SU962557A1 - Earthquake-proof multistorey building - Google Patents

Description

one

The invention relates to the construction and is intended for the construction of earthquake-resistant buildings, mainly frame-panel.

A multistory seismic resistant building is known, including spatially rigid supporting elements on which storey structures 11 are movably mounted.

The disadvantages of this design are increased complexity and intensity.

The closest technical solution to the proposed one is a multi-storey earthquake-resistant building, including spatially rigid floors and the upper floor, used as a vibration damper 2.

This building structure is characterized by insufficient seismic resistance due to the inability to change the mass and dynamic parameters of the upper floor.

The aim of the invention is to reduce the deformability and increase the resistance to seismic effects.

This goal is achieved by the fact that in a multi-storey earthquake-resistant building comprising spatially rigid floors and the upper floor, used as an oscillation damper, the upper floor is made of separate sections, one of which, located in the central part of the building, is rigidly connected to the structures of the underlying floor, and the sections located around it are movably mounted on the structure of the underlying floor and with a gap relative to one another and a fixed section; tions and are connected to the latter by means of elastic elements and damping

20 devices.

Claims (2)

FIG. 1 shows a typical floor plan of the building; in fig. 2 - upper floor in plan; in fig. 3 is a section A-A in FIG. 2; in fig. 4 - section bb on u. 2. A multistory seismic resistant building includes spatially rigid structures of floors 1, consisting, for example, of columns 2 and girders 3, and the upper floor, made up of separate sections 5-9. Section 5 is rigidly connected to the structures of the underlying floor 1 and is located in the central part of the building. Sections 6-9 are arranged with a gap 10 around section 5 and one relative to the other and are installed movably on the structure of the underlying floor 1, for example, using rollers 11. Section 5 and 6-9 are interconnected by means of elastic elements 12 and damping devices 13 located in the gaps. 10. In case of intense seismic events, in the spectrum of which periods equal to or close to the natural oscillation periods of the structure predominate, the building oscillates intensively. With an increase in the amplitudes of oscillations, the existing structures of the upper floor are included in the oscillatory process (using a special mechanism of the type of relay), which are divided into separate sections with different masses moving in opposite directions. The joint participation in the oscillatory process of individual seismic masses in different directions provides damping of oscillations of different shapes and directions. Vibrating structural elements with different seismic masses and, accordingly, with different dynamic parameters perform the function of seismic vibration dampers. Moving sections of the upper floor are included in an oscillatory process with a certain displacement or force arising during seismic vibrations. The magnitudes of the displacements or forces at which the mobile technical floor is put into operation, as well as the values of the rigidity of the building, the elastic element and the damping device, are calculated. The invention allows to reduce the deformability and increase the resistance of building structures to seismic effects, i.e., provides the possibility of damping vibrations, reducing their amplitude, and will increase the reliability of such a building under seismic effects, Formula of Invention Multi-storey earthquake-resistant building, including spatially rigid ones Key and upper floor, used as a vibration damper, characterized in that, in order to reduce the deformability and increase the resistance of the seismic in action, the upper floor is made of separate sections, one of which, located in the central part of the building, is rigidly connected to the structures of the lower floor, and the sections located around it are installed movably on the structure of the lower floor and with a gap relative to each other and the fixed section and are connected with the latter by means of elastic elements and damping devices. Information sources. taken into account during the examination 1. US patent No. 2001169, cl. E O N 9/02, 1935. 2. USSR author's certificate No. 808659, cl. E N 9/02, 1979 (prototype), fPu. i r / / YU to t ff .f (Pi / i.3 ss ,. / , V  . " l M V / 7 and five / X