RU154742U1 - REINFORCED CONCRETE ELEMENT WITH INCREASED BEARING ABILITY - Google Patents

Abstract

Reinforced concrete element with increased bearing capacity, reinforced with round spirals and vertical rods, characterized in that inside the spirals there are concrete elements connected or not connected to each other by reinforcement.

Description

The utility model relates to construction and can be used in the design and construction of residential, public and industrial buildings, structures.

A well-known reinforced concrete element with increased bearing capacity (Gusev B.V., Zvezdov A.I., In Samuel Ien-Liang. Stress-strain state in concrete under the action of compressive loads and rational reinforcement of columns with spiral reinforcement // Concrete and reinforced concrete - a look in future: scientific papers of the III All-Russian (II International) Conference on Concrete and Reinforced Concrete (Moscow, May 12-16, 2014) at 7 vol. T. 1. The theory of reinforced concrete. Reinforced concrete structures. Calculation and construction. Moscow: MGSU, 2014. S. 245-250), reinforced with round spirals and vertical linen rods. A disadvantage of the known design is the absence, if necessary, of reinforcement in the form of concrete elements inside spirals.

The technical task is to increase the bearing capacity and stiffness of the reinforced concrete element.

The problem is solved by the fact that inside the spirals there are concrete elements connected or not connected by reinforcement. Pipe-concrete elements (TBE) allow using different types and classes of concrete in an element. If necessary, to increase the stability of TBE in concrete in the direction of the free faces of the element, it is advisable to connect them to each other by tensile reinforcing bars. The location of TBE inside the round spirals will allow more fully use the increased bearing capacity of TBE. Those. to the effect of using stronger concrete in the core, partially add the effect of its volumetric compression in the pipe. This becomes possible due to the partial effect of volumetric compression of concrete inside the spiral during compression. Thanks to the spirals, the conditions for the joint work of TBE and the surrounding concrete are improved. TBE in concrete is protected from fire in case of fire, their metal shells are protected from corrosion. This increases the bearing capacity.

The design is illustrated by drawings.

In FIG. 1 shows a cross section of a square column with four identical intersecting spirals with TBE connected by a reinforcement, a vertical rod in the total area.

In FIG. 2 shows a cross section of a rectangular column with a section of 60 × 110 cm with five spirals and one TBE.

In FIG. 3 shows a cross section of a rectangular column with a cross section of 60 × 110 cm with five spirals and three TBE.

In FIG. 4 shows the cross section of a rectangular pylon with a cross section of 60 × 200 cm with eleven spirals and seven TBE.

A reinforced concrete element with increased bearing capacity consists of concrete 1, round spirals 2, vertical rods 3, concrete elements 4 inside spirals interconnected by reinforcement 5.

Claims (1)

Reinforced concrete element with increased bearing capacity, reinforced with round spirals and vertical rods, characterized in that inside the spirals there are concrete elements connected or not connected to each other by reinforcement.

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