed in the cavity of the crossbars installed in two mutually perpendicular directions perpendicular to the faces of the column and having a trough-like cross section, and floor slabs, supported along the contour. The disadvantage of this device is the improvement of operating conditions by providing flat floors and reducing material consumption due to the possibility of using lightweight concrete, as well as improving the conditions for transportation and installation of building structures.

 The objective of the invention is to improve operating conditions, transportation and installation and reduce material consumption.

 The problem is solved in that the columns are installed with rotation at an angle of 45 ° relative to the cell axes, the crossbars are located along the diagonals of the cells and interconnected, and the building or structure is equipped with beams placed around the perimeter of each cell and connected to the crossbars to form a lattice with triangular cells, the floor slabs are made of light concrete and have a triangular shape, and the side faces of the last beams and crossbars are made with reciprocal bevels to support the floor slabs on the crossbars and beams.

 In FIG. 1 shows a fragment of a building in plan; figure 2 section along aa in figure 1; figure 3 section along BB in figure 1.

The precast prestressed reinforced concrete frame of the building contains columns 1 with openings 2 in the level of floor slabs 3 for the passage of prestressed reinforcement 4, which is placed in the cavities 5 of the crossbars 6 of the trough-like cross section. Columns 1 installed at an angle ^of 45 relative to the axes formed by them in terms of building cells 7. crossbars 6 are arranged along the diagonals of the cells 7 and interconnected. The building is equipped with beams 8, which are located along the contour of each cell 7 of the frame and are connected to the crossbars 6 to form a lattice 9 with triangular cells 10.

 The floor slabs 3 are made of lightweight concrete and have a triangular shape in plan and are freely slanted by the side faces 11 along the contour of the crossbars 6 and beams 8, the side faces 12, 13 of which have reciprocal bevels.

As lightweight concrete for floor slabs 3, for example, aerated concrete is used. The building frame is assembled in the following sequence: prefabricated columns 1 are installed in the design position, to which mounting tables are then mounted, onto which the grating 9 of the floor is laid (on four supporting tables). The space between the columns 1 and the ceiling grid 9 is filled with fine-grained concrete of high grade M400-500 pcs / m ³ . After that, the space of the lattice 9 is filled with prefabricated triangular plates 3, which are supported on the bevels of the lattice 9 on three sides. Triangular slabs 3 can be laid freely on three sides in the form of dry support, or the bevels can be filled with concrete on a cone or damping pads. After laying the grating 9 and floor slabs 3, they begin to tension the reinforcement 4, diagonally arranged crossbars 6 of the grating 9 under construction conditions, followed by concreting the cavity zone 5 of the crossbars 6 with concrete M200pcs / m ³ for a low-rise frame and M400pcs / m ³ for a multi-story frame.

 The invention improves the operating conditions of a building or structure by performing flat ceilings, reduces material consumption due to the free support of floor slabs on beams and crossbars and their implementation from light concrete, simplifies the transportation of frame elements and their installation.

Claims (1)

COMBINED PRELIMINARY STRESSED REINFORCED CONCRETE BUILDING OR STRUCTURE FRAME, including columns forming cells in the plan of a building or structure and made with holes in the level of the ceilings for the passage of prestressed reinforcement, which is placed in the cavity of the crossbars installed in two mutually perpendicular to the columns and perpendicular to and trough-shaped section, and floor slabs, supported along the contour, characterized in that the columns are installed with rotation at an angle of 45 ^o relative to the cell axes, and the crossbars are located laid down on the diagonals of the cells and interconnected, and the building or structure is equipped with beams placed around the perimeter of each cell and connected to the crossbars to form a lattice with triangular cells, while the floor slabs are made of light concrete and have a triangular shape, and the side faces of the latter, beams and crossbars are made with reciprocal bevels for supporting floor slabs on crossbars and beams.

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