SU1127960A1 - Reinforced concrete beam - Google Patents

Abstract

REINFORCED CONCRETE BEAM, containing a concrete body and reinforcement frame made of longitudinal and transverse rods, prestressed lower straight line and upper reinforcement and lower reinforcement with bends at the ends, characterized in that. In order to increase the bearing capacity and crack resistance of the beam, it is equipped placed at its ends by an inclined element, s, installed with the support in places of bends lower. fittings and trajectory-oriented main tensile stresses, with the ends of the upper reinforcement bent around the ends of the inclined elements and intersecting the bent ends of the lower reinforcement in the supra-S zones of the beam. (L

Description

The invention relates to reinforced concrete beams of building structures.

A reinforced concrete beam is known that contains longitudinal and transverse reinforcement, metal plates with _ς segments of rods attached to them and tapered rods connected to the plates and longitudinal reinforcement, while it is equipped with additional plates installed in the compressed zone of the supporting sections of the beam, and end embedded parts connected to additional plates £ l].

Also known is a reinforced concrete beam of ₁₅ ka containing longitudinal working and mounting rods, transverse reinforcement, flat metal plates and a gutter-like curved plate installed in the middle part _{20 of the} frame, to which the ends of the inclined rods are attached [2 j.

The disadvantage of these reinforced concrete beams is their high metal consumption due to the use of 25 reinforcing distortions of plate elements in the design.

“The closest to the invention is a reinforced concrete beam containing a concrete body and reinforcing cage, of longitudinal and transverse rods, prestressed lower straight and upper reinforcement and lower reinforcement with kinks at the ends of £ 31.

The disadvantages of the known reinforcing frame 35 are low bearing capacity and crack resistance of the beam in the support part.

The purpose of the invention is to increase the bearing capacity and crack resistance of ⁴⁰ beams.

The goal is achieved by; that a reinforced concrete beam containing a concrete body and a reinforcing cage of longitudinal and transverse rods, ⁴⁵ a prestressed lower straight and upper reinforcement and lower reinforcement with kinks at the ends, is equipped with inclined elements placed at its ends, installed ⁵⁰ with bearing in the places of kinks of the lower reinforcement and oriented along the trajectories of the main tensile stresses, while the ends of the upper reinforcement are bent with the envelope of the ends of the inclined elements 55 and the intersection with the bent ends of the lower arm atures' in the support zones of the beam.

The drawing shows the proposed reinforced concrete beam, General view.

Reinforced concrete beam contains a reinforcing frame of longitudinal 1 and transverse 2 rods, as well as prestressed reinforcement 3-5. Reinforcement 3 is located at the top, and reinforcement .4 and 5 are located at the bottom of the beam. At the ends of the beam there are inclined elements 6 oriented along the trajectories of the main tensile stresses acting in the supporting sections of the beam. The upper and lower ’ends of the inclined elements 6 are bent around the reinforcement 3 and 4, respectively, forming bends at the ends with the mutual intersection of the ends in the support zones of the beam.

During operation of a reinforced concrete beam, the lower tensile reinforcement of the 4th span of the beam works to bend together with the reinforcement 5. In the supporting sections of the beam, the curved parts of the reinforcement 4 provide strength and crack resistance of the lower part of the inclined sections. The upper tensile reinforcement 3 provides crack resistance of the upper zone of the beam at the stage of its manufacture, during operation, the prestress on the part of its length located in the compressed zone of concrete is reduced. In the supporting sections of the beam, the prestressing forces of the upper 3 and lower 4 reinforcement prevent the formation of horizontal cracks at the level of the lower boundary of the compressed zone in adjacent span sections of the beam. The intersection in the support zones of reinforcement 3 and 4 improves the adhesion of this reinforcement to concrete. The inclined elements 6 act as an inclined reinforcement, restraining the formation of horizontal cracks under the influence of the main tensile stresses in the support parts of the beam. In the manufacturing stage of the beam, the inclined elements 6 fix the spacing of the curved ends of the reinforcement 3 and 4 and provide tension to one and the other reinforcement when only one reinforcement 3 or 4 is tensioned.

The use of the invention allows to increase the bearing capacity and crack resistance of a reinforced concrete beam due to a more optimal location and orientation of reinforcing elements, taking into account the stresses acting in the supporting sections of the beam.

Claims (1)

REINFORCED CONCRETE BEAM, containing a concrete body and reinforcing frame made of longitudinal and transverse stitches · prestressed lower straight and upper reinforcement and lower reinforcement with kinks at the ends, characterized in that., In order to increase the bearing capacity and crack resistance of the bulkhead • it is equipped placed at its ends with inclined elements installed with support in the places of inflection of the lower reinforcement and oriented along the trajectories of the main tensile stresses, while the ends of the upper reinforcement are bent with rounding the ends of the cops and the intersection with the lower ends of the reinforcement beam zones. inclined eletric bent in abutment a 1 1127960