SU1608310A1 - Multihollow ferroconcrete plate of roof - Google Patents

Abstract

The invention relates to the construction and can be used in the construction of floors of industrial, civil and residential buildings. The aim of the invention is to increase the bearing capacity and strength of the slab due to the redistribution of concrete across the cross section. A hollow-ceiling slab includes a lower shelf 2 reinforced with working reinforcement 12, an upper shelf 1 with mounting reinforcement 13, longitudinal ribs 3 with frameworks 14. Tear-shaped cavities 4 are made along the working span in the slab along the width of the slab with alternate orientation of the same base in opposite directions and offset from each other in height. The tops of the cavities are located at the upper and lower shelves and lie on parallel zigzag curves with periodically repeating steps. 2 Il.

Description

The invention relates to the construction and can be used in the device floors of industrial, civil and residential buildings.

The aim of the invention is to increase the bearing capacity and strength of the slab due to the redistribution of concrete over the cross section.

In FIG. 1 shows the proposed slab, axonometry; in FIG. 2 is a section AA in FIG. 1.

The slab contains the upper 1 and lower 2 shelves, longitudinal ribs 3 and voids 4, which are teardrop-shaped, and their vertices are made in the form of radial rounding of large 5 and small 6 arcs and are connected tangentially by inclined straight lines 7. Teardrop-shaped voids are uniformly located along the transverse the cross section of the plate, and along its length have the same profile. Adjacent voids are oriented by the same bases in opposite directions and are shifted one relative to the other in height so that their vertices located at the lower and upper shelves lie on parallel zigzag curves 8 with a periodically repeating step 9. The smallest distance from the outer edge of the shelf to the top of the void due to the minimum allowable concrete layer, ensuring the strength of the arch. With this arrangement of cavities along the cross section of the plate, its axis of symmetry 10 passing through all the cavities coincides with the center of gravity 11 of the cross section. The plate on the lower shelf is reinforced with working reinforcement 12, on the upper shelf - structural reinforcement 13, in the longitudinal ribs - frames 14. The optimal angle between the inclined straight and vertical axis of the channel is 10-15 °.

The plate is made as follows.

The support (tensioned or non-tensioned) reinforcement of the frame is laid in the form, punches are introduced, the non-working reinforcement (rods or nets) is laid. Then concrete is poured into the mold, the punches are vibrated and removed. After that, the panel moves to the steaming chamber.

Claims (1)

Claim Multi-hollow reinforced concrete slab 20 with teardrop-shaped cavities along the working span, characterized in that, in order to increase the bearing capacity and strength by redistributing concrete along the cross-section, the teardrop-shaped cavities are located along the width of the slab with alternate orientations of the same names in opposite directions and are shifted one relative to another in height with the placement of the vertices of the cavities facing the corresponding surfaces of the plate, on parallel zigzags braznyh curves.