SU916702A1 - Elongated ferroconcrete structure - Google Patents

Description

The invention relates to the construction, namely to lengthy reinforced concrete structures intended for industrial buildings of any number of floors with large local loads that are located asymmetrically, that is, they perceive loads that twist the structure relative to its longitudinal axis.

The construction I-reinforced concrete element is known, which includes the upper and lower belts and the associated wall [1].

The disadvantage of the known element jav. One can understand that for the perception of loads that twist the structure one has to significantly increase the cross section, which is not always possible, or increase the number of reinforcement. This design is used to span spans no more than 12 m.

Closest to the proposed is. reinforced concrete lengthy design, including upper and lower parallel belts and lattice elements [2].

A disadvantage of the known construction is that it is not capable of perceiving the loads that twist the structure with respect to

its longitudinal axis. When using trusses, they try to avoid torsion, which causes additional structural measures, the installation of steel vertical and horizontal connections, which leads to additional metal consumption, clutter in the interfermen space and complicates the installation technology of these structures.

The purpose of the invention is to save material by increasing the torsional stiffness of the structure.

This goal is achieved by the fact that in a reinforced concrete lengthy structure including upper and lower parallel belts and lattice elements, the upper belt and 15 lattice are made in the form of plates arranged perpendicular to the longitudinal plane of symmetry, and the braces have a variable cross section decreasing to the lower belt.

The upper belt and the outermost rack of the lattice are made with the ratio of the sides of the cross section equal to 3: 1.

FIG. I shows the construction, general view; in fig. 2 is the same cross section.

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The reinforced concrete lengthy design consists of an upper belt 1 in the form of a plate with a ratio of sides — a cross section of not less than three, parallel to it, the lower belt 2, plate diagonals of variable section 3, and end elements 4 of the same section as the upper belt.

Lengthy design works as follows.

Torques applied to the nodes of plate-shaped structural elements are transmitted to all structural elements simultaneously as axial forces and bending moments acting in the planes of the plates; The cross section of the element working on the bend is more developed in the plane of the bend than from it. The optimal ratio of the width of the cross section of the upper belt to its thickness of at least three.

The use of the proposed lengthy design in comparison with the known increases the column spacing up to 30 m, which improves the layout of an industrial building. Its application reduces the number of installation operations, since vertical connections between trusses are not required.

Claims (2)

Claim 1. Reinforced concrete lengthy design, including upper and lower parallel belts and lattice elements, ! characterized in that, in order to save material by increasing the torsional stiffness of the structure, the upper belt and lattice are made in the form of plates arranged perpendicular to the longitudinal plane of symmetry, and the diagonal bars ^{1C have} a variable cross section decreasing towards the lower belt. 2. Reinforced concrete lengthy construction in π. I, characterized in that the upper belt and extreme lattice sttocks and made with the ratio of the sides of the cross section.