SU922258A1 - Multistorey earthquake-proof building - Google Patents

Description

(5) MULTILEVEL SEISMIC RESISTANT BUILDING

. I -.

The invention relates to construction in seismic areas and can be used in structures of high-rise buildings.

A multi-storey seismic resistant building is known, including spatially rigid floors supported on a pile foundation with a high grillage, and including connections located between the pile tin.

The closest in technical essence is a multi-storey earthquake-resistant building, including the foundation, spatially rigid upper floors, the overlap, and flexible racks of the lower floor, between which shutdown communications CZl are placed.

A disadvantage of the structures of these buildings is the need to reestablish the connecting elements of the switching-off connections after the seismic loads are applied in order to create the initial rigidity of the buildings.

The aim of the invention is to provide. The possibility of changing the rigidity of a building under the action of seismic loads and its self-healing.

This goal is achieved by the fact that in a multi-storey earthquake-resistant building, including the foundation, spatially rigid upper floors, floors and flexible racks of the lower floor,

10 between which the switching links are located, the connections are made in the form of arched ones. elements pivotally connected to the foundation and "in the lock with overlap, and in the joints

15 an elastic gasket is placed between the interfaces of the joined elements. In addition, the junction of the arched elements with overlapping is made in the form of a glass rigidly attached to the ceiling and a locking element placed between the arched elements, and the interface between the locking element and the glass is made on the surface of the truncated pyramid.

Figure 1 shows the building, cross section; Fig, node I in Fig.1; in FIG. 3, node IJ in FIG.

A multistory seismic resistant building includes foundation 1, spatially rigid upper floors 2, overlapping 3, flexible racks k of the lower floor 5, and shutdown links 6.

Racks 4 are rigidly connected to the foundation 1 and the floor slab 3. The connections 6 are made in the form of arched elements 7 connected to the foundation 1 and in lock 8 with an overlap 3. The interface of the arch elements 7 with overlapping 3 is made in the form of a glass 9 attached to the ceiling 3, and the locking element 10 placed between the arched elements 7.

The coupling of the locking element 10 and the cup 9 is made along the surface of the truncated pyramid 11. For the articulated support of the arched elements 7 in the foundation 1 and the locking element 10, recesses 12 are made. An elastic strip 13 is placed between the interface surfaces of all joined elements.

The arched elements 7 installed between the flexible uprights k increase the rigidity of the lower floor 5 and, at the time of the seismic shock, limit the displacement of the uprights C from the action of the horizontal load, thus preventing the development of significant deformations in the uprights k.

Arched elements 7, sandwiched between the uprights, under the action of a horizontal load, perceived supporting the ends, undergo bending deformation in the plane and. in the vortex, the curvature seems to be a spring, m, the part of the oscillation energy quenched. In this case, in the castle of the 8th arch, a vertical line arises. there is a partial transformation of the horizontal, oscillations into vertical ones, less dangerous for the construction.

Arches can be made one-, two- and three-hinged. In this case, only the process of their commissioning at work at the time of the seismic shock and the distribution of the forces varies somewhat. Thus, when performing a hinge in the locking part, the vertical component of the

shares, and with a rigid clamping of their support parts, the amount of movement of the racks is reduced.

The order of installation may be as follows. Concreting the foundation with the device of the articulated bases for arched elements (for example, glasses), their installation and concreting of their castle part (in the case of two-joint arches) with a device, for example, from the concrete of the castle element 10. The glass 5 can be installed (mounted) before installation ( or concreting) overlapping structures, 5 for example girders, followed by

hard joining it to the bolt. In the case of a hinge in the locking part 8 of the arch, the element 10 may be connected to one of the semi20 of the arches 7, and the second semi-arch 7 is loosely installed in the recess 2 formed in the element 10 on which the element 9 is mounted and rigidly connected with the supporting element of the overlap 3, for example with a bolt, when concreting the latter. In all cases, prior to mounting the bolts, the arches must be unfastened in order to prevent them from losing stability out of plane. 30 The proposed invention makes it possible to increase the reliability of communication operation and to eliminate the costs associated with the restoration of destroyed communication elements.

Claims (2)

1.Multi-storey seismic resistant building, including the foundation, spatially rigid upper floors, overlap and flexible racks of the lower floor, between which shutdown communications are placed, characterized in that, in order to provide the possibility of changing the rigidity of a building under the action of seismic loads and its self-repair , connections are made in the form of arched elements pivotally connected to the foundation and in the lock with overlapping, with an elastic spacer placed at the junctions between the interfaces of the mating elements. 2. Building according to claim 1, which means that the interface node The arched elements with overlapping are made in the form of a glass rigidly attached to the floor, and a locking element placed between the arched elements, the mating of the locking element and the glass being made along the surface of the truncated pyramid. Sources of information taken into account in the examination 1. Earthquake resistant construction. Abstract collection. Release . M., TsINIS Gosstro USSR, 197. p. 10-14, p.2. 2. USSR author's certificate D 755988, cl. EH 9/02, 1977 (prototype).