SU935590A1 - Many-storied seismically resistant building - Google Patents

Description

(St) MULTILEVEL SEISMIC RESISTANT BUILDING

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The invention relates to the construction and can be used in the construction of multi-storey earthquake-resistant buildings. and (its device, made in the form of bunkers attached to the floor slab and filled with material that creates dry friction, and between the foundation and the lower floor of the mouth Disabled shutdown S81 for l.

The disadvantage of this building is the constant load on the racks, both during the period between the seismic shocks and during them, as well as in the complexity of the structure of the building, due to the presence of special damping devices

communications requiring recovery after an earthquake.

The closest to the proposed one is a multi-storey earthquake-resistant building, including spatially rigid upper floors and the lower floor with overlapping and flexible in the horizontal direction, stands of the lower floor with spherical ends at the ends, the upper of which are connected

10 with overlapping, and the lower ones are installed in the foundation glasses, and in the gaps between the walls of the glasses and the pillars there are shock absorbing supports 2.

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The drawbacks of the known building are the fragility of the struts, which take up all the vertical load and have increased stresses in a small zone of contact between the struts and the supporting surfaces of the foundation and the floor slab in the absence of seismic shocks, and the possibility of the stands falling out of the glasses.

The purpose of the invention is to reduce the load on the racks in the period between seismic shocks and to increase the reliability of the building under horizontal dynamic loads. This goal is achieved by the fact that in a multi-story seismic building that includes spatially rigid upper floors and the lower floor with overlapping and horizontally flexible legs of the lower floor with spherical ends at the ends, the upper of which are connected to the floor, and the lower ones are installed in the foundation glasses, moreover, in the paz between the walls of the glasses and the racks there are shock absorbing lugs, the walls of the glasses are made with a height equal to the height of the racks of the lower floor, with the formation of wells, on the walls of which are free the bottom is the construction of the upper floors.

In Fig. 1 shows a multistory seismic building; in fig. 2, node A in FIG. one.

A multistory seismic resistant building includes upper rigid floors 1, lower floor 2 with overlapping 3 and horizontal supports C with spherical ts% 5, foundation 6c with wells 7 in which stands k with a gap 8 between the inner surface of the wells 7 and the surface are placed racks k. The walls of the wells 7 are made with a height equal to the height of the racks 4. The overlap 3 is freely supported on the racks and the walls of the wells 7 To prevent collisions of the racks k with the inner surface of the wells 7, elastic connections or shock absorbers 9 can be installed between the seismic jerks static the load due to the weight of the building is distributed between the uprights and the wells, and wind, explosive, weak seismic and other effects do not cause a horizontal displacement of spatially rigid upper x floors relative to the basement due to the presence of frictional force between the overlap of the lower hard floor and the upper bases of the wells.

During an earthquake, as soon as the magnitude of the seismic load exceeds the magnitude of the said frictional force, the legs turn at some angle relative to the wind, and their centers of gravity and building are lifted. which provides an increase in the periods of oscillation of the building and a significant reduction in the seismic load on it. The inclusion in the work of the forces of friction in the vertical position of the racks leads to an acceleration of attenuation

building vibrations.

The invention makes it possible to significantly increase the durability of the struts with spherical ends, since the static vertical load is reduced on

5 racks between seismic jolts, and stresses in a small zone of racks contacting the supporting surfaces of the foundation and overlapping the lower hard floor when

0 absence of seismic shocks. In addition, the amplitudes of resonant oscillations are significantly reduced due to the fact that during each return movement the spatially rigid

the upper floors are braked by frictional force between the overlap of the lower hard floor and the upper bases of the wells, and the possibility of racks falling out is completely eliminated.

Claims (2)

1. USSR author's certificate №, cl. E Ok, 197+. 2. USSR author's certificate, class E. 9/02, 1972 (prototype).