SU781306A1 - Prefabricated ferroconcrete cooling tower - Google Patents

Description

(54) REINFORCED CONCRETE COOLING

one

The invention relates to tower-type constructions, mainly towers. cooling towers m

A known reinforced concrete cooling tower, in which the collecting element is a trapezoidal panel, the binding of which has a trough-shaped section. After the elements are mounted, the channels with the fittings installed in them are monolithic 1.

A disadvantage of the known solution is the need for welding during the assembly of prefabricated elements to preserve their stability and to embed seams. The embedment of trough-shaped seams with the installation of reinforcement is a very unreliable solution. The connection of the trapezoidal panels will be broken upon destruction in the seams of the solution. The fabrication of prefab trapezoidal elements requires a set of formwork that fully reproduces the lateral surface of the desired cooling tower.

The closest solution to the proposed technical essence and the achieved result is a precast concrete cooling tower having a regular polygon at its base, the lateral surface of which is made of diamond-shaped prefabricated elements having slots and ridges on adjacent faces x 2.

In a known construction, rhombic elements are obtained by embedding the rods forming these panels. For the vertical installation of the elements on each other, their tops are truncated, forming the supporting platforms that are interconnected by some method of fastening (welding, bolts, etc.). To give the tower spatial rigidity, rhombic-shaped panels 10 are interconnected polygonal on their own by welding or in another way.

The disadvantage of co-construction is the need to use welding or bolts and polygonal joints connecting the panels together.

15

The purpose of the invention is to reduce the labor intensity in the manufacture of installation of prefabricated cooling tower panels. I.

The goal is achieved by the fact that in a national team a concrete-concrete cooling tower, having a regular polygon at its base, 20 the lateral surface is made of flat rhomboid panels having grooves and ridges on adjacent faces, and the grooves and ridges of all panels on adjacent faces have

the angle between them is 180 °, where o The central angle of a regular polygon.

In order to obtain a given shape, the cooling tower in the plan and in height of the panel in adjacent russes can have varying diagonal lengths, and the lengths of the side faces of the panels and the horizontal angle between the grooves and ridges are constant. To change the angle of inclination of the panels in the neck of the cooling tower, diamond-shaped panels in rus, the transition can be mounted with a 180 ° rotation relative to the smaller diagonal.

FIG. 1 shows a cooling tower, a general view; in Fig. 2 - a flat panel, a general view; in fig. 3 - panel, top view; in fig. 4 is a diagram of a change in the length of the panel diagonals; in fig. 5 - transition from the inclined surface of the cooling tower to a vertical and with a reverse slope.

The composite reinforced concrete cooling tower rests on a support ring (conventionally not shown) in which the half-panels 1 are fixed with a slope equal to the generator surface of the cooling tower. The next Rus is made of flat panels 2. Thus, the tower body is formed in the riverbed. Flat panels 2 (FIGS. 2 and 3) have on the side faces crests 3 and grooves 4 having an angle between

180 ° - -g, where eC is the central angle

regular polygon at the base of the cooling tower.

The lengths of the diagonals of panel 2 in cooling towers with inclined walls vary in Rus, as shown in FIG. 4. At the same time, the lengths of the ridges remain unchanged. The change in inclination of the panels 2 is achieved by installing them with a 180 ° rotation (Fig. 5).

To go to the face from the sloping PLANE to the vertical and with a reverse bias, the panel 2 is mounted before installation in the subsequent torsion rotates around the smaller diagonal by 180 ° so that the bend angle of the groove with the protrusion will be on the outer side of the cooling tower.

The last Russian 5 panels with an inclination in one direction is joined to the blond 6 panels 2, installed with a rotation of 180 °. The next Rus 7 has a slope in the other direction.

The installation of the cooling tower begins with a monolithing in the support ring of an even number of half panels and giving them a slope equal to the angle of inclination of the generatrix.

Simultaneously with the installation of the panels, monolithing (sealing) of the joints is carried out using solutions or sealants.

The solution or sealant applied to the inclined side surfaces before mounting the panel, for all its simplicity and accuracy, ensures sufficient strength and adhesion in the wedge-shaped joint.

To reduce the height of the cross section of the cooling tower, panels are mounted with shorter horizontal lengths and increasing lengths of the vertical diagonals in each of the Russ.

The ability of the mounted panels to maintain their stability on the principle of self-sealing significantly simplifies the construction process.

Factory technology for the manufacture of prefabricated elements allows them to be molded on flat forms regardless of the radius of the surface of the cooling tower, and airborne equipment with constant side lengths is used.

Claims (3)

1. The reinforced concrete cooling tower has a regular polygon at the base, the lateral surface of which is made of flat rhombic-shaped panels having grooves and ridges on adjacent faces, which is different from that, in order to reduce the labor intensity in the manufacture and installation of panels, grooves and the crests of all the pairs on adjacent faces have an angle of 180 ° between them, where “C is the central angle of a regular polygon. 2. Radial tower according to claim 1, characterized in that, in order to obtain a predetermined cooling tower shape in terms of and height, diamond-shaped The f flat panels of the adjacent lengths have variable diagonal lengths, and the lengths of the side faces of the panels and the horizontal angle between the grooves and ridges are constant. j 3. The cooling tower on paragraphs. 1 and 2, characterized in that, in order to change the angle of inclination of the panels in the throat of the cooling tower, rhomboid flat panels in the junction arms are installed with a 180 ° rotation relative to the smaller diagonal. Sources of information taken into account in the examination 1. USSR author's certificate number 132394, cl. E 04 H 7/02, 1961. 2. USSR author's certificate  No. 479863, cl. E 04 H 12/00, 1970 (prototype). 1 6