SU1032154A1 - Multistorey earthquake-proof building - Google Patents

Abstract

MULTI-STORAGE SEISMIC RESISTANT BUILDING, including spatially rigid upper floors and a current floor with horizontal flexible racks with spherical ends, characterized in that, in order to improve seismic resistance by limiting seismic response and high dynamic stability, the rack is made in height from separate parts with different cross-section of joined ends, while the latter are interconnected by means of a thin-walled shell reinforced with vertical rods and defrosted in the area of the end of the part of the rack with a smaller cross section with a gap relative to it, G between the spherical ends of the parts of the uprights is installed a gasket with a low coefficient of friction.

Description

The invention relates to construction and is intended for the erection of buildings and structures in the seismically active zone of macroeconomic score eight and more. The well-known seismic resistant building, including the foundation, the spatial gesture of the young upper floors, the lower floor with a slab, flexible racks with spherical ends placed in the recesses of the foundation and slab, j-acsnuee retractable and deactivated Communications, implemented in the form of dump box-shaped blocks l. The disadvantage of this building is its low dynamic stability under intense seismic action. The closest to the proposed technical 1. The entity is a high-rise seismic-resistant building that includes a space of hard upper floors and a shagay floor with horizontally flexible legs with spherical ends jj2 J. However, a well-known building is characterized with insufficient seismic resistance during intense earthquakes with a low-frequency dominant component. The purpose of the invention is to increase the seismic resistance of multi-storey buildings by limiting the seismic response and high day resistance. This goal is achieved by the fact that in a multi-story earthquake-proof building that includes spatially rigid Bepxirae floors and a lower floor with horizontally flexible legs with spherical ends, each rack is made from individual parts with a different cross section of the ends to be joined, while the latter are interconnected by means of a thin-walled shell reinforced with vertical rods and placed around the end of a part of the rack with a smaller cross section with a gap relative to it, and between spherically and totsami parts racks a gasket with a low coefficient of friction. FIG. 1 shows the proposed building, a section (in the deformed state when operating on seismic impact) in FIG. 2 - node I in FIG. 1} in FIG. 3 shows section 1-1 in FIG. 2. A multistory seismic-resistant building includes spatially rigid airways 1542 floors 1, lower floor 2 with horizontally flexible legs 3 and floor plates 4 supported through crossbars 5 onto racks 3. Racks 3 are made of separate parts 6 and 7 with different cross-sections joined ends 8 and 9 and with spherical ends 1O and 11. At the same time, between the ends 1O and 11, spacers 12 are placed with a 1-SHAFT friction coefficient, for example, a plate and a film of fluoroplastic. Parts 6 and 7 of the uprights 3 are interconnected by means of a thin-walled reinforced shell 13 with longitudinal reinforcement by vertical rods 14. The transverse reinforcement in shell 13 is excluded. Shells li3 are placed around the ends of 8 parts 6 of the uprights 3 with a gap of 15 relative to them. At times of overload, the concrete shell 13 {its vertical reinforcing bars 14 are destroyed and the flexible connections function, the spherical ends of the Yu and 11 parts 6 and 7 of the uprights 3 are displaced relative to each other, the mechanism of stable vibrations is used, the WALLS 16 of the lower floor 2 are used as vibration limiters. In order to ensure the localization of damage accumulation and the restoration of reinforcing bars 14, framed fittings 17 are framed. The nature of the building’s response to the destructive seismic effect is insubstantially nonlinear. The change in the structure of the system makes it possible to regulate the seismic forces themselves within fairly wide limits. Seismic response is limited due to brittle fracture of the shell, non-linear restoration of the strength of flexible connections, mutual displacement of parts and the inclusion of an oscillation limiter, as well as the significant nonstationarity of the system that is in operation. Limiting seismic response eliminates overfitting of elements, which, together with an increase in frame shear compliance, expands the possibilities of elastoplastic deformation of its elements. The interaction of spherical surfaces during slippage causes the transformation of horizontal vibrations into vertical ones, the alignment of forces between individual surface elements and the reduction of torsional forces.

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Claims (1)

MULTI-STOREY SEISMO- GB Ftsr. 1st floor with horizontally flexible racks with spherical ends, characterized in that, with a chain for increasing seismic resistance due to the limitation of seismic response and high dynamic stability, each rack is made in height from separate * parts with different cross sections of the ends to be joined, the latter interconnected by means of a thin-walled shell reinforced with vertical rods and placed around the end of the rack part with a smaller cross-section with a gap relative to it, and between of spherical ends chas1032154