SU1078013A1 - Load-carrying structure of high-rise construction - Google Patents

Abstract

BEARING STRUCTURE OF HIGH-SPEED FINISHING, mainly for reinforced concrete shafts of granulation towers, containing ring elements made in the form of reshashchatyh disks with internal and external racks themselves united along the external contour, with the aim of reducing metal consumption and simplifying production The lattice disks are made in the form of annular zones of the tower trunk, the trimming is equipped with struts connecting the disks, and the racks are attached to the disks hingedly. 5S (L s 00 co

Description

The invention relates to the construction of tower-type structures with high-rise buildings attached to the central trunk.

Known supporting structure of high-rise buildings, including an annular beam, articulated, supported on the Central barrel of the tower [1].

The disadvantage of this design is that with an uneven load, the supporting structures create concentrated moments on the central barrel of the tower, for the perception of which additional devices are needed. In addition, the design has an undesirable angle of rotation of the horizontal plane, to reduce which an increase in metal consumption is required, the annular beam requires a significant consumption of metal.

Closest to the invention in technical essence is the load-bearing structure of a high-rise building containing ring elements made in the form of lattice disks with inner and outer belts united by the outer contour of the struts f 2].

The disadvantages of the known design are the large metal consumption, since the elements of a triangular lattice, ring belts and racks connecting them, work as eccentrically compressed elements, being elements of frame structures, as well as the high complexity and metal consumption of the rigid junctions of the lattice, belts and racks.

The aim of the invention is to reduce the metal consumption and simplify the manufacture of the structure.

This goal is achieved by the fact that in the supporting structure of high-rise buildings, mainly for reinforced concrete shafts of granulation towers, containing ring elements made in the form of lattice disks with inner and outer belts united by racks united along the outer contour, the inner belts of lattice 'disks are made in the form of annular zones the tower’s barrel, and the O building is equipped with struts connecting the disks, and the racks are hinged to the disks.

In FIG. 1 schematically shows a supporting structure, a plan view; in FIG. 2 — section A — A in FIG. 1.

The design contains outer belts 1 and inner belts 2. which are part of the reinforced concrete central shaft 3, a triangular lattice 4, pivotally connected to the belts and forming ring trusses with them, struts 5 and struts 6, pivotally attached to the outer belts 1. The inner belts 2 are formed annular zones of the reinforced concrete central trunk of the tower.

From the action of the load (for example, the weight of the outer barrel 7 of the granulation tower) in the elements of the horizontal annular trusses (belts, grating) and racks, only axial forces arise, which allows to reduce the sections of the elements and, therefore, to reduce the metal consumption of the structure. The hinged fastening of the elements between each other simplifies the design of the nodes, increases the reliability of their work, reduces the consumption of metal in the manufacture.

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Claims (1)

BEARING STRUCTURE OF ALTITUDE BUILDING, mainly for reinforced concrete trunks of granulation towers, containing ring elements made in the form of lattice disks with inner and outer belts united by an outer contour of racks, characterized in that, in order to reduce metal consumption and simplify manufacturing, the inner belts of lattice disks are made in the form of annular zones of the tower’s barrel, the structure being equipped with struts connecting the disks, and the racks are hinged to the disks. QO about With 0ig. /