RU32255U1 - Cooling tower sprinkler block - Google Patents

Description

COOLER IRRIGATOR UNIT

The utility model relates to a power system, in particular, to structural elements of contact heat and mass transfer devices, for example, cooling towers, and can be used to cool the circulating water of power plants and industrial enterprises.

Various blocks of cooling tower irrigators assembled from vertical tubular elements using various fixing means are known from the prior art.

So, in particular, a tower sprinkler block is known, the fastening means of which are made in the form of grids installed at the level of the upper and lower ends of the tubular corrugated elements, and the elements are fixed in the area of the grid nodes through slots made in their ends (USSR Author's Certificate No. 954790, F28F 25/08, 1982).

The disadvantages of this block irrigation tower are the complexity of the Assembly and not high enough strength.

A well-known unit of cooling tower irrigation containing vertical corrugated pipes with cylindrical and polygonal cross-section and a length equal to the height of the block, around which shortened pipes are installed and fastened, installed in groups of several tiers along the height of the block. The sprinkler unit is assembled by welding together shortened pipes with the formation of through channels. (RF patent No. 2106589, F28F 25/08, 1998).

The disadvantages of this device are the large consumption of materials and the complexity of the assembly.

The closest in technical essence and the achieved effect to the proposed block is the cooling tower sprinkler block, consisting of vertical tubular elements with corrugated inner and outer surfaces, fasteners made in the form of sleeves placed on both sides of the block between the tubular elements flush with their ends and rigidly connected with the latter (USSR Patent No. 1755718, F28F 25/08, F 28C 1/00, 1992).

The disadvantages of this block are the complexity of the assembly and low strength assembled from individual elements of the block.

The problem to which the claimed utility model is directed is to create a cooling tower irrigation unit with increased rigidity and reduced material consumption, convenient for installation and operation.

The technical result from the use of the proposed unit is to increase the efficiency of heat and mass transfer in the apparatus by ensuring its uniformity, as well as to simplify the installation, dismantling and maintenance of the units during operation.

The problem is solved, and the technical result is achieved due to the fact that in the block of the sprinkler of the tower, consisting of vertical tubular elements and fasteners containing sleeves, rigidly connected to the tubular elements, fasteners are made in the form of at least two flat monolithic gratings with cells in the form of triangles or squares, the sleeves are located in the nodes of the gratings and repeat the cross-sectional shape of the tubular elements, while the tubular elements can be made mesh or corrugation cross-sectional in the shape of a circle or

polygon.

Figure 1 shows a top view of the unit of the irrigator of the tower with a grid with cells in the form of triangles and tubular elements with a cross section in the shape of a hexagon; figure 2 is the same with the lattice with cells in the form of squares and tubular elements with a cross section in the form of a circle; in Fig.Z - section along aa in Fig.1 and Fig.2, Fig.4 - corrugated tubular element; figure 5 is a transverse section of the corrugated tubular element in figure 4.

The cooling tower sprinkler block (Fig. 1 and Fig. 2) consists of tubular elements 1 made in the form of mesh or corrugated pipes (Fig. 3) in the form of a polygon (hexagon - Fig. 4) or circular section, rigidly connected to the sleeves 3, repeating the cross-sectional shape of the tubular elements 1 and located in the nodes of the lattice 2 with cells in the form of triangles (Fig. 1) or squares. (Fig. 2).

As tubular elements, mesh or corrugated pipes with different cross-sectional profiles can be used.

The sprinkler blocks are mounted in cooling towers to create the necessary heat exchange surface between the flows of water and air.

The unit of the irrigation tower is as follows.

The tubular elements 1 are placed in sleeves 3 between two or more monolithic flat lattices 2.

Water to be cooled is sprayed, for example, through nozzles onto an irrigator, after which it flows down the surfaces of the tubular elements 1 with a thin film and is cooled by an oncoming air stream. The tubular elements 1 are rigidly fastened with sleeves 3 of two monolithic gratings 2. Depending on the height

3

tubular elements 2, the number of grids may be more than two. The tubular elements can be fastened to the sleeves by, for example, welding or latching. To increase the rigidity of the sprinkler block, the lattice cells can be made in the form of triangles or squares, and the cross sections of tubular elements in the form of a circle or polygons (triangles, quadrangles, hexagons, etc.).

Tubular elements are usually made of thermoplastic materials.

The proposed design has increased rigidity, which during operation virtually eliminates the possibility of deformation of the tubular elements, provides uniform heat and mass transfer throughout the block volume, which improves the efficiency of heat and mass transfer between cooled water and air.

Thus, the proposed technical solution allows us to solve the problem of creating a tower irrigation unit with increased rigidity and reduced material consumption, convenient for installation, dismantling and operation, to increase the efficiency of heat and mass transfer in the tower by ensuring its uniformity.

USEFUL MODEL FORMULA

1. The cooling tower sprinkler unit, consisting of vertical tubular elements and fastening means containing sleeves, rigidly connected to the tubular elements, characterized in that the fastening means are made in the form of at least two flat monolithic gratings with cells in the form of triangles or squares, the sleeves are located in the nodes of the gratings and repeat the cross-sectional shape of the tubular elements in shape.

2. The cooling tower irrigation unit according to claim 1, characterized in that the tubular elements are mesh or corrugated with a cross section in the shape of a circle or polygon.

Claims (2)

1. The cooling tower sprinkler unit, consisting of vertical tubular elements and fastening means containing sleeves, rigidly connected to the tubular elements, characterized in that the fastening means are made in the form of at least two flat monolithic gratings with cells in the form of triangles or squares, the sleeves are located in the nodes of the gratings and repeat the cross-sectional shape of the tubular elements in shape. 2. The tower sprinkler block according to claim 1, characterized in that the tubular elements are mesh or corrugated with a cross section in the shape of a circle or polygon.