CN210441689U - Intelligent control cooling tower - Google Patents

Abstract

The utility model relates to a cooling tower circulating water treatment technical field especially relates to an intelligent control's cooling tower, including the intake antrum on upper portion, the cooling chamber of lower part and the heat dissipation chamber that is located the cooling chamber lateral part, the top of intake antrum is equipped with the circulating water import, the opposite side that the cooling chamber is located the heat dissipation chamber is equipped with a plurality of wind gaps, the bottom in cold district chamber is equipped with the circulating water export, the heat dissipation chamber is equipped with the thermovent. The utility model discharges hot air in the cooling tower in time through the reasonable arrangement of the fans and the use of the heat dissipation cavity, thereby having high cooling efficiency and good cooling effect; the air port is properly opened and closed by the controller, so that the condition of energy surplus is avoided, and the electric energy is greatly saved.

Description

Intelligent control cooling tower

Technical Field

The utility model relates to a cooling tower circulating water treatment technical field especially relates to an intelligent control's cooling tower.

Background

As is well known, cooling towers are used in many fields, and the cooling towers are diversified in style, and high-temperature gas is generated inside the cooling tower when the cooling tower is used, so that the temperature of the cooling tower is increased, the cooling effect is obviously reduced, the working capacity of the cooling tower is finally lost, and the stability and the safety of production are affected. Meanwhile, many existing cooling towers are not subjected to energy-saving transformation, and operate under a power frequency condition all the time no matter whether the air temperature and the heat dissipation requirements are changed or not, so that no end waste of electric energy is caused. Patent application No. CN200820033413.X proposes a "no fan energy-saving cooling tower", does not use the fan to convulsions, but relies on its self structure to carry out natural convulsions formula cooling, and its operation energy consumption greatly reduced than conventional mechanical cooling tower, has practiced thrift manufacturing cost, but the water droplet of this cooling tower falls again after going upward cooling, and in the course of going down, easy and other steam and steam carry out the heat exchange, lead to secondary heating.

SUMMERY OF THE UTILITY MODEL

To above problem, the utility model provides an intelligent control's cooling tower can in time effectually detach the inside high-temperature gas of cooling tower, avoids the secondary heating, and the cooling effect is obvious, simultaneously, to the temperature and the water yield of different circulating water, in time adjusts the fan operation, great saving the running cost.

To achieve the above object, the present invention is achieved by: the utility model provides an intelligent control's cooling tower, includes the intake antrum on upper portion, the cooling chamber of lower part and the heat dissipation chamber that is located the cooling chamber lateral part, the top of intake antrum is equipped with the circulating water import, the opposite side that the cooling chamber is located the heat dissipation chamber is equipped with a plurality of wind gaps, the bottom in cold district chamber is equipped with the circulating water export, the heat dissipation chamber is equipped with the thermovent.

Circulating water enters from a circulating water inlet at the top end of the cooling tower and falls to the cooling cavity through gravity, the falling circulating water is cooled by blowing air from the air port and simultaneously brought into the heat dissipation cavity, the circulating water is cooled and then discharged through a circulating water outlet, and hot air is discharged from a heat dissipation port of the heat dissipation cavity to utilize waste heat.

Preferably, the water inlet cavity and the cooling cavity are isolated by a perforated plate, the cooling cavity and the heat dissipation cavity are isolated by a filter screen, the perforated plate can separate circulating water into more fine water flows, the contact area of the circulating water and cooling air is increased, and the cooling effect is greatly improved; the filter screen can reduce on the one hand that the circulating water is taken to the heat dissipation chamber by the cooling air, forms the one-way water film of one deck easily on the surface of filter screen in addition, avoids the steam in heat dissipation chamber to run back to the cooling chamber.

Preferably, circulating water export and circulating water entry all are equipped with temperature sensor, can in time know the condensation effect of cooling tower.

Preferably, the number of the air ports is at least 6, the air ports are respectively provided with a switch, and the air ports are sequentially arranged along the vertical direction of the cooling tower, so that the cooling effect is maximized.

Preferably, the temperature sensor and the air opening are connected with the controller, the temperature sensor feeds the circulating cooling condition back to the controller, and the controller appropriately opens or closes the air openings according to the cooling effect, so that the condition of excessive cooling energy is avoided, and energy is saved.

Preferably, the water inlet cavity is filled with a cooling tower filler, so that the path of circulating water is increased, the cooling time of the circulating water is prolonged, the cooling area of the circulating water is increased, and the cooling efficiency is improved.

Further preferably, the cooling tower filler is a PVC honeycomb filler, the suitable temperature range is wide, the ventilation resistance is small, the contact area is large, and the cooling efficiency is high.

Preferably, both sides of the circulating water inlet are respectively provided with a fixed fan, so that the cooling effect of the circulating water on the cross section is improved.

Further preferred, the top of intake antrum is equipped with the gas outlet, and when fixed fan carried out the forced air cooling to the circulating water, most steam can emit toward cooling tower upper portion, set up the gas outlet and discharge steam, avoided the inside high temperature of cooling tower to influence the cooling effect.

The utility model discloses a priority lies in:

(1) the utility model discloses a rational arrangement of fan and the use in heat dissipation chamber, the steam in the cooling tower of in time discharging, cooling efficiency is high, and the cooling effect is good.

(2) The utility model discloses set up temperature sensor in circulating water import and circulating water export, in time feed back the circulating water cooling effect, when the cooling effect has satisfied completely, utilize the appropriate amount of controller to close partial wind gap, avoid appearing the condition of energy surplus, great saving the electric energy.

Drawings

FIG. 1 is a schematic structural view of the utility model;

FIG. 2 is a schematic flow chart of the present invention;

FIG. 3 is a top view of the perforated plate;

1-water inlet cavity, 101-circulating water inlet, 102-fixed fan, 103-air outlet, 2-cooling cavity, 201-air port, 202-circulating water outlet, 3-heat dissipation cavity, 301-heat dissipation port, 4-perforated plate and 5-filter screen.

Detailed Description

The specific implementation method is only for explaining the present invention, and is not a limitation of the present invention. Any changes that may be made by one skilled in the art after reading the specification of the invention are, within the scope of the claims, protected by the patent laws.

Example (b):

as shown in the attached figures 1, 2 and 3, an intelligent control cooling tower comprises an upper water inlet cavity 1, a lower cooling cavity 2 and a heat dissipation cavity 3 located at the side of the cooling cavity 2, wherein the water inlet cavity 1 and the cooling cavity 2 are isolated by a porous plate 4, the cooling cavity 2 and the heat dissipation cavity 3 are isolated by a filter screen 5, a circulating water inlet 101 is arranged at the top end of the water inlet cavity 1, two sides of the circulating water inlet 101 are respectively provided with a fixed fan 102, an air outlet 103 is also arranged at the edge of the fixed fan 102, the cooling cavity 2 is provided with at least 6 air ports 201 at the opposite side of the heat dissipation cavity 3, the air ports 201 are respectively provided with a fan and a switch (not shown in the figure) capable of independently controlling the fan to be opened and closed, a circulating water outlet 202 is arranged at the bottom of the cooling cavity 2, the heat dissipation cavity 3 is provided with a heat dissipation port 301, the temperature sensor and the switch of the air port 201 are both connected with the controller.

The utility model discloses a work flow does: circulating water enters from a circulating water inlet 101, is dispersed into a plurality of water flows through the porous plate 4, the fixed fan 102 cools the circulating water preliminarily, partial heat is taken away, and hot air in the water inlet cavity 1 is released from the air outlet 103. Circulating water enters the cooling cavity 2, is cooled by cooling air blown out from the air opening 201 and then is discharged from the circulating water outlet 202, and hot air in the cooling cavity 2 is taken to the heat dissipation cavity 3 and then is discharged from the heat dissipation opening 301. Temperature signals are transmitted to the controller by the temperature sensors of the circulating water inlet 101 and the circulating water outlet 202 at any time, and when the temperature of the circulating water outlet 202 reaches the standard, the controller can close the air port 201 in a proper amount, so that energy is saved; and when the temperature of the circulating water inlet 101 is higher and the temperature of the circulating water outlet 202 is higher, the controller can open more air ports 201 for cooling, and the intelligent energy-saving effect is achieved.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. An intelligent control cooling tower, characterized in that: including intake chamber on upper portion, the communicating cooling chamber of lower part and intake chamber and be located the heat dissipation chamber of cooling chamber lateral part, the top of intake chamber is equipped with the circulating water import, the opposite side that the cooling chamber is located the heat dissipation chamber is equipped with a plurality of wind gaps, wind gap department is provided with the fan, the bottom in cooling chamber is equipped with the circulating water export, the heat dissipation chamber is equipped with the thermovent.

2. A intelligently controlled cooling tower as in claim 1, wherein: the water inlet cavity is isolated from the cooling cavity through a perforated plate, and the cooling cavity is isolated from the heat dissipation cavity through a filter screen.

3. A intelligently controlled cooling tower as in claim 1, wherein: and the circulating water outlet and the circulating water inlet are both provided with temperature sensors.

4. A intelligently controlled cooling tower as in claim 3, wherein: the wind gap is equipped with 6 at least, wind gap department is equipped with the control respectively the switch that the fan opened and closed.

5. A intelligently controlled cooling tower as in claim 4 wherein: the temperature sensor and the switch are both connected with a controller.

6. A intelligently controlled cooling tower as in claim 1, wherein: and the water inlet cavity is filled with cooling tower filler.

7. A intelligently controlled cooling tower according to claim 6, wherein: the cooling tower filler is PVC honeycomb filler.

8. A intelligently controlled cooling tower as in claim 1, wherein: and fixed fans are respectively arranged on two sides of the circulating water inlet.

9. A intelligently controlled cooling tower as in claim 7, wherein: and the top of the water inlet cavity is provided with a gas outlet.

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