CN-121977367-A - Fog-dissipating water-saving cooling tower

Abstract

The invention discloses a fog-dissipating water-saving cooling tower which comprises a cooling tower body, a cleaning spraying mechanism, a positioning adjusting mechanism and a displacement mechanism, wherein a heat exchange module is arranged in the cooling tower body, and the cleaning spraying mechanism comprises a cleaning pressure component arranged on the upper side of the heat exchange module and a cleaning accommodating component arranged on the cooling tower body. According to the defogging water-saving cooling tower, through the arrangement of the corresponding mechanism, the diamond-shaped heat exchange plates in the defogging water-saving cooling tower can be regularly cleaned, dust and catkin in the air and the adhesion of microorganisms in circulating water to the surfaces of the diamond-shaped heat exchange plates are reduced, the blocking probability of a biological slime and mould hypha mixture to a channel is reduced, the heat exchange efficiency of hot and humid air and dry and cold air is stabilized, the resistance to air flow is reduced, the energy consumption of a fan is reduced, the condensation efficiency is further improved, the moisture content of discharged air is reduced, and the water saving rate is improved.

Inventors

• XIE MINGWEN

Assignees

• 厦门市杏林双全玻璃钢有限公司

Dates

Publication Date

20260505

Application Date

20260206

Claims (10)

1. 1. A defogging water conservation cooling tower, characterized by comprising: the cooling tower comprises a cooling tower body, wherein a heat exchange module is arranged in the cooling tower body; the cleaning spraying mechanism comprises a cleaning pressure component arranged on the upper side of the heat exchange module and a cleaning accommodating component arranged on the cooling tower body; The positioning and adjusting mechanism comprises a spraying assembly arranged at the lower side of the cleaning pressure assembly, a spraying control assembly arranged at the lower side of the cleaning pressure assembly and a spraying power assembly arranged at one side of the spraying assembly; The displacement mechanism is arranged on one side of the cooling tower body and comprises a synchronous assembly, a supporting assembly and a displacement power assembly.
2. 2. The mist-elimination water-saving cooling tower according to claim 1, wherein the heat exchange module is composed of a plurality of diamond heat exchange tubes, the plurality of diamond heat exchange tubes are uniformly distributed along the horizontal direction, the spray assemblies are provided in a plurality, and the plurality of spray assemblies are arranged between two adjacent diamond heat exchange tubes in a one-to-one correspondence.
3. 3. The defogging water-saving cooling tower of claim 1, wherein the cleaning pressure assembly comprises: the cleaning pressure bin is arranged on the upper side of the heat exchange module; the cleaning pressure plate is arranged in the cleaning pressure bin in a sliding manner; the cleaning support rods are arranged in the cleaning pressure bin and penetrate through the cleaning pressure plate; and the cleaning pressure spring is sleeved on the cleaning support rod and arranged on the upper side of the cleaning pressure plate.
4. 4. A defogging water conservation cooling tower according to claim 3 wherein the wash containment assembly comprises: the cleaning accommodating bin is arranged on the cooling tower body; the cleaning accommodating supporting tube is arranged in the cleaning pressure bin and penetrates through the cleaning pressure bin and the cleaning pressure plate; the cleaning accommodating hose is arranged between the cleaning accommodating supporting tube and the cleaning accommodating bin and penetrates through the cooling tower body and the cleaning accommodating bin; the cleaning and containing water pump is arranged in the cleaning and containing bin and is fixedly connected with the cleaning and containing hose.
5. 5. A defogging water conservation cooling tower according to claim 3 wherein the spray assembly comprises: The spraying bin is arranged at the lower side of the cleaning pressure bin; the pair of spraying support nets are arranged at the lower side of the spraying bin; the spray supporting rod is arranged on the upper side of the spray bin; And the spray positioning seats are rotatably arranged on two sides of the spray supporting rods and are fixedly connected with the cleaning pressure bin.
6. 6. The defogging water-saving cooling tower of claim 5, wherein the spray control assembly comprises: The spray control valve is arranged at the lower side of the cleaning pressure bin and penetrates through the cleaning pressure bin; the spraying control hose is arranged between the spraying control valve and the spraying bin and penetrates through the spraying bin.
7. 7. The defogging water-saving cooling tower of claim 6, wherein the spray power assembly comprises: the spraying power motor is arranged at one side of the spraying bin; The spray driving wheels are respectively arranged on one side of the spray control valve and the spray supporting rod; the spraying driving belt is arranged between the pair of spraying driving wheels.
8. 8. The defogging water-saving cooling tower of claim 1, wherein the synchronization assembly comprises: the synchronous positioning bin is arranged on one side of the cooling tower body; the synchronous installation rod is arranged in the synchronous positioning bin; and the pair of synchronous bevel gears are arranged at two ends of the synchronous mounting rod.
9. 9. The defogging water-saving cooling tower of claim 8, wherein the support assembly comprises: the pair of supporting threaded rods are rotatably arranged in the cooling tower body and penetrate through the cooling tower body and the synchronous positioning bin; The support thread block is arranged on the support threaded rod, matched with the support threaded rod and fixedly connected with the cleaning pressure bin; and the support bevel gear is arranged at one end of the support threaded rod and meshed with the synchronous bevel gear.
10. 10. The defogging water-saving cooling tower of claim 9, wherein the displacement power assembly comprises: the displacement power motor is arranged on the synchronous positioning bin; a pair of alignment moving force synchronous wheels which are respectively arranged on one side of the displacement power motor and the synchronous mounting rod; The displacement power synchronous belt is arranged between the pair of displacement power synchronous wheels and penetrates through the synchronous positioning bin.

Description

Fog-dissipating water-saving cooling tower Technical Field The invention belongs to the technical field of cooling towers, and particularly relates to a fog-dissipating water-saving cooling tower. Background The cooling tower is core heat dissipation equipment in industrial production and civil buildings, utilizes direct or indirect contact of water and air, radiates heat in circulating water to the atmosphere through evaporative heat dissipation and convective heat exchange, and realizes the cooling of the circulating water, and is widely applied to systems needing circulating cooling. The defogging water-saving cooling tower is an energy-saving and consumption-reducing product which is upgraded on the basis of the traditional cooling tower, and the defogging water-saving cooling tower and the cooling tower are related and different in principle, structure and function, and the defogging water-saving cooling tower realizes dual targets of defogging and water saving on the basis of keeping the original cooling function by adding a special heat exchange module and an intelligent control assembly, so that the defogging water-saving cooling tower is a mainstream choice for current industrial water-saving transformation. The working flow of the defogging water-saving cooling tower is based on the traditional cooling tower, two key steps of condensation recovery and mixed dilution are added, the condensation recovery and mixed dilution are consistent with the traditional cooling tower in a basic heat exchange stage, then, wet hot air ascends through a special heat exchange module (such as a diamond heat exchange plate and a double-channel heat exchange structure) to indirectly exchange heat with dry cold air introduced from the outside, water vapor in the wet hot air is condensed into liquid water when encountering cold, the liquid water flows back to a water collecting basin, water resource recovery is realized, the condensed low-moisture air is fully mixed with the dry hot air heated after heat exchange, the relative humidity of the air is further reduced, and visible white fog can not be formed when the wet hot air is finally discharged out of the tower. At present, cold air is introduced into the fog-dissipating water-saving cooling tower and mixed with hot water therein, the temperature is reduced to be secondary hot water, warm air continuously rises and contacts with the diamond-shaped heat exchange plates, the temperature is reduced again to form unsaturated tower outlet air, in the process, the diamond-shaped heat exchange plates can contact with humid air at any time, dust and catkin in the air and microorganisms in circulating water are difficult to clean by the fog-dissipating water-saving cooling tower at present, the microorganisms are easy to adhere to the surfaces of the diamond-shaped heat exchange plates to form a mixture of biological slime and mold hypha, a channel is gradually blocked, the heat exchange efficiency of the humid air and the dry and cold air is reduced, the air flow resistance is increased easily when the channel is blocked, the energy consumption of a fan is increased, the condensation efficiency is reduced, the moisture content of discharged air is increased, and the water saving rate is greatly reduced. Therefore, in view of the above technical problems, it is necessary to provide a mist-eliminating water-saving cooling tower. The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art. Disclosure of Invention The invention aims to provide a defogging water-saving cooling tower, which can solve the problems that the defogging water-saving cooling tower in the current stage is difficult to clean diamond heat exchange plates in the defogging water-saving cooling tower, the heat exchange efficiency of hot and humid air and dry and cold air is reduced, the moisture content of discharged air is increased, and the water-saving rate is greatly reduced. In order to achieve the above object, a specific embodiment of the present invention provides the following technical solution: A fog-dissipating water-saving cooling tower comprises a cooling tower body, a cleaning spraying mechanism, a positioning adjusting mechanism and a displacement mechanism. The cooling tower comprises a cooling tower body, a cleaning spray mechanism, a positioning and adjusting mechanism and a displacement mechanism, wherein a heat exchange module is arranged in the cooling tower body, the cleaning spray mechanism comprises a cleaning pressure assembly arranged on the upper side of the heat exchange module and a cleaning accommodating assembly arranged on the cooling tower body, the positioning and adjusting mechanism comprises a spray assembly arranged on the lower s