RU1768737C - Multistory earthquake-proof building - Google Patents

Abstract

use: the construction of multi-storey earthquake-resistant buildings, providing increased earthquake resistance. SUMMARY OF THE INVENTION: The stiffness diaphragms of a building are made of prefabricated floor panels. Each prefabricated panel is formed of two vertical and longitudinal parts along its width. Each component part of the panel has cutouts on the side faces located alternately with embedded parts and axisymmetrically relative to its vertical transverse axis. On the upper and lower faces of the component parts of the panel, projections and grooves are made. One component of each panel is mounted rotated 180 °. relative to the axis of the panel and attached by a side face to the column with rigid or elastic ties. Adjacent side faces of adjacent components and another, the side face of this panel and adjacent side faces of the components are attached to the columns by flexible or rigid connections, respectively. Components can be connected to each other and to floor slabs with rods that are missing in their holes and fixed to floor slabs. 1 s.p. f-ly, 5 ill.

Description

The invention relates to the field of construction and can be used in the construction of frame-panel buildings in seismic areas.

A known construction of a multi-storey earthquake-resistant building comprising filling panels mounted between beams and columns with a gap relative to the last and upper beams and rigidly connected to the lower beams, each filling panel being connected to the beams using dowels with angled edges, between the filling panel a gap filled with mortar is formed and the lower crossbar, and their rigid connection is made by welding the reinforcing outlets of the lower crossbar and the filling panel placed in the corner cutouts x last and concrete concrete.

Such a building structure with fill panels mounted to form vertical joints increases the flexibility of the building's diaphragm. thereby lowering the bearing capacity of the building.

In addition, when performing the mononization of the connection of the filling panels with the crossbars, it is difficult to carry out work, and the installation time is increased. especially in the winter season.

The closest to the invention is an earthquake-resistant multi-storey building, including a frame of

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columns and girders and vertical stiffness diaphragms from prefabricated floor-high panels connected to each other and to columns in the fastener assemblies by rigid ties.

The known construction allows the installation of vertical diaphragms to be accelerated and material consumption to be reduced.

The disadvantages of the known construction include the presence of a rigid connection of the panels to each other and to the columns, which determines the concentration of shear forces when exposed to seismic loads and thereby reduces the seismic resistance of the building.

The aim of the invention is to increase the seismic resistance of a multi-story building.

This goal is achieved in that in a multi-storey earthquake-resistant building, including a frame of columns and crossbars, stiffness diaphragms made of prefabricated floor panels connected by side faces to columns and having consoles for supporting floor slabs and embedded parts on side faces, and rigid connection, each panel is formed of two vertical and longitudinal parts along its width, each of which is made on the side faces with cutouts located alternately with embedded parts and obliquely with respect to its vertices the transverse axis, and on the upper and lower faces x, with protrusions and grooves, the shape of which corresponds to the shape of the hollows, and the length exceeds the length of the protrusions, the components of each panel being mounted rotated 180 ° relative to each other around the vertical axis and obliquely symmetrical - by placing protrusions and grooves and cutouts and embedded parts relative to the longitudinal axis of the panel, and the side face of one component of each panel is attached to the columns by rigid ties or by means of elastic ties, and adjacent side edges adjacent components and another, the side face of this panel and adjacent side faces of the components are respectively flexible or rigid.

This goal is also achieved by the fact that in the proposed multi-story building, the constituent parts of the panels are made with through holes in the central part of the protrusions and are interconnected and with floor slabs by means of rods passed with a gap relative to their walls through the through holes of the adjacent protrusions of the diaphragms adjacent in height parts with their fixation and rigid fastening to floor slabs.

Fig. 1 shows a fragment of the frame of a multi-story earthquake-resistant building; on the

figure 2 is the same, axonometric; in Fig.Z - panel diaphragm stiffness assembly; in Fig.5.5 - the connection node of the panels of the diaphragm stiffness with floor slabs, respectively, vertical and horizontal

section.

A multi-storey earthquake-resistant building includes a frame consisting of columns 1, crossbars 2 and stiffness diaphragm panels made of the same plates 3 and 4. On

The upper and lower faces of the plates 3.4 are made of protrusions 5 and depressions 6, repeating the shape of the protrusions. On the side faces of slabs Z, 4, slots 7 are made and alternating embedded parts 8 are placed, which

connected to the columns 1. by means of rigid connections 9 or flexible connections 10. The slab 11 is connected to the plates 3.4 of the stiffness diaphragm panel by means of connections 12 located in the openings 13.

The installation of the building is as follows.

The diaphragm columns 1 are installed and 3.4 panels of the first floor are mounted between them, after which the embedded parts 8 of the plate 3 are welded on one side by means of rigid connections 9 and on the other side face by means of flexible connections 10. Plate 4 is connected with column 1 so that flexible

the ties 10 of the plate 3 were opposite the rigid connections of the plate 4 and vice versa. When mounting the next floor, the protrusions 5 and the depressions 6 of the overlying panel are aligned, respectively, with the depressions 6 and the protrusions 5

the underlying panel, and the embedded parts 8 are connected to the bonds 9 and 10 of the columns 1.

When exposed to alternating seismic loads in the nodes of the connection of columns with panels and panels with each other

shear forces occur in horizontal and vertical joints. The presence of gaps between the protrusions and depressions of the diaphragm panels adjacent in height, as well as the presence of flexible connections between the panels and columns, allow the panels to move in horizontal and vertical directions relative to each other, i.e. provides the possibility of quenching these efforts and reduces the level of seismic effects on the building, thereby increasing the ego seismic resistance.

Claims (1)

SUMMARY OF THE INVENTION 1. A multi-storey earthquake-resistant building, comprising a frame of columns and beams, stiffness diaphragms of prefabricated floor panels connected by side faces to columns and having consoles for supporting floor slabs and embedded parts on side faces, and rigid Closure, characterized in that, in order to increase seismic resistance, each panel is formed of two vertical and longitudinal along its width parts, each of which is made with cutouts on the side faces located alternately with embedded parts and obliquely with respect to its vertical transverse axis, and on the upper and lower faces x with protrusions and grooves, the shape of which corresponds to the shape of the protrusions, the components of each panel being mounted rotated 180 ° relative to the longitudinal axis of the panel, and the side face is one composite parts of each panel are attached to columns with rigid ties or elastic ties, and adjacent side faces adjacent components and another, the side face of this panel and adjacent side faces of the components, respectively, by flexible or rigid connections; 2, The building according to claim 1, characterized 0 in that the component parts of the panels are made with through holes in the central part of the protrusions and are connected to each other and to the floor slabs by means of rods passed with a gap relative to their walls through the through holes of adjacent protrusions of the diaphragm adjacent in height of the diaphragm with their fixation and rigid fastening to floor slabs. 563 G I-G i ± tabr OF fvr. 1 TG Z4u ltk 5 1 USA "J Cvl x eli. Fmg. 5