SU1701873A1 - Shell frame of cooling tower - Google Patents

Abstract

The invention relates to the construction of tower cooling towers. The aim of the invention is to simplify installation. The frame of the cooling tower is made in the form of meridian elements in the form of pipes with two-console mounting rods and ring elements in the form of spatial trusses with external and internal ones themselves and struts. External walls are attached to the pipes, and internal pipes are interconnected along the perimeter of the tower 2 З.п f-crystals, 14 Il.

Description

The invention relates to the construction and can be used in the construction of tower structures, mainly cooling towers.

The purpose of the invention is to simplify installation.

FIG. 1 shows the facade of a frame-shear cooling tower; in FIG. 2, the same plan view; FIG. 3 shows a fragment of the frame of a cooling tower tower; in fig. 4 — node I in FIG. 3; in fig. 5 shows section A-A in FIG. four; in fig. 6 is a section BB of FIG. four; in fig. 7 - a fragment of the casing installed on the cable-stayed network attached to the transom bars; in fig. 8-12 - stages of the tower construction; Fig 13 and 14 - installation of the tower, limited part of the lifting devices.

The frame-shell tower 1 of the cooling tower includes a frame, the tusk 2 of which is made of meridian elements in the form of pipes 3 with two-console mounting rods 4 and ring elements in the form of spatial trusses with outer 5 and inner 6 themselves and struts 7 installed normally to outer su.

On the side of the interior, a covering 8 is placed.

The rods 4 are installed in the radial direction in the level of the ring elements, passed through the pipe 3 and concreted in them.

The outer sa 5 trusses are attached to the pipes 3. And the inner sa sa 6 are ring-shaped and interconnected along the perimeter of the tower.

The casing 8 can be made of shields mounted on the cable network 9. fixed on the internal lines 6.

The annular elements are connected by cross-stretching 10.

For mounting the Rus 2 towers 1 use groups of odd 11 and even 12 lifting devices pivotally mounted on the respective dual console mounting rods x 4. The intersection nodes of the meridional and ring elements in the case of

WITH

WITH

Xi

ABOUT

00 XI

GO

Required to be filled with monolithic concrete.

The erection of the frame-sheath tower 1 is made according to the runway. To do this, the framework of the upper Russ is assembled, consisting of the meridian and ring elements, attached along with 6 with struts 7 to across the 5 trusses, and the casing 8 is mounted. The ring and meridian elements are fixed on the flanges. The board 8 itself is fastened to 6 itself by means of a cable-stayed network 9. The shell can be made of preformed thin-walled closed shells attached to 6 themselves, or from flexible shields installed along straight lines forming a one-cavity hyperboloid and interconnected by themselves 6. Upon completion of the assembly of the upper tier 2, the towers install a group of odd lifting devices 11, fasten them hingedly to dual console mounting rods 4, and lift the tusk 2 of the tower to the height of the underlying tier 2. lying tusk 2, install a group of even lifting devices 12, fix them pivotally on dual-console mounting rods 4 and lift two assembled tiers 2 to the height of the underlying, dismantle an odd group of lifting devices 11, assemble the third Russian 2 towers 1, install removable lifting the devices 11 on the two-console mounting rods 4 of the third Russ 2 towers and lift the assembled part of the head 1. Thus, each lifting device is designed to lift two Rus 2 towers of the 1st cooling tower.

It is possible to lift the Rus 2 of the tower 1 by a limited part of the lifting devices — even 12 or odd 11 by a predetermined cycle to a height determined by the allowable elastic deformations of the section being lifted, with the successive displacement of these groups 11 and 12 around the tower circumference.

The invention allows to automate the installation process of the tower and carry it out according to a predetermined program, which

leads to power savings power plant serving lifting devices.

15

Claims (3)

1. A carcass-shell tower of the cooling tower, including a frame, the tusk of which is made of meridian elements and ring elements in the form of spatial trusses with outer and inner strums themselves, and a casing placed on the side of the inner trusses, characterized in that, in order to simplify installation, the meridional elements are made in the form of single pipes with dual console mounting rods installed in the radial direction on the level of the ring elements, the outer ones are attached to the pipes, and the inner ones are made in a circular outline and are interconnected along the perimeter of the tower, while the struts are placed normally to the outer one along the tower. 2. Tower cooling towers in accordance with paragraph 1, clause 2, so that dual-console mounting rods are passed through the meridional elements and are concreted into them. 3. Tower cooling tower according to claim 1, which is equipped with a cable network attached to the internal terminal box, and the casing is attached to the latter. D) g- so about g-00 cm A-l Bb FIG. 6 FIG. five fc7 FIG. eight Schi 9 FIG. YU FIG. eleven Fig. 12. FIG. 13