SU907200A1 - Suspension earthquake-proof building - Google Patents

Description

(54) SUSPENDED SEISMIC RESISTANT BUILDING

The invention relates to the construction and can be used in the construction of earthquake-resistant buildings of the suspended type.

A suspended building is known, including a foundation, a central core stiffness, a spatial cantilever truss supported on it, and prestressed vertical hangers attached to a spatial cantilever truss, equipped with breakaway links and anchored in the foundation.

The closest in technical essence and the achieved result is a suspended earthquake-resistant building, comprising a central core with a spatial cantilever truss, connected to the core, and pre-stressed vertical suspensions, passed through the brackets attached to the spatial cantilever truss and the bottom of the building 2.

The disadvantage of such buildings is their lack of flexural-torsional rigidity and seismic resistance, as well as the complexity of the installation of the building.

The purpose of the invention is to increase flexural-torsional stiffness, seismic resistance and simplify installation.

This goal is achieved by the fact that in a suspended earthquake-resistant building that includes a foundation, a central core stiffness with a cantilever truss, a ceiling and vertical prestressed suspensions, passed through the ceilings and fixed at one end 10 in the lower part of the building, the stiffness is made of bulk units and stiffeners combined with cantilever girders supported on blocks of a stiffening core, the building being equipped with pre-stressed inclined hangers and attached One end at the external ends of the crossbars, and the other end in the attachment points of the overlying crossbars to the stiffeners, while the vertical hangers are supported on the spatial cantilever truss, passed through the body of the stiffening core and anchored in the foundation.

FIG. 1 shows schematically a building, a section; in fig. 2 shows a plan for fastening an interfloor overlap to vertical and inclined hangers; in fig. 3 - building foundation, general view; in fig. 4 - unit for connecting the interfloor overlap and central stiffener elements.

The building consists of foundation 1, a central rigidity core 2, made of precast bulk blocks 3 and stiffening ribs 4, combined with cantilever girders 5, a spatial cantilever truss b, supported on a core of 2 stiffnesses, overlap 7, supported on beams 5, pre-vertical strained suspensions 8, skipped through overlaps 7 and the rigidity core 2 case, supported on a cantilever truss 6 and fastened at one end to the truss of the lower part of the building, and at the other end zankereny in foundation 1, and inclined suspensions 9 attached at the ends of the cantilevers A fixed bolt 5 and in the attachment points of the overlying bolts 5 to the stiffening ribs 4.

The installation of the building is carried out as follows.

On preparatory foundation 1 with hollow block chambers, precast blocks 3 cores 2 stiffnesses with openings left in advance are installed. Vertical hangers 8 are passed through these holes with one end secured in the chambers of foundations 1. Alternating blocks 3 cores 2 stiffness and ribs 4 stiffness with bolts 5 build a central core 2 stiffness. On the rigidity of the core 2 stiffness, a spatial cantilever truss 6 of the coating is installed, through the braces and the upper one with which the pendants 8 are moved, derived from the core 2 of rigidity.

Between the bolts 5, slabs 7 with holes are mounted. Through the holes of the ceiling 7, from the top of the truss 6 of the roof, the suspensions 8 are passed and anchored in the lower part of the building or in the foundation 1.

The ends of the bolts 5 and the joints of the latching bolts 5 with the ribs 4 are connected by inclined hangers 9. Wall panels are attached to the vertical hangers 8 and the intermediate floors 7.

After creating the necessary pre-tension in the suspensions 8 and 9, the overlap 7 is fixed permanently.

An advantage of the invention is that the combination of vertical and inclined hangers for attaching interfloor overlaps to other stiffnesses and passing vertical suspensions through the body of the stiffener ensures reliable suppression of flexural-twisting vibrations arising in the building from wind and seismic loads, and making stiffeners prefabricated simplifies the installation of the building .

Claims (2)

1. USSR author's certificate for application number 2758567 / 29-33, cl. E 04 H 9/02, 26.04.79. 2. USSR author's certificate No. 613065, cl. E 04 H 9/02, 1976 (prototype). one