SU1162931A1 - Rigidity diaphragm of multistorey earthquake-proof building - Google Patents

Description

The invention relates to the construction and can be used in the construction of earthquake-resistant residential, civil and industrial buildings. five

The purpose of the invention is to improve the seismic resistance of the building.

The drawing shows a diaphragm. The rigidity of a multistory, earthquake-resistant building. ten

The stiffness diaphragm of a multistory seismic resistant building consists of panels 1, filling the installed in the cell frame ‘with gaps 2-4 between columns 5, upper bolts 6 15

and among themselves. The upper and lower end edges of the filling panel 1 are made in the form of protruding tongues 7 with inclined edges 8, and crossbars with corresponding recesses 9, 20

the dimensions of which are larger than the dimensions of the keys 7 by the size of the gaps 10 and 11.

On the lower edge of the filling panel 1, corner cuts 12 are provided in which the outlets 13 and 14 25 are placed.

working reinforcement of the filling panel 1 and bolt 6.

Filling panels 1 are connected

ponitsu, s_rdgeli 6 with keys 7 installed on the solution 15 30 in the recess 9 bolts 6. Issues

13 and 14 of the reinforcement from the panel 1 of the filling and the bolt 6 are welded between "themselves, and the corner cuts 12 of the filling panel 1 are monolithic with concrete 16.

The presence of free gaps 10 and 11 in the keyed connection increases the seismic resistance of the building by detuning the system from resonant oscillations with the base (exclusion of a state other in which the oscillation frequencies of the base and the natural vibrations of the building coincide).

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Under the action of high-frequency vibrations in the building frame, large displacements do not develop, since the natural frequency of the frame oscillations differs significantly from the frequency of impacts, and the presence of gaps 10 and 11 in the connections of crossbars 6 with filling panels 1 does not prevent small displacements of the frame, which is a flexible frame system.

Under the action of low-frequency oscillations that coincide with the frequency characteristics of the frame frame, the latter receives large displacements that are limited by the amount of vertical gaps 11 in the keyed joint of filling panels 1 with crossbar 6. Due to the inclusion of filling panels 1 in work with crossbars 6 (frame) at the level of each floor , the system acquires the properties of the frame-bond frame. And the rigidity of the building increases by 2-3 times. Since the rigidity of the system in the new state increases dramatically, and the effect of the base remains low-frequency, there is a detuning (mismatch) of the frequency characteristics of the system and the impact, with a step change in the hard type occurring during each cycle of oscillations when the frame is shifted to one side or the other.

The connection of the filling panels 1 with only the crossbars of the frame 6 prevents the brittle destruction of columns 5 and increases the reliability of operation by increasing the dissipation of the oscillation energy in the keyed connection and reducing the efforts in the connection elements when the diaphragm is located in each floor of the building.

Claims (1)

DIAPHRAGM OF HARDNESS OF MULTILEVAL SEISM-RESISTANT BUILDING, including filling panels installed between bolts and columns with a gap relative to the latter and upper bolts and rigidly connected to the lower bolts ^ characterized in that, in order to improve the seismic resistance of the building, each filling panel is connected to the bolts with keys with inclined edges, moreover a gap is formed between the filling panel and the lower bolt, filled with mortar, and their rigid connection is made by welding the reinforcement outlets of the lower bolt and the filling panel placed in the corner cut-outs Last and monolithic concrete. 1 1162931