RU2053478C1 - Water cooler - Google Patents

Abstract

FIELD: thermal engineering. SUBSTANCE: cooler case is divided into sections whose inner walls form exhaust pipe connection and outer walls form mentioned case. Annular clearance is provided between case and connection walls shaped as polygon. Injectors 13 are placed in annular clearance. Water disperser in the form of gauze 5 is placed below injectors. additional disperser is built up of upper and lower screens 6 and 7, respectively placed in clearance below injectors. Air duct placed between screens has in its wall port with fan 8. Gauze 5 is placed between injectors 13 and upper screen 6; air outlet port 12 is made in exhaust connection between parts 13 and 6. Connection accommodates air vent pipe 9 connected on one end to air duct opposite fan 8. EFFECT: improved water cooling conditions. 2 cl, 4 dwg

Description

 The invention relates to heat engineering, in particular to systems for the multiple (circulating) use of cooling water.

 Known water cooler, in which the ejection of air is carried out by a torch of sprayed liquid.

The disadvantage of this cooler is the low efficiency of the heat exchanger when cooling the circulating water. This is due to the influx of a small amount of fresh air entering through the windows of the ejector channel [1]
Closest to the technical nature of the invention is a water cooler with a step stationary fixed mesh crusher. The apparatus contains a partition separating the contact and separation zones, nozzles, crusher, strainer, central water riser, strainer, chilled water tank. The cooling of the circulating water in this cooler is due to the ejection of atmospheric air, which, having passed through the crusher and moistened, is discharged through the separation channel into the atmosphere [2]
The disadvantage of the described cooler is the high intensity of the process of heat and mass transfer and, as a consequence, the insufficient efficiency of cooling the circulating water. In addition, the cooler consists of six triangular sections, the adjacent sides of which have rigid walls. Due to this, the known cooler has a high metal content.

 The purpose of the invention is to increase productivity by increasing the intensity of the heat transfer process, as well as reducing the mass of the cooler.

 This goal is achieved by the fact that in the water cooler containing the housing, made in the form of a sectional polygon, and the adjacent sides of the sections do not have solid side walls, a partition separating the contact and separation zones, while the role of the partition is performed by the inner wall of each section, the exhaust pipe, formed by the inner walls of the section, a fan, nozzles, ejector and separation channels, a water dispersant made in the form of a mesh, an additional dispersant made in the form of a top of the grilles forming a single duct, a chilled water tank, a window on the inner wall of each section and a pipe exiting the inner wall of one section and passing through the exhaust pipe.

 The search for technical solutions in this area and related fields of technology did not allow identifying an identical technical solution.

 In FIG. 1 shows one section of a cooler, general view; figure 2 two adjacent sections, General view; figure 3 cooler, General view; Fig. 4 cooler, plan view.

 The water cooler includes an exhaust pipe 1, inside of which there is a pipe 2 for venting air, an ejector channel 3, a separation channel 4, a disperser in the form of a mesh 5, the upper and lower grilles 6.7, forming an additional dispersant, fan 8, pipe 9, open to air section 10, a tank for collecting chilled water 11, a window 12 for venting humidified air, nozzles 13, a window 14, an inner 15 and an outer 16 wall of the sections of the cooler.

 The device operates as follows.

 Hot water entering for cooling is sprayed in the ejector channel 3 using nozzles 13, forming a spray torch that ejects air from the atmosphere through window 14. The mixture of air and water moves down the ejector channel 3 and, reaching window 12, humidified air enters in the exhaust pipe 1, where a vacuum is created, due to which atmospheric air located above the chilled water tank 11, coming through the open section 10, is sucked into the exhaust pipe 1, increasing the intensity of water cooling in the space between the tank 11 and the lower grill 7. After the passage of the grid 5, the circulating water enters the upper grill 6, then the lower grill 7 and then through the open section 10 into the chilled water tank 11. The grill 6 and 7 together with the internal 15 and external 16 walls of the cooler form a single air duct, on the outer wall of which fan 8 is located, and on the opposite wall to the fan, the base of the pipe 9 is located. In a single duct due to artificial blowing with atmospheric air, additional cooling of the circulating water is performed.

 Thus, increasing the efficiency of cooling hot water in this technical solution is achieved by introducing two grilles forming a single duct, and by means of a window 12 in the inner wall of the sectional cooler, which creates a negative pressure and natural circulation of cooling air.

 In addition, due to the implementation of the adjacent walls of the sections of the cooler hollow, the total weight of the cooler decreases and thereby improves its efficiency.

Claims (2)

 1. WATER COOLER, containing sections, each of which is formed by interconnected inner and outer walls, the sections being placed to form the outer walls of the casing, and the inside of the exhaust pipe and an annular gap between the walls of the casing and the pipe, having a cross-section in the form of a polygon, nozzles located in the annular gap, a water dispersant and a catchment tank, characterized in that it is equipped with a fan and an additional water dispersant, made in the form of two gratings, the last of which are placed under the nozzles one above the other in an annular gap with the formation between them, the walls of the pipe and the duct housing, a window is made in the wall of the housing of the latter, in which the fan is placed, the water dispersant being made in the form of a grid and placed between the nozzles and the upper grille of the additional dispersant and in the area of the exhaust pipe, located between the grid and the upper grill, a window is made for air exhaust.  2. The cooler according to claim 1, characterized in that it is additionally equipped with an exhaust pipe located in the exhaust pipe and connected at one end to the duct opposite the fan.

Images