RU135668U1 - REINFORCED CONCRETE FRAME OF MULTI-STOREY BUILDING - Google Patents

Abstract

Precast concrete frame of a multi-storey building, including load-bearing columns, crossbars, pivotally connected to them in the level of overlap with the formation of closed cells, floor slabs, characterized in that the floor slabs are multi-hollow 160 mm thick and are supported on crossbars with transverse reinforcement in the support zone in the form Π-shaped grids forming a closed loop, the vertical bearing plates of the crossbar are installed at an angle, and round recesses with round bevels with bevels are made along the entire length of the inclined sides of the crossbar Ia keys while in the carrier column formed jacks installed therein console in a supporting table on which is supported hinged exterior panels, and the column bottom connecting plates are welded obliquely.

Description

The utility model relates to the field of construction, in particular to a multi-story building of a frame-wall structural system of precast-monolithic reinforced concrete.

A multi-storey building of a frame-wall structural system of precast-monolithic reinforced concrete is known (patent RU 2441965 IPC E04B 1/20 publ. 02/10/2012), in which prefabricated reinforced concrete columns, made over several floors, and monolithic reinforced concrete disks of floors. The columns are joined along the height of the building according to the type of plug connection of the fittings in the holes of the columns on the adhesive solution. The end planes of the columns within the core of the section are curved polygonal in the form of a bowl along the upper plane of the cutoff of the columns and in the form of a truncated pyramid or ball along the bottom. Orthogonally located linear rigid inserts are installed in the nodes of the grid of columns at the levels of monolithic floors. The inserts are supported on horizontal sections of the columns with anchoring the outlets in the plates outside the cross-section of the columns. The building is equipped with stiffness diaphragms made of prefabricated wall panels one floor high with loop outlets of various lengths.

The disadvantage of this design is the large number of labor-intensive joints.

Known prefabricated reinforced concrete frame of a multi-storey building with increased fire resistance (patent RU 2411382 E04B 1/18 IPC E04B 1/18 publ. 02/10/2011), which includes columns and articulated to them in the level of overlap with the formation of closed cells of the cross-section of the T-section and the flooring of the floor from hollow prestressed plates. The columns in the lower floors are made with longitudinal reinforcement placed in at least two rows, several floors high, and with nests in the level of overlap. At the bottom of the column are placed docking metal plates with holes for releases of reinforcement. At the upper end of the column there are reinforcement outlets located in the openings of the lower end of the upper column, at least one wide pre-stressed load-bearing crossbar, forming a closed cell, with one or two shelves for supporting flooring, bearing walls, are connected with each column in orthogonal directions on one floor, mounted with support on each other through a contact joint and rigidly connected to each other and with columns, while the bearing crossbars are made with lower shelves and inclined walls cut at the same angle at the columns, forming rigid contact joints in the plane of the floor.

A disadvantage of the known technical solution is the increased metal consumption, a large number of labor-intensive joints, the quality of monopolization of which is difficult to ensure.

The technical task performed using the proposed solution is to create a constructive system that allows to reduce the material consumption of the frame, increase the reliability of the column junction assembly in height, reduce the laboriousness of reinforcing the crossbar, simplify and make more reliable fixation of the crossbar at the installation until the joint of the crossbar with column and increase the volume of living space due to the possibility of increasing the number of storeys of the building.

The technical result is to reduce the load on the supporting structure by reducing material consumption, as well as reducing the complexity.

The main technical result is achieved by the fact that in a precast concrete frame of a multi-storey building, including load-bearing columns, crossbars, pivotally connected to them in the level of overlap with the formation of closed cells, floor slabs, according to the proposed solution, floor slabs are multi-hollow 160 mm thick and rely on crossbars with transverse reinforcement in the support zone in the form of Π-shaped grids forming a closed loop, the vertical bearing plates of the crossbar are installed at an angle, and along the entire length of the inclined faces the crossbars have round recesses with chamfers for the formation of dowels, while in the supporting column there are nests with a console installed in them in the form of a support table, on which the hinged outer panels rest, and in the lower parts of the columns the connecting plates are welded at an angle.

Reducing the construction height of the floor due to the use of multi-hollow slabs with a thickness of 160 mm with the same regulatory requirements for buildings up to 50 meters in height allows to reduce the height of a typical floor (from 3.0 m to 2.95 m) and reduce the load on the supporting structures of the building , as well as increase the number of living space by increasing the number of storeys.

The use of wall mounted external wall panels in the frame structure allows to reduce the construction time by reducing the complexity of erecting building envelopes.

Welding in the lower part of the column under the slope of the connecting plates provides a dense filling of monolithic cavities with concrete, and the absence of air in them allows to increase the reliability of the site. The installation of vertical bearing plates in the support unit of the crossbar at an angle to the vertical allows to ensure a tight adjacency of the fixing wedge to the edge of the console of the column and to increase the reliability of the node of the junction of the crossbar with the column until monopolizing.

The combination of essential features ensures the achievement of a technical result.

The utility model is illustrated by drawings, in which Fig. 1 shows a general sectional view of a structure, Fig. 2 shows a crossbar-column connection unit, Fig. 3 shows a section A-A, Fig. 4 shows overlapping plates, Fig. 5 - the junction of the columns, Fig.6 is a cross-section of the crossbar.

The prefabricated reinforced concrete frame of a multi-storey building consists of crossbars 1, multi-storey vertical load-bearing columns 2 of constant square cross-section along the building height, stiffness diaphragms (load-bearing walls) 3. Bearing column 2 and crossbar 1 having vertical load-bearing plates 4 installed at an angle in the support area, are connected using a spike of the supporting detachable console 5, and in the lower part of the supporting columns 2, the connecting plates 6 are welded at an angle. The floor slabs 7 are laid on the flanges of the crossbar 1 with transverse reinforcement in the supporting zone in the form of Π-shaped grids 8. In Fig. 1, the number 9 indicates the junction of the crossbar 1 with the supporting column 2, and 10 - the butt joint of the supporting columns 2.

Application of the utility model allows to reduce the cost of 1 m ^{2 of} housing.

Claims (1)

Precast concrete frame of a multi-storey building, including load-bearing columns, crossbars, pivotally connected to them in the level of overlap with the formation of closed cells, floor slabs, characterized in that the floor slabs are multi-hollow 160 mm thick and are supported on crossbars with transverse reinforcement in the support zone in the form Π-shaped grids forming a closed loop, the vertical support plates of the crossbar are installed at an angle, and round recesses with round bevels with bevels are made along the entire length of the inclined sides of the crossbar Ia keys while in the carrier column formed jacks installed therein console in a supporting table on which is supported hinged exterior panels, and the column bottom connecting plates are welded obliquely.

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