SU1670069A1 - Antiseismic building - Google Patents

Abstract

The invention relates to the construction of seismic resistant buildings. The purpose of the invention is to increase the efficiency of damping vibrations. In the lower floor between horizontally flexible legs, friction damping elements made of horizontal bars are placed with a gap relative to them. The latter are interconnected by threads missed in their vertical channels. T end with one end fortified through elastic pads alternately in the upper and lower bars, and the other end zankerkeny in the slab and base plate, which have stops located in the gaps at the ends of the upper and lower bars of friction damping devices. 2 Il.

Description

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

The purpose of the invention is to increase the efficiency of damping vibrations.

Fig. 1 shows a fragment of a seismic resistant building; 2 is the same at the moment of seismic impact.

The seismic resistant building includes spatially rigid upper floors 1, lower floor 2 with a slab 3 overlapping, horizontally flexible supports 4 mounted on the base plate 5, and friction damping devices 6 from prefabricated elements 7. Prefabricated elements 7 friction damping devices 6 are placed horizontally alone over the other and with gaps 8 relative to the supports 4 and made in the form of bars, for example reinforced concrete, with vertical channels 9 and interconnected by strands 10 missed in channels 9. T ji 10 alone end fastened alternately to the upper 11 and lower 12 bars,

and with the other end of the anchor, respectively, in the base plate 5 and the plate 3 overlap. The upper 11 and lower 12 bars are provided with elastic spacers 13. placed at the attachment points of the brace 10.

The slab 3 and the base slab 5 have stops 14. installed in the gaps 8 at the ends of the upper 11 and lower 12 bars of the friction damping device 6.

The specified location of reinforced concrete bars and their mounting in a seismic shield system on kinematic supports, on the one hand, reduces the vertical seismic effects on the building (tossing), and on the other hand, when the system moves horizontally, the building during earthquake ensures smooth damper switching from one states to another, eliminating the main drawback of the known dry friction dampers - instantaneous switching of states, the consequence of which is the occurrence of parasitic oscillations of seismic Zoliro

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bath facility. Thus, the friction threshold force in the initial period of oscillations does not exceed 0.02 building weight, and the maximum frictional resistance is 0.15-0.2 building weight, which corresponds to optimal seismic protection conditions. The damping device 6 permits the erection of buildings in areas where large displacements are possible (on the order of ± 20 cm). The gaps 8 between the assembled elements 7 and the kinematic supports 4 exclude horizontal impacts on the latter. Since when moving the building, the vertical length of the shears 10 (due to rotation) decreases by D I l (1-cos "), the elastic pads 13 not only eliminate the rupture of the weights 10, but, being a calculation element, provide the necessary power ratio friction and weight of the building. One end of the string 10 has a rigid attachment (possibly a hinge), the other - only a hinge (in the upper 11 and lower 12 bars

In the initial period of the earthquake, the resistance of the dry friction damping device is 0.02 of the building weight and allows the kinematic supports 4 to perform gravitational seismic protection due to the rise of the building, ensuring a smooth damping of the oscillations. In the case of resonant effects at the frequency of the flexible building, the displacement increases dramatically. The protective forces of the damping devices also increase proportionally.

Claims (1)

Invention Formula Earthquake-resistant building, including spatially rigid upper floors, lower floor with a slab, horizontally flexible supports mounted on a base plate, and friction damping devices of prefabricated elements interconnected with the floor slab and the base plate and placed with gaps relative to the supports, characterized by By the fact that, in order to increase the efficiency of damping, the modular elements of the friction damping devices are arranged horizontally with one SuperViM, are made with vertical channels and are interconnected by means of weights that are passed through the channels and fixed alternately with one end in and the others are locked in, respectively, in the base plate and the floor slab, with the latter and the base plate provided with stops installed in the gaps at the ends of the upper and lower precast element which have gaskets made of upooparticle material at the points of attachment 6, ff 13 figure 1 Ush $ shshsh ten/ FIG 2 12 14