SU1733606A1 - Earthquake-proof multi-storey building - Google Patents

Abstract

The invention can be used in the construction of seismic multi-storey buildings, providing increased reliability and dissipative properties at high levels of seismic effects and reducing the complexity of installation and repair work. The composite supports of four flexible branches are installed between the slab and the slab of the foundation and are rigidly connected to them. Flexible branches have a rectangular cross-section, are installed with gaps between themselves, in which friction gaskets are placed, and are interconnected by bolts. 3 il.

Description

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The invention relates to construction and can be used in the construction of multi-storey buildings in seismic areas.

A building is known that has been placed on flexible supports made of separate metal circular struts, which at one end rest on the floor slab and at the other end rest on the base plate through a piston and a cylinder with a shock absorber.

The disadvantage of this solution is the difficulty in manufacturing the inability to center and adjust each of the supports to ensure the synchronism of all the supports during an earthquake, as a result of which the reliability is low.

Closest to the present invention is a building having composite supports, each branch of which has a wedge-shaped section, the supports are provided with keys made of plastic material with a certain pitch in height, and the branches are tightened with clamping bolts.

A disadvantage of the known solution is the complexity of the production, unreliability under seismic effects, since at the key locations there is a weakened section of the branches and stress concentration is manifested, the difficulty of replacing the outdated splines.

The purpose of the invention is to increase the reliability and dissipative properties at high levels of seismic effects, reducing the complexity of installation and repair work.

This goal is achieved by the fact that the earthquake-resistant multi-storey building, including the basement slab, the upper floors, supported on the slab of the lower floor, mounted on supports made

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composed of four branches interconnected by clamping bolts and rigidly with floor slabs and foundation, and installed symmetrically with respect to the center axes of the supports, the supports are provided with friction gaskets, and the branches of each support have a rectangular cross-section and are installed with a gap between them, in which the friction pads are placed with the formation of the friction plane in two mutually perpendicular directions.

FIG. 1-3 shows a seismic resistant assembly building.

The seismic multi-storey building 1 includes a slab 2 of the foundation, the upper floors 3 supported on the slab 4 overlapping the underlying floor 5 mounted on the supports 6. The supports 6 are made of four flexible branches 7 and are interconnected by fastening bolts 8 through the holes 9 branches x 7. The branches 7 of the support 6 have a rectangular cross section and are installed with a gap of 10 between them, in which the friction pads 11 are placed with the formation of a friction plane in two mutually perpendicular directions.

The construction of the building is carried out by known methods.

The proposed design works as follows.

During an earthquake, the upper floors 3 of building 1 due to inertial forces begin to oscillate. The upper floors 3 of building 1, deviating from the vertical axis, cause alternating flexural deformations of the support 6, which is rigidly fixed to the base plate 2 and the slab 4 of the lower floor 5 which overlap. The flexible branches 7 of the support 6, interconnected by fastening bolts 8, passed through holes 9, begin to deform. Along the plane of the conjugation of individual branches 7, interconnected with the shutter 10, in which

friction pads 11, with the deformations of the branches 7, friction force arises. This friction force is the higher, the greater the bend of the support 6, since the tangential force increases due to an increase in the tension force of the tension bolts 8, passed through the holes 9.

The greater the mutual shift of the branches of 7, the greater the strength of friction in the plane of friction,

It means more restoring power. In this construction, absorption and dissipation of the energy of building oscillations occurs due to energy dissipation along all planes of conjugation of branches 7 with friction strips 11. Thus, reliability and dissipation properties are increased at high levels of seismic effects. The proposed solution allows to reduce the labor intensity of installation and

repair work.

Claims (1)

The invention can be implemented in high-rise buildings constructed in areas of high seismic activity. Invention Formula A seismic multi-storey building comprising a basement slab, upper floors supported on the lower floor slab installed on supports made of four flexible branches interconnected by fastening bolts and rigidly with the ceiling plates and the foundation and installed symmetrically relative to the center axes of the supports characterized in that, in order to increase reliability and dissipative properties at high levels of seismic effects and reduce the complexity of installation and repair, supports are provided friction pads, and the branches of each support have a rectangular cross section and are installed with gaps between themselves, in which friction pads are placed with the formation of a plane friction in two mutually perpendicular directions. B   S /////// U / / ftirl 10.11 4 th } ///////// Y / 7 ////// -b-r-btfr -S .. S, 9 at 9 6 T .2. Tig.Z