RU2017001C1 - Earthquakeproof multistory building - Google Patents

Abstract

FIELD: construction. SUBSTANCE: rocking wall panels are made of the ground floor height and have key-type cut-outs with which panels are mounted on each other in two interperpendicular directions and connected to each other by centering washers with anchors. Upper wall panels are mounted in pits of plate of floor and lower wall panels are mounted in pits of panel of foundation. In clearances between the wall panels and plates of floor and foundation one part of dampers and actuated connections are located. The other part of dampers is located in clearances of key-type connections of the wall panels. EFFECT: rocking panels are used in construction of earthquakeproof multistory building. 2 dwg

Description

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

 A multi-storey earthquake-resistant building is known, including upper floors resting on lower floor slabs, a foundation slab, lower floors, in which swinging racks, stops rigidly fixed in the foundation slab, and dampers placed in the gaps between the floors are pivotally mounted in the recesses of the base plate and the floor stops and swinging supports.

 Closest to the invention in technical essence is a multi-storey earthquake-resistant building, including upper floors, supported by a floor slab, a base plate, a lower floor, in which swinging wall panels equal to half the height of the lower floor are installed in the recesses of the base plate and the floor, resting on each other on each other in two mutually perpendicular directions by means of intermediate rigid gaskets, stops fixed rigidly in the foundation plate, dampers installed in the gaps m forward stops and wall panels.

 The disadvantage of these earthquake-resistant buildings is the complexity of installation.

 The objective of the invention is to increase seismic resistance and reduce the complexity of the construction of a seismically insulated building.

 The task is achieved in that the panels are made high on the lower floor with keyways on abutting faces, supported by horizontal edges of the cuts with the formation of gaps between the vertical faces of the cuts and the side surfaces of the panels and between the other horizontal faces of the latter and, accordingly, the foundation and floor slabs, moreover, the rigid gaskets are made in the form of a centering washer with an anchor inserted into adjacent panels, and the building is equipped with connecting links, the latter and one part dampers mounted in the gaps between the horizontal edge panels and the foundation plate and overlap, and the other part dampers - in the gaps between the vertical faces of the recesses and the side surfaces of the panels.

 Figure 1 shows a fragment of the plan of the lower floor of an earthquake-resistant multi-storey building; figure 2 is a section aa in figure 1.

 An earthquake-resistant multi-storey building contains upper floors 1 installed on a floor slab 2 of the lower floor 3, the last swinging upper 4 and lower 5 wall panels on the lower floor 3, supported on each other in two mutually perpendicular directions through rigid gaskets 6, and dampers 7.8.

 The panels 4, 5 are made with keyway cutouts 9, mounted on each other by horizontal faces 10 of the cutouts 9 and interconnected by means of rigid spacers 6, which are made in the form of a centering washer with an anchor 11 connected to the adjacent upper 4 and lower 5 panels.

 The upper panels 4 with the upper horizontal edge 12 are pivotally in the recesses 13 of the floor slab 2, and the lower panels 5 with the lower horizontal edge 12 are in the recesses 13 of the foundation plate 14. The recesses 13 and face 12 have a curved shape.

 The lower horizontal face 15 of the upper panels 4 and the upper face 15 of the lower panels 5 are located with gaps 16 relative to the foundation plate 14 and the floor slab 2, respectively. In the gaps 16, connecting links 17 and one part of the dampers 7 having a rod elastic structure are installed.

 Between the vertical faces 18 of the cutouts 9 of the panels 4, 5 and the lateral surfaces 19 of the latter, gaps 20 are formed in which the rest of the elastoplastic dampers 8 are placed.

 The engaging connections 17 are made of brittle material.

 Seismic isolation from wall panels 4, 5 works as follows.

 Under the action of horizontal seismic forces on the foundation plate 14, the upper floors 1 and the floor slabs 2 are displaced by swinging the upper 4 and lower 5 wall panels from the plane, and the vertical edges of the 18 key cutouts 9 limit the swing of the wall panels 4, 5.

 The inertial energy is suppressed when moving the upper floors 1 and the influence of wind loads is eliminated due to the installation of rod elastic dampers 7 in the gaps 16 and included bonds 17 made of brittle material, and in the gaps 20 elastic-plastic dampers 8.

 The installation procedure is as follows.

 When concreting the foundation slab 14, recesses 13 are arranged for pivotally supporting the panels 5 and holes are made for installing the rod dampers 7 and the connecting links 17.

 In the recesses 13 of the foundation plate 14, the lower wall panels 5 are mounted and fixed in the design position with clamps, and rod dampers 7 and connecting links 17 are installed in the holes of the foundation plate 14. Rigid gaskets 6 with anchors 11 are installed in the keyways 9 of the lower wall panels 5 .

 The upper wall panels 4 with key cutouts 9 are installed in the key cutouts 9 of the lower wall panels 5, forming key joints, and are fixed in the design position with clamps, and the core dampers 7 and the connecting links 17 are inserted into the holes of the upper wall panels 4. In the grooves of the key joint wall panels 4, 5 set elastoplastic dampers 8.

 On the upper wall panels 4 mount a floor slab 2 with recesses 13 for its articulation. Through holes in the floor slab 2, rod dampers 7 and connecting links 17 are installed in the holes of the lower wall panels 5. On the floor slab 2 of the lower floor 3, the upper floors 1 are mounted.

 After the installation of the building is completed, the clamps are removed.

 Wall panels 4, 5 can be made of reinforced concrete.

 The invention increases the seismic resistance of the building and reduces the complexity of installation.

Claims (1)

 SEISMICALLY MULTI-STOREY BUILDING, including upper floors located on the floor slab of the lower floor, which is supported by swinging upper and lower wall panels installed one on the other through rigid gaskets in two mutually perpendicular directions, wound with one horizontal face in the recesses of the floor slabs and the foundation, respectively and dampers, characterized in that the panels are made high on the lower floor with keyways on abutting faces, supported one against the other by horizontal faces of the cutouts with the formation of gaps between the vertical faces of the cutouts and the side surfaces of the panels and between the other horizontal faces of the latter and, accordingly, the foundation and floor slabs, the rigid gaskets being made in the form of a centering washer with an anchor in adjacent panels, and the building is equipped with connecting ties, the latter and one part of the dampers are installed in the gaps between the horizontal edge of the panels and the slabs and foundations, and the other part of the dampers are installed in the gaps between the vertical faces of the cuts and shackled surface of the panels.

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