SU727825A1 - Multistorey earthquake-proof building - Google Patents

Description

(54) MULTILEVEL SEISMIC RESISTANT BUILDING

The invention relates to the field of seismic resistant construction, namely to structures of multi-storey seismic resistant buildings, including spatially rigid floors and a lower horizontal flexible frame floor with an extinguishing device. A multistory seismic resistant building with spatially rigid upper floors, supported on horizontal horizontal posts of a lower floor with spherical ends, extinguishing device in the form of bunkers, with a material that creates dry friction, is known in the outgrowth of the ground floor. The closest technical solution to the invention is a seismic multi-storey building with spatially rigid upper floors, an opera- tor on the swinging racks of this lower floor with spherical ends and an extinguishing device in the lower floor, located between the t2J racks. However, in the known technical solutions, the extinguishing elements are material-intensive and occupy a significant volume of the lower floor. The purpose of the invention is to reduce material consumption and more compact placement of the damping device. The goal is achieved by the fact that in the proposed multi-storey earthquake-resistant building, including the foundation, spatially rigid upper floors, the lower floor with a slab, swinging racks with spherical ends and dampening device located between the racks and made in the slab of the console rigidly fixed in the slab, interacting with damping elements, a steel tubular element is placed in the basement glass, and the reinforced concrete console is equipped with a steel tubular outlet, wound up in a steel the tubular element, with the extinguishing elements made in the spring dampers of steel strips, connecting rods and reinforcements around the tubular release of the console and around the tubular cable, and the dampers arranged around the tubular element are made of a larger number of steel strips of greater length than the dampers that are large county release console.

The ratio of the total stiffness of the dampers, placed around the tubular element, to the total stiffness of the dampers, placed around the release of cannon, is 4: 1.

FIG. 1 shows the scheme of the described building, a cross section; in fig. 2 - detail of damping elements; in fig. 3 - section aa figo 2.

A multistory seismic resistant building includes a foundation 1, spatially rigid upper floors 2, a lower floor 3 with slab 4 overlapping, tilting poles 5 with spherical ends, a damping device consisting of a cantilever 6 rigidly fixed in 4 overlap, and a damper The elements 7 and 8, which are made in the form of steel spring dampers fixed around the steel tubular. release 9 console 6 and around the tubular element 10.

The cantilever's release is 9 pa; it is placed in the opening of the tubular section 10, which is located in glass 11, foundation 1.

In the event of horizontal constriction of the console, rigidly fixed In the slab of overshoot above the lower floor, under the influence of the seismic load, dampers attached to the release of the console come into operation. Vibration damping occurs due to the occurrence of dry friction forces between the dampers, the inner surface of the tubular element, the release of the cantilever, and between the bands of the dampers. In the event of resonant oscillations, dampers attached to the tubular element enter into operation. Supplemental dry friction forces occur between stiffer dampers attached to the tubular element, the outer surface of the tubular element and the inner surface of the glass, as well as between the bands of more rigid dampers. If there is a further increase in the resonance oscillations, the release of the console comes into operation, and in this case, the damping occurs due to internal friction forces during its bending.

The ratio of the total stiffness of the dampers attached to the tubular element to the total stiffness of the dampers attached to the console release,

equals 4: 1. This ratio provides damping of a wide range of vibrations, including resonant ones.

As a result of using the invention, the material consumption of extinguishing materials is reduced.

elements due to the exclusion of reinforced concrete washers. Extinguishing elements in the form of dampers are placed compactly and do not occupy the volume of the lower floor.

Claims (2)

1. A multi-storey seismic resistant building including a fund & spatially rigid upper floors, lower floor with a slab, swinging racks with spherical ends and damping device placed between the racks and made in the form of rigid fixed in the slab, a console that interacts with damping elements, characterized in that, in order to reduce material consumption and more compact placement of the damping device, a steel tubular element is placed in the basement glass, and the reinforced concrete console is equipped with a steel tubular outlet, inserted into a steel tubular element , while damping elements are made in the form of spring dampers of steel strips, placed and fixed around the tubular release of the console and around the tubular element, moreover mpfery, razmeschennge around the tubular element, made of a larger number of bands of greater length than the dampers are arranged around the outlet console; 2. Building according to Claim. 1, characterized in that the ratio of the total stiffness of the dampers placed around the tubular element to the total stiffness of the dampers placed around the console's release is 4: 1, O Sources of information taken into account in the examination 1. USSR Author's Certificate 5 No. 554388, cl. E O4 And 9/02, 1974. 2. USSR author's certificate number 577287, cl. E 04 H 9/02, 197b (prototype). ten one fUZ.I A -A .i