SU1682505A1 - Multi-storey seismically resistant building - Google Patents

Description

The shearing forces and the perception of shear in vertical joints are provided with floor slabs 3, increases the seismic resistance of the building and makes it unnecessary to use transverse reinforcement outlets from wall panels 7 and rigidity diaphragms 8 and their welding. The bearing capacity of the floor slabs 3 supported on the wall panels 7 and the diaphragm 8 stiffness, determined by the method of maximum equilibrium, is equivalent to the bearing capacity of floor slabs 3 clamped along the contour in the center of the building.

By tensioning the reinforcement 5 under construction conditions, the overlapping of the overlaps 3 into rigid horizontal discs is achieved and the possibility of mutual displacement of the floor plates 3 in places of stresses and in the vertical plane is excluded.

In this case, high-strength reinforcement 5 is included in the calculation of floors 3 for vertical loads, increasing the bearing capacity of the latter to the design value. Thus, high-strength reinforcement 5 is used not only to combine the elements of prefabricated structures, but also for its intended purpose - to perceive tensile stresses in the floors 3.

To reduce the controlled tension forces of the reinforcement 5, some of which are used to overcome the friction forces between the slabs and wall panels 7, s also between the slabs and diaphragms 8 of the same strength, gaskets with elastic shear properties are installed in the joints between the latter.

The connection of wall panels 7 and diaphragms 8 of rigidity in the vertical direction is carried out with the help of so-called plug joints, made by launching the outlets of vertical reinforcement of the underlying panels into circular channels of the overlying wall panels 7 and rigidity diaphragms 8 of rigidity (not shown). After introducing outlets, cement mortar is injected into the channels (or polymer-mortar if the calculated tensile stresses are present in the joint) To skip the vertical outlets of the reinforcement and simultaneously form keyed joints between the wall panels 7, the diaphragms 8 of the rigidity and the floor slabs 3 Molecular holes located at the axis of the middle part of the planning cell.

Installation of a typical floor of the proposed prefab building is carried out in the following sequence. Columns 1 are installed in the design position;

wall panels 7 and diaphragm 8 rigidity. Their mounting during installation is carried out with the help of wedges pinching the panels in the slots of the floors 3.

After that, the slabs 3 are installed, mounted on gaskets made of antifriction material and pre-laid on the panel of walls 7 and diaphragm 8 of rigidity. The seams between the floor slabs 3 compacted with fine-grained concrete 6 or cement-based mortar. Next, in the trunk of the columns 1 and between the floor slabs 3, high-strength reinforcement 5 is installed, which is pulled over the entire length and width of the building with subsequent fastening.

After tensioning the reinforcement 5, the monolithing of the upper portions of the joints between the floors 3 fine grain concrete 6 is made.

Wall panels 7 and stiffening diaphragms 8 are combined between with (5th and with floor slabs 3) using reinforcement releases of wall panels 7 and diaphragms 8 with hardness of the lower and upper floors in the slots of the overlapping panels 3, followed by cementing the sockets.

The constructive building system allows to increase its seismic resistance, reduce material consumption and expand the possibilities of architectural-plating solutions.

Claims (1)

Invention Formula 0 Multi-storey seismic-resistant building, including multi-storey columns with openings in mutually perpendicular directions at the level of floors, floor plates installed with gaps 5 between each other, in which prestressed reinforcement is placed, passed through the apertures of the columns, anchored around the perimeter of the building, and submerged with concrete, wall panels and 0 vertical stiffening diaphragms from panels installed in mutually perpendicular napr / e and x, differing from the fact that, with an increase in seismic resistance and a decrease in material consumption, wall panels and reinforcement diaphragms are located along the building perimeter with an offset from columns n; e polosiny step of the latter and installed with gaps between themselves, which are filled with concrete, while part of the flector pergiy supported on