RU2045633C1 - Sectional reinforced-concrete ceiling - Google Patents

Abstract

FIELD: civil engineering. SUBSTANCE: sectional reinforced-concrete ceiling comprises ribbed slabs installed at two short opposite sides on cross beams secured on cantilever arms, and grouting concrete. Besides, the ceiling has longitudinal beams installed on additional cantilever arms of columns, and reinforcing rod members with clamp-shaped tensioning devices. The longer sides of the end slabs are supported by longitudinal beams while the reinforcing rod members are arranged across the ribbed slabs under each rib and fastened rigidly to embedded parts. The latter are installed on the upper sides of longitudinal beams at a pitch equal to that of slab transverse ribs. The flanges of each rib slab have holes at the transverse ribs. The clamps of the tensioning devices envelop the reinforcing elements of the rod members, pass through holes and are secured on the slab flange with nuts. EFFECT: improved design. 4 dwg

Description

 The invention relates to the construction and can be used in the construction of multi-storey buildings, for example, frame-panel.

 The closest technical solution is a reinforced concrete floor, including ribbed slabs installed on two opposite short sides on the crossbars, laid on the console of the columns.

 The disadvantages of the known solutions are low bearing capacity, due to the inability to work floor slabs in two directions, increased consumption of materials and the limited amount of overlapping spans.

 The proposed precast concrete floor, including ribbed slabs installed on two short opposite sides on transverse beams mounted on consoles, and monolithic concrete, is equipped with longitudinal beams mounted on additional column consoles and reinforcing bar elements with tensioning devices in the form of clamps with thread on ends and nuts, and the extreme plates with long sides supported by longitudinal beams, and reinforcing rod elements placed across the ribbed plates under each with their edges and rigidly attached to embedded parts installed on the upper faces of the longitudinal beams with a step equal to the pitch of the transverse ribs of the plates, while holes in the shelves of each ribbed plate at the transverse ribs are made, and the clamps of the tensioning devices are installed with the coverage of the reinforcing core elements, are missing into the holes and fixed on the shelf of the plate with nuts, and each clamp is located from the outer edge of the longitudinal rib at a distance equal to 0.2-0.25 width of the plate.

 The aim of the invention is to increase the bearing capacity of the floor, reducing its deformability and reducing the complexity of installation with an increase in the size of the grid columns.

 In FIG. 1 shows a prefabricated reinforced concrete floor plan (clamps throughout the floor are not conventionally shown); figure 2 section aa in figure 1; figure 3 section BB in figure 1; in Fig.4 node I in Fig.2.

 Precast concrete slabs include ribbed slabs 1, contour transverse 2 and longitudinal 3 beams, supported on cantilever 4 (metal or reinforced concrete) columns 5, transverse reinforcing rod elements or cables 6, welded to embedded parts 7 mounted on contour longitudinal beams with a step, equal to the pitch of the transverse ribs 8 of the plates, tensioning devices, consisting of clamps 9 with threads at the ends and nuts 10.

 Transverse reinforcing elements are placed across ribbed plates under each rib. Each clamp is separated from the outer edge of the longitudinal rib at a distance equal to 0.2-0.25 width of the plate. With a decrease in this distance, the angle of fracture of the reinforcing rods increases, which leads to an additional loss of prestress in these rods and an increase in the compression of longitudinal ribs, which can lead to crushing of concrete.

 With increasing this distance, the risk of destruction of the shelf of the plate from the moment in the middle of the shelf increases.

 The joints between the slabs are monolithic with brand concrete no lower than the brand of slab concrete (200-300) with the formation of dowels in the longitudinal edges of the slabs.

 The overlap works as follows.

 The joint work of the plates in the transverse direction is provided by reinforcing elements 6, which are external reinforcement of the ceiling. The inclusion of external reinforcement in the work is carried out using tensioning devices covering the reinforcing elements and pulling them to the plates.

 Installation of the floor is as follows.

 On the console 4 columns 5 lay transverse 2 and longitudinal 3 beams. Then, reinforcing rod elements 6 are welded to the embedded parts 7 mounted on the upper faces of the longitudinal beams with a step equal to the step of the transverse ribs 8 of the ribbed plates 1. After that, the floor plates are mounted. Next, in the holes 11, made in the shelves of the plates at the transverse ribs, insert the clamps 9 of the tensioning devices, capturing the reinforcing elements with them, and using the nuts 10, the reinforcing rod elements are tensioned. The nuts must be tightened using torque wrenches in terms of the breaking strength of the shelf. The distance "C" from the edge of the transverse rib to the axis of the hole is selected by calculation. The tension force is also selected by calculation. In the longitudinal ribs of the floor slabs, metal embedded parts 12 made of corners anchored in the rib are provided to prevent local concrete hugging.

 Thanks to the inclusion of precast ribbed floor slabs in joint work in the transverse direction, the bearing capacity of the floor increases, its deformability decreases, and it becomes possible to increase spans when using precast reinforced concrete slabs designed to work in one direction.

 The overlap works most effectively when the cell dimensions (grid of columns) are the same in two directions.

Claims (1)

 REINFORCED REINFORCED CONCRETE COVERING, including ribbed slabs installed on two short opposite sides on transverse beams fixed on consoles, and monolithic concrete, characterized in that the overlap is provided with longitudinal beams installed on additional consoles of columns and reinforcing core elements with tensioning devices in the form clamps with threads at the ends and nuts, and the extreme plates with long sides supported on longitudinal beams, and reinforcing rod elements placed across the ribs true plates under each rib and are rigidly attached to embedded parts mounted on the upper faces of the longitudinal beams with a step equal to the pitch of the transverse ribs of the plates, while holes in the shelves of each ribbed plate are made at the transverse ribs, and the clamps of the tensioning devices are installed with a reinforcing rod elements passed into the holes and fixed on the shelf of the plate with nuts, and each clamp is located from the outer edge of the longitudinal rib at a distance equal to 0.2 0.25 of the width of the plate.