SU1390333A1 - Skeleton of multistorey earthquake-proof building - Google Patents

Abstract

The invention relates to frames of multistory seismic resistant buildings. The purpose of the invention is to increase the seismic resistance due to the unloading effect of the eccentric-applied vertical load on the columns when the horizontal forces are applied to the building and the material consumption is reduced. Monolithic reinforced concrete prit sized floor freely supported on the console columns through the anti-adhesive pads. 2 Il.

Description

The invention relates to the construction of | tvu, in particular to the frameworks of multi-storied earthquake-resistant buildings, supported by horizontal (seismic, wind, etc.).

The purpose of the invention is to increase (seismic resistance due to the unloading effect of the eccentrically applied vertical load on the columns when the building is subjected to horizontal forces and a reduction in material intensity.

Fig. 61 shows the frame of a multistory seismic resistant building; na) ig.2 - the same, when acting on the frame of horizontal forces.

The skeleton of a multistory seismic resistant building contains prefabricated columns .1 with rigidly connected, with capitals 2, and reinforced concrete slabs of 3 floors supported on the capitals of 2 columns 1.

The 3 floor slabs are made of monolithic size on the floor and 2 columns 1 supported freely on capitals through antiadhesion strips 4, In the absence of horizontal lines, the vertical load P from the floor plates 3 coincides with the longitudinal axis of the columns 1. Under the action of horizontal (seismic, wind) ) The S forces of the column are deformed, trying to turn the capitals 2 relative to the 3 floor slabs. In this case, the resultant vertical load P acts on the column 1 with eccentricity about and, with its bending force, prevents rotation of the capitals 2 relative to the ceiling plate 3. If the bending forces acting in the assembly are equal from the forces P and S, the design scheme of column 1 within the floor can be taken in the form of a rack with pinched mutually shifted supporting ends. For such a scheme, for example, when supporting the overlap on a round in the section of the capital 2 with a diameter of C 0.31, the length of the column is 1 h 0.51, it turns out that with the values of force S not exceeding 15% of the value of P, the separation of the plate 3 overlap from capitals 2 will not happen.

At the same time, the additional bending moment from the action of the vertical load of the overlying floors with an eccentricity equal to the shear deformations of the columns 1 is negligible.

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The seismic resistance of the building framework increases as seismic protection is created because an increase in the horizontal dynamic forces leads respectively to a greater resistance of the frame to deformation, whereas in known designs the resistance of the frame to deformation decreases with increasing horizontal forces due to cracking in the nodes of the floor patern with capitals.

The reduction of material consumption in the frame of a multistory seismic resistant building is achieved by the fact that the bending deformations of the columns on the action of horizontal forces are compensated for by the unloading effect of the vertical load, whereas in the usual frame frames the bending deformations of the columns are perceived as overlaps, causing additional forces and corresponding costs. The unloading effect of extracentric compression occurs as a result of a change in the stress pattern on the contact pad of the capitals 2 and the slab 3.

Installation of the building can be made as follows.

After the installation of prefabricated columns 1, equipped with capitals 2, install inventory formwork for the manufacture of a monolithic slab 3 overlap and isolate the horizontal surfaces of capitals 2. Then reinforce the slab. 3 overlaps followed by concreting and disperse Q splint of the slab 3 overlap.

Claims (1)

Invention Formula The skeleton of a multistoried seismic resistant building, including prefabricated columns with capitals rigidly connected to them and reinforced concrete floor slabs supported on the console of the columns, is about T: l And due to the fact that in order to increase the seismic resistance of the building by unloading  the effect of eccentrically applied vertical load on the columns when the horizontal forces are applied to the building and the material consumption is reduced; the floor slabs are made  monolithic size on the floor and freely supported on the console columns through the anti-adhesive gaskets. 0 five five /////////////////////////////////////////// Ф14е.1 /one