RU137041U1 - BEVERLESS MONOLITHIC OVERLAP - Google Patents

Abstract

Bezel-less monolithic overlapping, including monolithic slabs supported by columns with combined reinforcement, while the lower span reinforcing mesh is made of steel reinforcement, characterized in that the upper supercolumn reinforcing mesh is made of composite reinforcement.

Description

The utility model relates to the field of construction and can be used in the construction of civil, public and industrial high-rise buildings with monolithic reinforced concrete beam-free ceilings.

Known monolithic bezel-less overlap, which is reinforced with rolled or flat grids of steel reinforcement class A-III (A400). In continuous bezel-free slabs, span moments are perceived by sections with working reinforcement in meshes stacked at the bottom, and supporting moments in places of bearing on columns with sections with meshes stacked on top. [Reinforced concrete structures: General course / V.N. Baykov, E.E. Sigalov - 6th edition, reprint Moscow, 2009 - 766 s: pp. 326-331].

A disadvantage of the known reinforcement is the large consumption of steel, the saturation of the reinforcement of the over-column sections of the ceiling and the large labor costs when performing reinforcing work.

As a prototype, a ceiling with a butt joint in a monolithic reinforced concrete beam-free frame containing a column, a ceiling, reinforcing frames of a column and a ceiling, the last of which contains a longitudinal longitudinal reinforcement in the form of an upper and lower mesh, and the ceiling at the point of its adjoining to the column is additionally reinforced fiber, evenly distributed over the volume of the area filled with fiber concrete, the boundaries of which are remote from the perimeter of the column by an amount at least equal to the thickness of the overlap (Pa awning RU No. 52036 C1, IPC E04B 5/43, 2005).

The disadvantage of the prototype is the significant consumption of steel, the high complexity of the reinforcing work on the laying of two types of concrete: ordinary and fiber concrete.

The technical result is an increase in the bearing capacity, durability and corrosion resistance of the floor due to the high strength of the composite reinforcement, which can simultaneously reduce the weight and amount of reinforcement made of metal, which reduces labor costs during construction.

The technical result is achieved by the fact that the bezel-less monolithic overlap includes monolithic slabs supported by columns with combined reinforcement, while the lower span reinforcing mesh is made of steel reinforcement. According to a utility model, the upper over-column reinforcing mesh is made of composite reinforcement (basalt-plastic, carbon-fiber).

The drawing shows the design of a monolithic bezel-less floor.

Bezel-free monolithic overlapping, including monolithic slabs 2 supported on columns 1, with combined reinforcement: the lower reinforcing mesh 3 located in the span between the columns is made of steel reinforcement, and the upper over-column reinforcing mesh 4 is made of composite reinforcement.

The use of composite reinforcement in the upper zones in a bezel-free monolithic overlap in the places of support on the columns allows you to adjust the redistribution of support and span bending moments by changing the number or diameter of the reinforcement.

Claims (1)

Bezel-less monolithic overlapping, including monolithic slabs supported by columns with combined reinforcement, while the lower span reinforcing mesh is made of steel reinforcement, characterized in that the upper supercolumn reinforcing mesh is made of composite reinforcement.

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