RU1772335C - Multistory earthquake-proof building - Google Patents

Abstract

Usage: the construction of multi-storey earthquake-resistant buildings, providing increased seismicity. SUMMARY OF THE INVENTION: floor disks are suspended by floor from upstream crossbars with a clearance relative to columns and downstream crossbars. Pendants are attached at the junction of the beams and columns. The connections are made diagonally cross, installed in the cells of the frame and connected to adjacent floor disks in the intermediate floors, with the foundations in the lower floor and with the coating disk in the upper floor. The coating disc is supported on the crossbars through resiliently movable supports. The connections of each Floor can be attached with their upper ends to the nodes of the crossbar and columns, and the lower ones to the floor disks in the remaining floors. 2 s.p. f-ly, 2 ill. (L C

Description

The invention relates to the field of construction, in particular to a device for multi-storey frame earthquake-resistant buildings.

Various constructions of multi-storey earthquake-resistant buildings are known, in particular 1 st, on movable supports.

A disadvantage of the known devices is their sharp frequency tuning, design complexity and low efficiency.

The aim of the proposed solution is to create a multi-story earthquake-resistant frame building with increased reliability.

The goal is achieved as follows.

A multi-storey building, consisting of a foundation 1, a frame 2, movable relative to the frame 2 of the ceiling 3, the wall fence 4, cross connections 7, differs from the known frame earthquake-resistant buildings in that the cross connections 7 connect the movable floors 3 to the frame 2 in level of the upper floor.

In order to more effectively absorb seismic vibrations, each floor 3 of the lower floor can be connected by a communications system 7 to the floor 3 of the upper floor.

In FIG. 1, 2 are diagrams of the proposed earthquake-resistant buildings.

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The device operates as follows.

The horizontal seismic push transmitted by the soil to the foundation of building 1 causes horizontal deformation of the frame 2, that is, horizontal paving of all elements of the ground part of the building in the direction opposite to the seismic push.

However, in the seismic forces leading up to the level of each floor, there are no O / arcs involved masses of mobile overhangs 3 due to their mobile hyperplot on frame 2 (for example, with the help of gyroscope T 5 attached to crossbars of an oversized floor ),

In this case, movable ceilings 3 connected by cross connections 7 to the carcass 2 at the level of the crossbars of the higher floors or the ceilings of the higher floors actively counteract the horizontal deformations of the carcass 2

In order to limit the horizontal movement of the movable ceilings 3, cross links 7 can be installed connecting the overlap 3 to the foundation 1. To increase the reliability of the links 7, energy absorbers 6 can be incorporated into them.

Thanks to the use of inertial forces moving relative to the frame 2, masses of floor floors 3, it is possible to eliminate or minimize floor seismic forces and, accordingly, schrizital deformations of frame 2 and

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thereby increasing the overall earthquake resistance of the building.

The proposed device allows you to adjust, control, adjust and, if necessary, repair the building structure, both during operation and after the earthquake.

Claims (1)

The claims 1, A multi-storey earthquake-resistant building, including foundations, columns and girders, forming cells, inter-floor pecades, suspended from above-located crossbars on suspensions with a clearance relative to the columns and downstream crossbars, a coating and communication disk, In addition, in order to increase seismic resistance, floor disks are suspended to the upstream crossbars by the floor, and the suspensions are attached at the junction points of the crossbars and columns, and the connections are made diagonally cross-wired and installed in the cell cages in columns and are connected at one end to the floor slabs. 2, The building according to claim 1, which is related to the fact that the bonds placed in the cells of the intermediate floors are attached at the other end to adjacent floor disks, the connections of the lower floor with the foundations, and the connections upper egoage - with a coating disc supported on crossbars by means of elasto-swing supports .. 3, The building according to claim 1, it is stipulated that the links of each floor are attached at one end to the floor drive and at the other end to the junction points of the crossbars with columns in the cells of each floor. FIG. 2