RU2008110861A - REINFORCED CONCRETE CONNECTION KNOT KUCHIKHIN-2 - Google Patents

Abstract

A unit for interfacing reinforced concrete multi-hollow slabs in prefabricated monolithic floors with bearing reinforced concrete crossbars intended for use in the construction of buildings in earthquake-prone areas, in which multi-hollow reinforced concrete slabs conjugated with a bearing reinforced concrete crossbar are made with two grooves facing each other in the area between and formed at the place of voids to their bottom, reinforced concrete multi-hollow slabs have reinforcement outlets also facing the interplate area, steam Allelic to the end surface, in each plate, metal rods are placed, connected with each other by strands with hooks at the ends hooked onto the rods, while the strands are made integral and mated to each other in the area of the interplate, two pairs of parallel longitudinal reinforcing rods are placed at the edges of the plates, moreover one of the longitudinal reinforcing bars of each pair is located in the upper part of the jumper of the hollow core, and the other underneath in the lower part of the same jumper, each pair of bars is formed by a single rod, skipped by Through the jumper and forming a stitch on the surface of the jumper along its height, a zigzag wire is placed between the upper and lower rods of each pair, in some places fastened to those longitudinal reinforcing rods with which it is in contact, characterized in that the reinforced concrete crossbar with which the above multi-hollow concrete slabs, also has reinforcing outlets of longitudinal reinforcement and transverse reinforcing bars, which are placed above the longitudinal ones and with which are additionally connected

Claims (1)

A unit for interfacing reinforced concrete multi-hollow slabs in prefabricated monolithic floors with bearing reinforced concrete crossbars intended for use in the construction of buildings in earthquake-prone areas, in which multi-hollow reinforced concrete slabs conjugated with a bearing reinforced concrete crossbar are made with two grooves facing each other in the area between and formed at the place of voids to their bottom, reinforced concrete multi-hollow slabs have reinforcement outlets also facing the interplate area, steam Allelic to the end surface, in each plate, metal rods are placed, connected with each other by strands with hooks at the ends hooked onto the rods, while the strands are made integral and mated to each other in the area of the interplate, two pairs of parallel longitudinal reinforcing rods are placed at the edges of the plates, moreover one of the longitudinal reinforcing bars of each pair is located in the upper part of the jumper of the hollow core, and the other underneath in the lower part of the same jumper, each pair of bars is formed by a single rod, skipped by Through the jumper and forming a stitch on the surface of the jumper along its height, a zigzag wire is placed between the upper and lower rods of each pair, in some places fastened to those longitudinal reinforcing rods with which it is in contact, characterized in that the reinforced concrete crossbar with which the above multi-hollow concrete slabs, also has reinforcing outlets of longitudinal reinforcement and transverse reinforcing bars, which are placed above the longitudinal ones and with which are additionally connected introduced loop-shaped reinforcing elements, a reinforcing cage is placed along the entire length of the seam in the plate between the reinforced concrete beams, the height of the loop-like reinforcing elements does not exceed the height of the reinforcing cage, and its width does not exceed the width of the above reinforcing cage.