SU1698405A1 - Multistory earthquake-resistant building - Google Patents

Abstract

The invention relates to the construction and can be used in the construction of multi-storey earthquake-resistant buildings. The purpose of the invention is to increase the seismic resistance. The connections located in the cells are formed from paired trapezoidal disks rigidly attached to the columns with a large base. Their side faces are located on the diagonal of m cells. The disks are connected by dampers in the form of a pair of packages of elastic steel curvilinear plates, the upper and lower of which are rigidly connected to the bolts, and the rest are connected to the disks. The frame is mounted on a plate located on the bottom of the trough plate with bearings placed between them attached to the sides by means of dampers. 1 hp ff, 4 ill.

Description

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

The purpose of the invention is to increase the seismic resistance.

Figure 1 shows a multistory seismic building; Fig. 2 shows a frame cell with a connection; on fig.Z - element damper; 4 shows a variant of fastening the elements of the damper together.

A multistory seismic resistant building contains foundation 1, columns 2, and crossbars 3, forming cells 4 in which communications 5 are placed.

Links 5 are made in the form of reinforced concrete paired trapezoidal disks 6 attached by a large base to

columns 2 placed with side edges 7 diagonally of the cells 3 and interconnected by dampers 8. The latter are made of paired elements 9 in the form of a package of steel elastic curvilinear plates 10 of variable length, bolted 11. One container of elements 9 of the damper 8 is rigidly attached anchor bolts 12 to the crossbar m 3, and the other to the smaller base of the disks 6, and between them they are connected by the ends of the plates 10 of greater length with the formation of a cylindrical cavity 13 inside them.

The ends of the plates 10 of greater length can be made with limb 14 (at an angle of 90 °) for fastening them together with bolts 11.

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The foundation 1 is made of a trough-shaped plate 15 and a flat support plate 16 on which the building frame is placed: The flat plate 16 is installed at the bottom of the trough plate 15 through ball-bearings 17 and connected to its sides 18 by dampers 19.

In the gaps between the bolts 11 and the plates 10, elastic gaskets are placed in their oval holes, which eliminates the rigid connection of the plates 10 between the coamp.

A multi-story earthquake-proof building operates as follows.

Under seismic effects, the seismic protection of the foundation is performed by standard use by using ball bearings 17 and dampers 18. Ball bearings 17 reduce the magnitude of the seismic effect, and dampers 18 absorb it. The rest of the seismic forces are perceived by the connections 5, consisting of disks 6 and dampers 8. All elements of the connections 5 can perceive both compressive and stretching forces, moreover, under the action of seismic forces on the building in all directions.

If the seismic load acts on the cell 4 from left to right strictly horizontally, then the left reinforced concrete disk 6 will take the first hit. It will be compressed. The left disk 6 transfers the force to the damper 8, which will work as a beam on two supports with two brackets. These free consoles (edges) of the damper 8 will absorb energy. The bulk of the remaining seismic energy is absorbed by the elements of 9 dampers 8, which are attached to bolts 3 and are powerful energy absorbers. Part of the energy they give to element 9 on the right. Elements 9 of the damper 8 will work on bending, and the right disk 6 will be compressed. In the first moment

the left disk 6 will be compressed and then begin to bend.

The left part of the disks 6 will be stretched at the first instant, and the rights will be compressed. Then the compression and expansion forces will alternate: the dampers 8 will oscillate, i.e. jam seismic vibrations. .

Under the action of seismic force, the vertical operation of communication 5 is similar to that described with the only difference that the disks b will work in bending.

Under the action of the seismic action at an angle, all elements 6, 9 of bond 5 will alternately perceive either compressive or tensile forces. For r and a and goiter n and

Claims (2)

1. Multi-storey seismic-resistant building, including the foundation, columns and girders forming cells, in which communications are placed in the form of reinforced concrete paired disks attached to the columns by one side and the other side interconnected in the central part of the cell by a damper in the form of elastic metal sheet elements. bolted together and attached to bolts, characterized in that, in order to improve seismic resistance, the elastic elements are made in the form of a package of curvilinear plates of variable length, attached by plates smaller lengths to the transom and the discs and interconnected by the ends of the plates of greater length with the formation of a cylindrical cavity, the discs having the shape of a trapezium and placed laterally on the diagonal of the cells. 2. The building according to claim 1, characterized in that the foundation is made of a trough-shaped plate and installed in it through ball bearings and connected to its sides by means of dampers of a flat base plate. 5104 ,, f, f rfi fm 1, uf A i (t, -f  .4 v t P, x V H 9 I.1; //// l /////////// / - (j -and i; /////. mi, w fOTs (MP pin IliMi i And they stump and mim them 2 / ./ 9 /////. // Ft Fig4