SU654783A1 - Staircase of multistorey industrial building - Google Patents

Description

at one end they are connected with the posts to be rotated in the horizontal plane, and at the other end they are mounted on the column console with the possibility of moving horizontally and vertically.

FIG. 1 shows a staircase in plan; in fig. 2 shows section A-A in FIG. one; in fig. 3 shows a section BB in FIG. one; in fig. 4-node G in FIG. 2; in fig. 5-section BB in FIG. four; in fig. 6 — node II in FIG. 2; in fig. 7 - section G-Y in FIG. 6; in fig. 8 shows the node III in FIG. 2; in fig. 9 is a section d-d in fig. eight; in fig. 10-12 are embodiments of the interface assembly of the staircase with the frame of the staircase.

The structural elements of the staircase are prefabricated reinforced concrete Z-shaped marches 1, combined, semi-flat, adiki, with uprights 2 and horizontal elements 3 of the frame. The flight of stairs with the frame elements is hinged with the possibility of movement, and the connection between the uprights and the horizontal elements of the frame is sharpened and fixed.

It does not impose additional stiffness on the frame, while ensuring that the staircase will work together with the frame of the staircase.

Only additional vertical and, at the time of a seismic shock, horizontal forces are transmitted to the building frame, which are distributed by the hard disks of the floors and coatings on all the rigid structures of the frames. Depending on the overall layout of the building (grid of columns and height of floors), as well as the direction of the staircase in the building plan, additional loads from staircases may in some cases lead to the need to increase the carrying capacity of the frame elements.

Under the seismic effect in the first embodiment, the hinged conjugation of the stairway with the bearing elements of the staircase is performed as follows. On the supporting surfaces of the marches and racks are glued, for example, with epoxy glue sheets 4 of galvanized steel roofing, between which a lubricant 5, for example graphite, is placed to reduce the forces of sliding friction (see Fig. 6).

In the second embodiment, the hinge interface is achieved by using a gasket 6 of elastic material, such as technical rubber, and monolithing the junction points with gaskets 7, for example, poroisol, with plaster on top, allowing free movement of the building frame due to the deformation of the gaskets as in transverse, and with a longitudinal seismic shock.

The dimensions of the gasket from an elastic material (support area and thickness) are selected taking into account its physicomechanical properties from the calculation of ensuring the required horizontal deformation with slight forces preventing slippage and permissible vertical deformation from actual vertical loads.

The hinged and fixed supports of the marches, which are immobile with a longitudinal seismic impulse, provide the possibility of the required rotation of the march with a transverse impulse. In this case, the turn of the march takes place on the consoles due to their torsion and on horizontal elements, where only fixed supports are provided, due to the slide of the supports of the march.

The hinged-fixed connection is made with the help of L-shaped steel sheets 8, the shelves and walls of which are welded respectively to the embedded parts of the uprights and horizontal elements of the frame and the flight of stairs.

The provision of the required compliance of the hinge joints, moreover, is achieved through the use (with the monolithing of the indicated matings)

elastic strip 7 (for example, poroizol) with plaster on top.

Under the seismic effect, the hinge coupling of the uprights and the horizontal frame elements is carried out as follows. The corners 9 are welded to the posts at the corners, between which a horizontal element is inserted. The ends of the corners are welded to the embedded parts of the horizontal elements, while a gasket 6 of elastic material is placed on the support, placed between the supporting surfaces of the horizontal elements and racks.

Claims (1)

Invention Formula The staircase cell of a multi-storey industrial building for seismic areas, including a frame of racks with consoles and horizontal elements, and staircases, characterized in that, in order to ensure the joint operation of the staircase with the frame and ensure compliance with seismic effects, the horizontal elements are connected with the posts articulated, with the possibility of rotation of the latter, with the flight of stairs at one end connected to the posts with the possibility of rotation in the horizontal plane, and the other end at mounted on the column console with the ability to move horizontally and vertically. g H rn r J and I. gtg: Fi-j