SU592948A1 - Latticework tower - Google Patents

Description

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The proposal relates to the field of construction, in particular to the construction of towers.

The mesh tower is known, consisting of horizontal stiffening rings concentric along the vertical axis and straight linear inclined rods, forming their hyperbolic paraboloid. An axial vertical rod is sometimes located inside the tower.

Straight linear rods can be pre-stretched, then the axial bar is a supporting structure, resurrecting the compressive force from the pre-stressing of the external rods (I.

The disadvantage of this design is the assembly of the installation, caused by the need to preliminarily support the axial rod with temporary delays followed by the installation of a mesh stretched surface around it.

The closest technical solution to the present invention is a mesh tower, including external and internal rods connected at the points of intersection, located along the surface of the hyperbolic paraboloid and annular diaphragms 2.

In such structures, the inclined rods of one are linear and are located outside, and the other inside the shell. Bearing capacity of inclined rods, which are

The main ones when transferring zeliums are provided by annular diaphragms. Ring diaphragms do not perceive direct loads on the tower, but the fact of their existence increases the consumption of metal on the structure.

The aim of the invention is to reduce the metal intensity of the tower while increasing the pitch of the annular diaphragms.

This goal is achieved by the fact that the outer and inner rods are bent and a connecting element is rigidly attached to each of them at the points of crossing. In this case, the curved rods perform simultaneously both the carrier and the mutually supporting functions.

FIG. 1 shows the net tower, general view; in fig. 2 and 3 — an assembly of connection of inclined rods, when the connecting element is made in the form of a socket and in the form of a T-shaped element.

The grid tower is formed by intersecting external and internal inclined rods 1 and annular diaphragms 2.

The inclined rods 1 in a longitudinal section of the tower are bent towards each other.

Each inclined rod is rigidly fixed to its side surface.

element 3 with flange 4. Each flange is made with bolt holes.

Curved sloping rods stand between each other in the gaps where they cross. Fastening is carried out using bolts installed in the holes of the flanges 4.

FIG. Figures 2 and 3 show possible variations of the joint assembly with tubular sections of rods, where element 3 is made either in the form of a nozzle with a flange 4 on its end, or in the form of a T-shaped element.

The most successful application of the invention is the construction of towers, solved in the form of several hyperbolic paraboloids placed one on another of the type of tower on Shabolovka in Moscow. The main annular diaphragms of the structure are located at the junctions of hyperboloids.

The assembly of the structures is carried out in the following sequence. Install the inclined rods with a gap between them, install the upper annular diaphragm, which creates paired with the underlying stops, preventing the approach of the inclined rods during their contraction; The inclined rods are tightened and joined at the points of their crossing.

The use of this mesh construction makes it possible to reduce the metal consumption of icing by reducing the number of annular diaphragms by 2-3 times.

Claims (2)

1.Patent of France No. 15454722, cl. E04H, 1967. 2.Sokolov A. Propulsion transmission lines. M., stroiizdat, 1961, p. 76. 2 t / 8 3