RU136840U1 - COOLING TOWER - Google Patents

Abstract

1. A cooling tower comprising a metal supporting frame and a lining of the exhaust tower attached to it, characterized in that the metal supporting frame is made in the form of a unisex mesh shell, consisting of rectilinear inclined and annular rod elements, with a triangular or hexagonal cell, and the ring elements are made in in the form of flat trusses interconnected in the nodes of the mesh shell, and the sheathing of the supporting frame is made in the form of flat panels consisting of its own frame and attached to it nastya A.2. The cooling tower according to claim 1, characterized in that the middle of the outer and inner zones of the flat trusses are connected by spacers with the middle of the rod inclined elements of the unisex mesh shell.

Description

The utility model relates to industrial power engineering and construction, namely, to the design of a sheathed tower cooling tower and is designed to provide air draft in the tower and to cool the water in the circulating water supply system of thermal power plants and industrial enterprises.

Known tower cooling tower containing a metal frame and attached to it a lining of corrugated aluminum sheets [Project Institute "Teploelektroproekt, No. 156066, L., 1973].

Also known are frame-sheathed cooling towers, the exhaust towers of which are a regular polygon in plan. The towers are in the form of a truncated pyramid or a hyperboloid of revolution. The steel frame of the tower is a cyclically symmetrical rib-ring connected spatial system formed by the type of Schwedler network. Ribs and rings are spatial lattice beams of rectangular cross section. Each face is an inclined truss fixed to the foundation. For ease of installation, each face is divided into separate mounting marks, limited along the perimeter by trusses, which are the lateral faces of the spatial bars of the ribs and rings, connected to each other in lattice spatial bars of rectangular cross-section when assembling the frame of the tower. Each assembly mark consists of trusses of annular and meridional bars, braces, crossbars and cladding attached to them (Methodology for examining the metal structures of exhaust towers of sheathing cooling towers, MT 34-70-014-84, Fig. 1, 2).

The disadvantages of such designs of the tower are the large consumption of steel on the supporting frame, the increased complexity of manufacturing and installation, a large number of assembly welding, including at a height, low overall rigidity, leading to increased support reactions, high operating costs.

The technical result of the utility model is to simplify the design, reduce its metal consumption, reduce the complexity of its manufacture and installation, increase the overall rigidity of the structure, increase operational reliability.

The specified technical result is achieved by the fact that the cooling tower containing the metal supporting frame and the lining of the exhaust tower attached to it, according to the claimed invention, the metal supporting frame is made in the form of a single-belt mesh shell, consisting of rectilinear inclined and annular rod elements, with a triangular or hexagonal cell, moreover, the annular elements are made in the form of flat trusses, and the sheathing of the supporting frame is made in the form of flat panels consisting of its own frame and attached about to him flooring.

The middle of the outer and inner zones of the flat trusses can be connected by spacers with the middle of the rod inclined elements of the unisex mesh shell.

The essence of the technical solution is illustrated by the drawing, where

in FIG. 1 shows an exhaust tower of a cooling tower;

in FIG. 2 is a section AA in FIG. one;

in FIG. 3 - a fragment of the casing of the supporting frame;

in FIG. 4 - exhaust tower of the cooling tower with struts.

The cooling tower contains a metal supporting frame in the form of a single-belt mesh shell 1, consisting of rectilinear inclined 2 and annular 3 rod elements, with a triangular or hexagonal cell. The ring elements 3 are made in the form of interconnected flat trusses 4 and divide the single-belt mesh shell 1 in height into tiers. Sheathing 5 of the supporting frame is made in the form of flat panels, consisting of their own frame 6 and the flooring 7 attached to it.

Farms 4 can be used as the basis of walkways for movement within the tier.

To reduce the free length of the ring elements and their support, the middle of the outer and inner zones of the flat trusses 4 can be connected by spacers 8 with the midpoints of the inclined rod elements 2 of the one-belt mesh shell. The connection of the frame elements with each other can be carried out using bolts or assembly welding.

The claimed technical solution allows to simplify the design of the tower, significantly reduce its metal consumption and the complexity of manufacturing and installation, significantly reduce the load on the foundation, increase the overall rigidity of the structure and increase operational reliability.

Claims (2)

1. A cooling tower comprising a metal supporting frame and a lining of the exhaust tower attached to it, characterized in that the metal supporting frame is made in the form of a unisex mesh shell, consisting of rectilinear inclined and annular rod elements, with a triangular or hexagonal cell, and the ring elements are made in in the form of flat trusses interconnected in the nodes of the mesh shell, and the sheathing of the supporting frame is made in the form of flat panels consisting of its own frame and attached to it nastya a. 2. The cooling tower according to claim 1, characterized in that the middle of the outer and inner zones of the flat trusses are connected by spacers with the middle of the rod inclined elements of the unisex mesh shell.

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