SU1643690A1 - Guy-rope sectioned cooling tower - Google Patents

Abstract

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 and reduce material consumption. The byte sectional cooling tower contains a carrying pylon 1, a tower made of a part of a circular outline 2 and a sectional part 3. The tower has a cable-stayed frame. The cooling tower is equipped with carrier chains 12 and intermediate pylons 13. On the carrier chains x 12, dividing partitions 15 are connected by means of vertical cables 14, which are connected to the lower part with lower radial girders 17, to which boundary meridian eantas - clauses 10 are connected by nodal columns 18. . Lower stiffening elements 6 are made in the form of horizontal arches installed on vertical uprights 20. 2 of p. P. F-ly. 3 il. 4 19 (Л С о N Ј Ч) О / / 1В 20

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 and reduce material consumption.

FIG. 1 shows a sectional cooling tower, section; in fig. 2 — node I in FIG. one; in fig. 3 - a fragment of the plan.

The sectional cooling tower contains a carrying pylon 1, a tower made of a part of a circular outline 2 and a sectional part 3 made to a height from the base to one of the intermediate stiffening rings. The tower has a cable-stayed skeleton comprising the upper 4, intermediate 5 stiffness rings, lower stiffening elements 6, between which are located the meridional 7 and diagonal 8 shrouds and skins 9. The tower, at the junction of the sections, is provided with boundary meridian matching picks 10, to which are pivotally attached a part of the diagonal cables 11 of the adjacent sections of the sectional part 3. The cooling tower is provided with supporting chains 12 and intermediate pylons 13 placed in the lower part of the tower from the bottom to one of the intermediate stiffening rings 5, at the same time bearing chains

12 attached to intermediate pylons

13 and converge to the supporting pylon 1. On the supporting chains, by means of vertical cables 14, dividing partitions 15 are suspended, dividing the lower zone of the cooling tower into autonomous sections 16 and connected to the lower part with lower radial bolts 17, which are connected by means of the nodal columns 18 boundary meridian shrouds 10. In the upper part of the cooling tower there are inclined supporting elements 19. The lower elements of rigidity are made in the form of horizontal arches installed on vertical supports 20 with the possibility of vertical moving down.

The cable-stayed carcass of the autonomous sections 16 is provided with cable-stabilizers 21 and 22 with convexity facing upwards and located in the vertical and inclined planes of the shell sections. The cooling tower can be equipped with additional dividers 15, suspended on supporting chains 12, which are installed between the supporting pylon 1 and the frame of the upper part of the tower 2 above the sectional part of the tower, while the lower part of the additional dividing partitions 15 is fixed on the lower supporting chain 12 .

The installation of a cable-stayed cooling tower is carried out as follows.

Initially, bearing pylon 1 was erected on a prefabricated foundation,

mounted reinforced mounting block, which is assembled at the level of the lower stiffening element 6, including the upper ring 4 stiffness, intermediate ring 5 stiffness with installed between them

0 by the cables 7, 8 and the casing 9, and along the carrying pylon 1 by means of the inclined supporting elements 19, the monolithic block is lifted and the cables mounted simultaneously are suspended

5 intermediate rings 5 stiffness.

Simultaneously with the installation of the upper part of the tower, the posts 20 are manufactured and the lower stiffness element 6 is made in the form of arches, placed around the perimeters of the struts 20, the intermediate pylons 13 and the lower radial bolts 17 are manufactured. border meridian

5 wa nt-rebounds 10 and fixed meridian 7 and diagonal 8 carts of the frame for the lower stiffening element 6 and the lower intermediate ring 5 of stiffness, while part of the diagonal cables 8 are fixed on the boundary meridional shunt 10. Preload of the entire tower of the cooling tower performed by the mass of the lower stiffening element 6,

The casing 9 is then weighed out. The autonomous sections can be formed by dividing partitions 15 mounted on supporting chains 12 which are attached to the intermediate pylons 13 and the supporting pylon 1.

Claims (3)

0 The partition walls 15 are attached below to the lower radial bolts 17. Above the partition walls 15, additional partition bars can be placed, suspended on supporting chains 12, which are attached to the supporting pylon 1 and the tower frame, in the lower part are additional separation bars. the partitions are fixed on the downstream carrier chain 12. The boundary meridional guy-clips 10 are attached to the lower radial crossbars 17, supported on the nodal columns 18. Claims of the invention 51. Vantova sectional cooling tower, including a carrier pylon, a sectional tower with dividing partitions and a cable-stayed frame made of upper stiffness ring, lower stiffeners, meridional and diagonal cables installed between them, and sheathing, characterized in that, to simplify installation and reduce material consumption, it is equipped with lower radial bolts, intermediate stiffening rings and anameric guy-assemblies installed in the junction of the meridian sections, to which a part of the diagonal cables of the adjacent sections are hingedly attached This partitions are made to one of the intermediate stiffening rings, the guy-picks are connected to the lower radial bolts, and the lower stiffeners are made in the form of horizontal arches installed on the vertical uprights with the possibility of vertical movement, and the cable frame is equipped with cables - stabilizers, located upwardly convex in inclined and vertical planes of shell sections. 2. Gradirn according to claim 1. characterized in that it is provided with additional pylons up to an intermediate stiffening ring and carrier chains attached to the carrier and to additional pylons, while the dividing partitions are suspended on the carrier chains by means of vertical cables and connected at the bottom with lower radial bolts. 3.Gradirn on PP. 1 and 2, wherein that it is equipped with additional dividing partitions suspended on supporting chains installed between the main pylon and the tower frame above its sectional part, with additional dividing partitions in the lower part fixed to the lower bearing chains. FIG. I 1B sixteen FIG.