SU879250A1 - Cooling tower sprinkler - Google Patents

Description

i

The invention relates to a power system, namely, cooling tower irrigators, or.

A cooling tower sprinkler containing packs of corrugated sheets installed by Rus, is known, the packages of each tusk are shifted one relative to the other by half of the corrugations l.

The main disadvantages of such an irrigator are the high aerodynamic resistance to air flow, the complexity of installation and dismantling, as well as the low efficiency of heat exchange;

Closest to that proposed by the technical entity, is a cooling tower sprinkler containing a nozzle in the housing, made of a set of hollow ball elements 2J.

The main disadvantage of such an irrigator is the large aerodynamic resistance due to the disordered and dense packing of sharony elements, which reduces the efficiency of heat exchange.

The aim of the invention is to increase the efficiency of heat exchange while reducing aerodynamic characteristics. kih losses.

This goal is achieved by the fact that in the spherical elements there are three mutually perpendicular through channels with axes passing through the center of the element, inserts are installed inside the elements, including a tube with inclined vanes mounted on its outer surface in several rows. The diameter of the channels is 0.5-0.65 of the diameter of the ball element. In one of the channels of the ball elements there are grooves, and on the tube of the insert - corresponding to

M ledges.

Figure 1 shows the package of irrigation, General view; figure 2 - ball element, a general view; in fig. 3- tp, side view.

The sprinkler of the cooling tower contains a nozzle placed in the housing 1, made of a set of hollow ball elements 2. In the ball elements 2 there are three mutually perpendicular through channels 3 with the axes passing through the center of the element 2. Inside the elements 2, inserts are installed that include a tube 4 s the inclined vanes 5 are mounted on its front surface fanlikely in several rows. In one of the channels 3 of the ball elements 2, the grooves 6 are made, and on the liner tube 4 there are corresponding protrusions 7 for fixing the insert in the element 2. Cannon diameter Alov 3 is 0.5-0.65 of the diameter of the spherical element 2. The size of the specified diameter is selected so that the adjacent spherical elements 2 do not overlap the through channels 3 with different fitting of the spherical elements 2 in the housing, or ordered, as shown in fig „1, or in bulk. The liner is made from a polymeric material. The maximum transverse dimension of the insert — on the blades 5 — exceeds the diameter of the channels 3. The installation of the insert in the ball elements 2 is carried out using mandrels.

Water is sprayed from the nozzles of the water distribution system from above onto the nozzle from spherical elements 2 and through channels 3 enters the surface of the blades 5. Air enters from below and also passes through channels 3 and the gaps between elements 2, resulting in contact with a film of water flowing down the developed surfaces m of the nozzle — the blades 5, the tubes 4, the outer surfaces of the spherical elements 2 — efficient heat exchange with air and cooling of water occur. The implementation in the spherical elements of three mutually perpendicular through channels with the axes passing through the center of the element, the installation inside the elements of the insert including the tube placed on the outer surface fan-shaped in several rows by inclined blades allows to increase the efficiency of heat exchange by providing developed heat exchange surface and reduce the level of aerodynamic losses by increasing the flow areas compared to the known irrigators with a ball nozzle.

Formula of Invention

Claims (3)

1. The cooler cooling request box containing a nozzle placed in the body, made from a set of hollow ball elements, is characterized in that in order to increase the efficiency of the exchange and at the same time reduce aerodynamic losses, three mutually perpendicular through channels with axes are made in the ball elements, inserts are installed through the center of the element inside the elements, including a tube with inclined vanes mounted on its outer surface fan shaped in several rows, 2. The Enlightener pop. 18 is distinguished by the fact that the diameter of the channel is 0.5-0.65 of the diameter of the ball element. 3. The irrigator according to claim 1S about tl and h ay u and with the fact that —in one of the channels of the spherical elements there are grooves, and corresponding protrusions are on the tube of the insert-. Sources of information taken into account in the examination 1. USSR author's certificate number 500460, cl. F 28 F 25/08, 1973. 2, Patent of France No. 2112104, cl. F 28 F 25/00, published 1972.