SU763562A1 - Composite tower structure - Google Patents

Description

(54) ASSEMBLED TOWER DESIGN

The invention relates to the construction of high-rise structures such as chimneys for thermal and nuclear power plants, television and water towers, cooling towers, and the like. There is a lot of Russian tower construction by engineer V. G. Shukhov, formed from a grid of metal rods located in each rus along the surface of a single-cavity rotation hyperboloid C. Also known is reinforced concrete grid tower, consisting of prefabricated trapezoidal closed frames and transitional towers, installed annular rows on the surface forming the shell of the tower 2. The disadvantages of these structures is that due to the fracture of the rods in the contacts of two adjacent Russes forming the whole over spine broken line is obtained. This in turn creates significant difficulties in the implementation of prestressing and, therefore, does not allow for an increase in spatial rigidity and strength. Closest to the proposed technical entity is an assembled tower structure, for example, a cooling tower, including an unstressed grating frame consisting of reinforced concrete bars of rectangular section, oriented along the straight lines forming the hyperbolic surface of the tower, at the points of intersection of which are reinforced concrete bars that form the hyperbolic surface of the tower, at the points of intersection of which are reinforced concrete bars that form the hyperbolic surface of the tower. ring ca: After mounting the frame of the cooling tower shell, triangular filling plates 3 are attached to it. To the disadvantages of this design with eduet include a large number of sizes of small elements and joints with the necessity of concreting, and the complexity of assembly of prefabricated elements. The construction is made in an unstressed version, which, if it is necessary to increase the height, will reflect on its spatial rigidity; In addition, reinforced concrete slabs for filling the frame are not bearing and do not participate in the operation of the structure. The purpose of the invention is to increase the spatial rigidity and strength of the structure.

This is achieved by the fact that in a prefabricated tower structure comprising a reinforced concrete lattice frame formed by intersecting inclined rectilinear elements arranged along the curves of the rotation hyperboloid and fastened with them at the points of intersection horizontal by themselves, the rectilinear elements are provided with longitudinal channels placement of prestressed reinforcing bars anchored in the wire; moreover, hollow boxes are mounted between adjacent linear elements s blocks.

FIG. 1 given described tower structure; in fig. 2 - the same, top view; in fig. 3 - part of the construction of the perimeter zone; in fig. 4 — box section block; in fig. 5 shows section A-A in FIG. four; in fig. 6 — dvuhtavrovogo section; in fig. 7 is a section BB in FIG. 6

The prefabricated tower structure consists of reinforced concrete Ca 1, on which reinforced concrete blocks of box section 2 are installed and, for example, a two-T section 3 with openings 4 for accommodating prestressed reinforcing bars 5. Through the cavities of blocks 2 and openings 4 in blocks 3 reinforcing bars 5 are passed through, which, after tensioning the anchors tc in on sakh 1.

The proposed pre-stressed reinforced concrete tower construction, in comparison with the existing structures, provides the stress of the straight reinforcing strands in two directions, which makes it possible to create the volumetric pre-stressing structure of the double curvature. The preliminary stress of the whole structure increases its spatial rigidity and strength, which makes it possible to get a significant economic effect; in addition, node junctions are simplified, maximum unification of parts and industrialization of their manufacture significantly simplifies and speeds up the installation of the structure and expands the scope of application of tower structures for chimneys, radio and television basins, cooling towers, etc.

Claims (3)

1.Miloslavsky MG History of construction equipment and architecture. M., “Higher School, 1964, p. 168. 2. USSR author's certificate number 103141, cl. E 04 H 12/02, 1952. 3. Keimah LI and others. Construction of high-rise reinforced concrete structures. M., 1962., p. 205 - 206, fig. 133.