SU1020743A1 - Air-draft water cooler (its versions) - Google Patents

Abstract

1. A contact apparatus, predominantly a cooling tower, containing a sprinkler and a water distribution device installed in the housing, placed in the upper part of the hull of a droplet separator blade, mounted on an axis, and a fan, with the droplet separator and fan blades enclosed in shells, about l and h And in order to increase the efficiency and reliability of operation, the droplet blade blades are mounted on the axle using a bearing, the drift catcher shell is made perforated cylindrical, and the distance dy shells fan and mist eliminators. is 1/101/20 of the diameter of the shells. 2. The apparatus of claim 1, wherein the drop catcher shell is provided with an air guide in the form of a truncated cone, with a smaller base adjacent to the lower edge of the shell. 3. The apparatus according to claims 1 and 2, which is based on the fact that the blades of the drop catcher and the fan have the same shape. k. A contact apparatus, predominantly a cooling tower, containing a sprinkler and a water distribution device, installed in the housing, located in the upper part of the housing, the paddle blade rigidly fixed to the axis, and the fan, and (the drop catcher blade and the valve valve are enclosed in shells, different By the fact that, in order to increase the efficiency and reliability of operation, the axis is mounted with the possibility of rotation, the drift catcher shell is perforated cylindrical, and the distance between the fan shells is Pa and drift catcher is 1 / 10-1 / 20 of the diameter of the shells. 1C 5. The apparatus according to claim 1, with the fact that the sheath of the drift catcher is equipped with an air guide in the form of a truncated cone, a smaller base adjacent to the lower edge of the shell, 6. The apparatus according to claims 4 and 5, which is the fact that the blades of the drip pan and fan have the same shape.

Description

The invention relates to the fields of energy, chemical refrigeration and agricultural engineering, and can also be used for gas purification and air conditioning dust cleaning processes. The predominant area of use is the evaporative cooling of the circulating water. A contact apparatus is known that contains a distribution and distribution grid in the housing with a layer of movable nozzle, a water distributor, a junction drift hood and a TI 3 axial fan. The drift catcher of this apparatus is characterized by a complex shape of gel plates and considerable resistance to the movement of the air flow. An axial fan creates an uneven vacuum in the cross section of the apparatus, resulting in a vortex inverse movement of air and increased drift entrainment. A contact apparatus, predominantly a cooling tower, containing an installer and a water distribution device located in the upper part of the hull of a droplet separator blade mounted on the axis, and a fan, with the droplet separator blades and the fan enclosed in the shell, are known; 2 J | . The disadvantages of such an apparatus are the complex shape of the drop catcher and the increased resistance to the movement of air flow. The purpose of the invention is to increase the efficiency and reliability of work. This goal is achieved by the fact that, in a contact apparatus containing an irrigator and water distribution device installed in the housing, placed in the upper part of the housing are the drop catcher blades mounted on the axis, and the fan, with the droplet separator blades and top valve embedded in the shells , the droplet separator blades are mounted on the axle by means of a bearing, the droplet separator shell is made perforated cylindrical, and the distance between the fan shells and the drip catcher is 1 / 10-1 / 20 of the shell diameters . The cape of the drop catcher is provided with a zodokhodoohpravlenny visor in the form of a truncated cone, the smaller base adjacent to the lower edge of the shell. The blades of the drop catcher and fan are of the same shape. In the case of a contact apparatus with a rigid attachment of the drift catcher blades on the axis, the axis is mounted rotatably. The drawing shows a contact apparatus, a longitudinal section. The contact apparatus contains an irrigator 2 installed in the housing 1 and a water distribution device 3 placed in the upper part of the housing 1 of the blade of the drip pan mounted on the axis 5, and the fan 6. The blades of the drip tray k and the fan 6 are located respectively in the shells 7 and 8 The blades C of the chamfer are mounted on the axis 5 by means of a bearing 9, the shell 7 of the drift catcher is perforated cylindrical, and the distance between the shells 7 and 8 is 1/101/20 of the diameter of the shells 7 and 8. The shell 7 of the drip catcher has on vozduYaonapravl yuschim visor 10 in the form of a truncated cone, the small base adjoining the lower edge of the sleeve 7. The vanes k drift eliminators 11 and fan blades 6 have the same shape. In the case of contacting the apparatus with a rigid attachment of the blades of the drop catcher on the axis 5, the latter is installed with the possibility of rotation. In addition, in the housing 1 there are air inlets 12, in the lower part of the pan 13 is mounted, and underneath the water distribution device 3 there is a distribution grid 14. The contact apparatus works as follows. Air through the air inlets 12 is supplied to the housing 1 under the supporting distribution grid H, then through the water distribution device 3, made in the form of a layer of movable nozzle, and the droplet separator flows to the fan 6. Water is fed through the irrigator 2 to the water distributor 3, made in the form of a movable layer nozzles, the latter coming into motion in the action of water and air. This phenomenon leads to a significant drip ash. Airborne droplets fall on the droplet separator blades rotating at a significant angular velocity (up to 1500 rpm) and are thrown onto the walls of the shell 7, from where they penetrate the walls of the housing 1 through perforations. Delayed liquid in the form of a film flows down the wall of the housing 1 Air diffuser 10 allows directing the air flow with droplet moisture into the drop catcher, and the liquid flowing out of the drop catcher is sent to the water distribution device 3. The gap between the shells 7 and 8 is no less than that. y 1/20 of the diameter of the shells. With a smaller gap, an increased amount of moisture is observed in the fan 6. The size of this gap should not be chosen greater than 1/10 of the diameter of the shells 7 and 8, since at values greater than this, a violation of the synchronous rotation of the fan blades 11 and the droplet separator blades is observed. The proposed implementation of the contact apparatus will improve the efficiency and reliability.

Claims (6)

1. A contact apparatus, mainly a cooling tower, containing a sprinkler and a water distribution device in a belt mounted in the housing, located on the top of the housing of the drip tray, mounted on an axis, and a fan, with the drip tray and fan blades enclosed in shells, which are separate I mean that, in order to increase efficiency and reliability, the droplet eliminator blades are mounted on the axis using a bearing, the droplet eliminator shell is made of perforated cylindrical, and the distance between fan and droplet eliminator, is 1/1 ΟΙ / 20 of the diameter of the shells. 2. The apparatus according to π.1, with the exception that the droplet eliminator shell is provided with an air guide visor in the form of a truncated cone, with a smaller base adjacent to the lower edge of the shell .. 3. The apparatus according to claims 2, wherein the blades of the droplet eliminator and fan have the same shape. 4. A contact apparatus, mainly a cooling tower, comprising a sprinkler and a water distribution device in a belt mounted in the upper part of the housing, droplet eliminator blades rigidly fixed on the axis, and a fan, and the droplet eliminator blades and ventrora enclosed in shells, characterized in that, in order to increase efficiency and reliability, the axis is rotatably mounted, the droplet eliminator shell is perforated cylindrical, and the distance between the fan shells and pleulovitelya is 1 / 10-1 / 20 shells diameter. 5. The apparatus according to claim 4, with the fact that the droplet eliminator shell is provided with an air guide visor in the form of a truncated cone, with a smaller base adjacent to the lower edge of the shell. 6. The apparatus according to claims 4 and 5, wherein the blades of the droplet eliminator and the fan have the same shape.