RU2123654C1 - Spray nozzle - Google Patents

Abstract

FIELD: power engineering; water spraying nozzles. SUBSTANCE: nozzle has additional conical flow divider installed on upper end faces of last tier posts and orientated with its top towards hole of plate of this tier, with pairs of posts in adjacent tiers being installed orthogonally. EFFECT: provision of high efficiency of water spraying and reliable operation at low water pressure differentials. 2 dwg

Description

 The invention relates to energy, to water distribution devices of cooling towers, namely to nozzles for spraying water.

 Known spray nozzle for a cooling tower, containing a pipe for supplying water, a holder attached to it, on which are placed plates with annular protrusions and with holes in them, while the holes are made with diameters decreasing from the pipe along the water [1].

 The main disadvantages of this nozzle are the uneven distribution of water along the height. The nozzle is mounted downstream of the outlet, as a result of which the water jets flowing through this hole in the lower plate are not split, which reduces the efficiency of heat and mass transfer. In addition, the nozzle is material-intensive and low-tech.

 It is known a spray nozzle containing an inlet pipe with a central hole, a pair of racks with tiers placed between them, plates with a coaxial central hole, the plates are made with a conical surface with an apex directed toward the inlet pipe and the angle at the apex decreasing in adjacent layers, counting from the mentioned pipe, as well as with diameters at the base and holes, decreasing in this direction [2].

 The main disadvantage of the known nozzle is the low efficiency of water spraying due to the uneven size of the water droplets in height, the inability to work effectively under conditions of small drops in water pressure and at any orientation of the nozzle, in particular when the outlet is installed downward.

 The invention eliminates these disadvantages.

 The technical result is achieved by the fact that the spray nozzle for the cooling tower, containing a water supply pipe with a central hole, oppositely installed pairs of racks with plates placed between them, made with coaxial central holes, according to the invention is additionally equipped with a conical flow divider mounted on the ends of the racks of the last tier and oriented vertex in the direction of the hole of the plate of this tier, pairs of racks in adjacent tiers are installed orthogonally, the plates you are filled with a conical surface with an apex directed towards the water supply pipe and an angle at the apex decreasing in adjacent tiers, counting from the aforementioned pipe, as well as with diameters at the base and holes decreasing in this direction.

 In FIG. 1 shows a spray nozzle for a cooling tower, general view: in FIG. 2 is the same side view.

 The spray nozzle for the tower contains a water supply pipe 1 with a Central hole 2. The nozzle has a number of racks 3-7 placed in pairs opposite to each other. Between racks 3-7 are placed in tiers of plates 8-11 with holes 12-15 coaxial to each other and to the central hole 2, respectively. Racks in adjacent tiers are installed orthogonally. So, a pair of racks 3 is offset at a right angle relative to a pair of racks 4, a pair of racks 4 is relative to a pair of racks 5, etc. The holes 12, 13, 14, 15 in the respective plates are made with decreasing diameters in the flow of water, i.e. in the direction from the nozzle 1. Plates 8, 9, 10, 11 are made with a conical surface 16, 17, 18, 19, respectively. In this case, the cone angle at the apex facing the pipe 1 decreases in the direction of the water flow from the pipe 1. In addition, these plates are made in tiers with a decreasing diameter at the base in the direction also of the water flow. At the ends of the uprights 7 of the last tier, a conical flow divider 20 is installed, with its apex oriented in the direction of the hole 15 of the last plate 11. The nozzle can be made by injection mainly from plastic materials.

 The water to be cooled is supplied through the water distribution pipes to the nozzle. The nozzle can be installed with an outlet both up and down. At small pressure drops (2 m.v.st.) the nozzle is more effective when it is set down. As the water pressure increases, the fineness of water spray increases dramatically.

 The flow of water entering through the hole 2, hits the plate 8 of the first tier, is reflected from its conical surface 16 and in the form of jets sent by the uprights 3, is sprayed in the cooling tower. Part of the flow passing through the hole 12 of the plate 8, hits the plate 9 of the next tier, water jets directed by the uprights 4 and the conical surface 17 are sprayed in the cooling tower. Due to the orthogonal installation of the racks 4 relative to the racks 3, the orientation of the jets and the flow swirl are changed. Next, the process is repeated when the water jets interact with the surfaces of the plates of the next tiers. The flow coming through the hole 15 of the last plate 11 interacts with the conical divider 20 and enters the volume of the tower between the racks 7, thereby eliminating the through passage of a stream of water into the tower.

Claims (1)

 A spray nozzle containing an inlet pipe with a central hole, pairs of racks with tiers placed between them, plates with coaxial central holes, plates are made with a conical surface with a vertex directed toward the inlet pipe and the angle at the apex decreasing in adjacent layers, counting from the aforementioned the nozzle, as well as with diameters at the base and holes decreasing in this direction, characterized in that the nozzle is additionally equipped with a conical flow divider mounted on erhnih ends tier racks and the last vertex oriented towards the opening of the tier plates, a pair of struts in orthogonally related JISHOP installed.

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