KR101662648B1 - Cooling tower assembled air-cleaner - Google Patents

Abstract

Provided is a cooling tower integrated with a deodorizer, comprising: a casing; an outdoor heat exchanger where heat of refrigerants are exchanged by using evaporative latent heat of a sprayed coolant, disposed inside the casing; a deodorizing unit disposed in the parallel to the outdoor heat exchanger inside the casing; a coolant storage tank disposed on a lower side of the outdoor heat exchanger; a deodorizer tank storing the coolant supplied from the coolant storage tank and supplying the coolant to the deodorizing unit; and a single blower unit enabling air to flow from an outdoor air inlet of the casing and the deodorizing unit to an outdoor air outlet of the casing.

Description

[0001] COOLING TOWER ASSEMBLED AIR-CLEANER [0002]

The present invention relates to a cooling tower, and more particularly, to a cooling tower having a deodorizer integrated type installed on a roof of a building to remove odor gas generated in a building at the same time as heat exchange of the cooling water.

Cooling water used in the operation of air conditioning equipment, refrigeration and refrigeration equipment must release heat to the atmosphere using a cooling medium to repeat the cycle. As a general device, a cooling tower is used, and cooling methods are roughly divided into evaporation type, air cooling type and water cooling type. Among them, the evaporation method utilizes the latent heat of evaporation of the cooling water (water), so that the cooling effect is larger and more economical than the other methods.

The evaporation type cooling tower is divided into a counterflow type cooling tower in which air flows vertically upward, cooling water flows vertically downward, and an orthogonal flow type cooling tower in which air flows in a horizontal direction and cooling water flows in a vertical direction. Inside the cooling tower, an air blowing device is provided for improving the cooling efficiency of the cooling water by smoothly flowing the air.

On the other hand, odorous gas contaminated by various pollutants is present in a room or the like of a building or the like where a cooling tower is installed. For example, odorous gas is generated in the kitchen by food cooking or the like, or in contaminated water in a septic tank which is collected and stored.

However, if such odor gas is released into the atmosphere, it may cause air pollution. Therefore, in order to harmonize with the residential environment, a deodorizing facility for removing the odor contained in odor gas is installed in the building.

The principle of the deodorization facility is divided into a wet type in which odor gas is sprayed with a liquid mixed with a chemical containing deodorant component to remove odor gas, and a dry type in which no spraying process is included. However, in any of the methods, the deodorizing apparatus is provided with a blowing device for discharging the odor-removed air to the atmosphere by deodorization.

Therefore, in addition to the cooling tower, deodorizing facilities are separately provided on the roof of the building. However, since the cooling tower and the deodorizing apparatus are separated and installed and operated independently, two blowing apparatuses having the same functions described above are installed.

However, when two blowing units are installed separately, there is a problem that the consumption of electric energy is large, the cost of the product itself is increased, the cost for installation is increased, and the occupied space area is increased. In addition, since the deodorizing system of the wet deodorization method needs to supply water separately from the outside in order to spray water, there is a problem such as an increase in water consumption and addition of facilities for such.

Korean Registered Patent No. 10-1082792 (Registered on November 7, 2011)

The embodiments of the present invention have been made to solve the above-mentioned problems, and it is an object of the present invention to provide a cooling tower and a deodorizing equipment which can share some overlapping configurations of the cooling tower and deodorizing equipment, minimize the occupied area when recycling water resources, .

Specifically, there is a need to provide a deodorizer integrated cooling tower capable of reducing electric energy by incorporating a cooling tower and a deodorizing facility into a single casing. In addition, the cooling water used in the cooling tower is recycled as a water supply source for the deodorizing system of the wet deodorization type to save water resources.

In order to solve the above-described problems, A heat exchanger disposed in the casing and discharging the heat of cooling water to the atmosphere; A deodorizing unit disposed in the casing in a horizontal direction with the heat exchanger; A cooling water storage tank disposed below the heat exchanger; A water tank for storing the cooling water supplied from the cooling water storage tank and supplying cooling water to the deodorization unit; And a single common air blowing unit for forming the direction of the air flow to the outside air inlet of the casing and the outside air outlet of the casing in the deodorizing unit.

The deodorizing unit may be arranged in series or in parallel with the heat exchanger.

The deodorizing unit includes a deodorizing unit formed at the same height as the heat exchanger; An exhaust duct for collecting odor gas generated in the room and injecting the odor gas to the deodorizer; A damper disposed in the exhaust duct and having an opening angle varying; And a spray unit for spraying coolant supplied from the deodorizer water tank to the deodorizer.

The deodorizer water tank is disposed adjacent to the cooling water storage tank, and the height of the deodorizer water tank is lower than the height of the cooling water storage tank, so that a step can be formed.

A weir may be formed on the side surface of the cooling water storage tank so that cooling water exceeding a predetermined level may be dropped into the water tank for the deodorizer.

One end of a supply pipe to which cooling water provided from the outside of the casing is supplied may be connected to the deodorizer water tank.

An auxiliary pipe through which the cooling water of the cooling water storage tank is supplied may be disposed between the cooling water storage tank and the spray unit.

Wherein the common air blowing unit is disposed at the outside air inlet or outside air outlet, the common air blowing unit comprising: a motor; A dustproof unit disposed below the motor; And a fan unit rotatably coupled to the motor, wherein the motor variably controls the shaft rotation speed according to the operation of each of the heat exchanger and the deodorization unit, the cooling water temperature, and the opening angle of the damper And a controller for the motor.

As described above, according to the present invention, various effects including the following can be expected. However, the present invention does not necessarily achieve the following effects.

It is possible to share some overlapping configurations of cooling towers and deodorization facilities and minimize the occupied area of water resources when they are placed on the roof of a building.

That is, the cooling tower and the deodorizing equipment can be merged into a single casing to save electric energy. In addition, it is possible to save water resources by recycling the cooling water used in the cooling tower as a water source for the deodorization system of the wet deodorization type.

1 is a schematic view of a deodorizer integrated cooling tower according to an embodiment of the present invention;
Figure 2 is a perspective view of A of Figure 1;
Fig. 3 is a schematic side view of the air blowing unit of Fig. 1
4 is a schematic plan view of a deodorizer integrated cooling tower according to another embodiment of the present invention

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic view of a deodorizer integrated cooling tower according to an embodiment of the present invention, FIG. 2 is a perspective view of FIG. 1 A, and FIG. 3 is a schematic side view of the common air blowing unit 60 of FIG.

1 to 3, the deodorizer integrated cooling tower includes a casing 10, a heat exchanger 20, a cooling water storage tank 40, a deodorizing unit 30, a deodorizer water tank 50, and a common air blowing unit 60, . That is, the main casing of the deodorizer capable of removing the odor gas and the cooling medium in which the heat exchange of the cooling water is performed is accommodated together in the single casing (10).

The casing 10 is formed of a rigid metal material, and the arrangement shape of the casing 10 differs depending on the type of the cooling tower. For example, as shown in Fig. 1, the orthogonal flow type cooling tower has a rectangular parallelepiped shape formed long in the horizontal direction.

The casing 10, which is mainly installed outdoors, is provided with an external cover capable of soundproofing in consideration of weather changes, prevention of inflow of dust due to air pollution, and noise due to operation of a cooling tower integrated with a deodorizer Can be installed.

An outer air inlet is formed at one end of the casing 10, and an outer air outlet is formed at the other end. For example, the outside air inlet and outlet may be formed in a plurality of punch shapes formed on the side surface of the casing 10. [

Next, the heat exchanger 20 is a part where heat exchange of the cooling water is performed, through which the cooling water can be cooled by releasing its own heat into the air. That is, the heat exchanger has the form of a direct contact type or indirect contact type heat exchanger.

Specifically, the heat exchanger 20 may be formed in such a manner that a plurality of thin plate-shaped filling plates are stacked vertically to increase the heat radiation area. As a result, the cooling water comes into contact with the outside air passing in the horizontal direction, and at the same time, it comes into contact with the surface and is cooled.

The cooling tower according to an embodiment of the present invention is an evaporation type cooling tower, and at least one nozzle hole for spraying cooling water around the heat exchanger 20 is disposed. Further, at one side of the heat exchanger 20, an eliminator may be further provided to prevent the scattering of the cooling water to minimize the consumption amount of the cooling water.

That is, the heat exchanger 20 allows the cooling water to be heat-exchanged by the latent heat of vaporization of the cooling water disposed in the single casing 10.

Next, the deodorizing unit 30 according to one embodiment is disposed in the casing 10, and is arranged to be positioned in the horizontal direction, i.e., the same end (layer) of the heat exchanger 20. [ In particular, the deodorizing unit 30 is preferably arranged in series or in parallel with the heat exchanger 20. [ Referring to FIG. 1, the deodorizing unit 30 is disposed in series with the heat exchanger 20.

On the other hand, a partition wall may be further formed between the heat exchanger 20 and the deodorizing unit 30. The partition may be formed with a plurality of through holes or a single opening having a predetermined size. As a result, the airflow can flow through the outside air inlet of the casing 10, pass through the partition wall through the heat exchanger 20, and then out through the deodorizing unit 30 to the outside air outlet through the common air blowing unit 60 .

The deodorizing unit 30 specifically includes a deodorizing unit 32, an exhaust duct 34, a damper 36, and a spray unit 38. Here, the deodorizing unit 32 indicates a part of the space having the same height as the installation position of the heat exchanger 20. [ The deodorization unit 32 is a space where the deodorization process of the odor gas proceeds.

The exhaust duct 34 is a pipe for collecting odor gas generated in a room or a septic tank of a building, collecting the odor gas, and then moving the odor gas to the deodorizer 32. That is, one end of the exhaust duct 34 is connected to the deodorization section 32. On the other hand, the main pipe of the exhaust duct 34 is formed with a branch pipe connected to each pollution source which generates odor gas in the middle.

The damper 36 is disposed in the exhaust duct 34 and adjusts the moving speed of the odor gas through the variable opening angle. That is, the damper 36 can control the air flow rate of the odor gas by changing the opening area of the exhaust duct 34.

Then, the spray unit 38 sprays cooling water to the deodorization unit 32. [ Specifically, the spray unit 38 can inject the cooling water in three dimensions through the vertical injection nozzle holes and the horizontal injection nozzle holes, which are formed in a plurality of 'A' tubes.

At this time, the cooling water is supplied from the deodorizer water tank 50 through a pump or the like. As a result, the odor gas generated in the indoor room of the building can be removed by the cooling water that is sprinkled. On the other hand, the spray unit 38 can further be connected to a pipe for supplying chemicals for increasing the deodorizing effect.

Next, the cooling water storage tank 40 is disposed below the heat exchanger 20. This serves to receive cooling water that flows toward the heat exchanger 20. The deodorizer water tank 50 stores the cooling water supplied from the cooling water storage tank 40 and supplies it to the deodorization unit 30. [

The coolant storage tank 40 and the deodorizer water tank 50 according to the embodiment are disposed adjacent to each other. At this time, the deodorizer water tank 50 is lower than the height of the cooling water storage tank 40, so that a step is formed between the cooling water storage tank 40 and the deodorizer water tank 50.

As a result, the cooling water can flow from the cooling water storage tank 40 to the deodorizer water tank 50 by natural dropping. Accordingly, since the deodorizer integrated cooling tower can recycle the cooling water for cooling the refrigerant and use it as a water supply source for the deodorizer for wet deodorization, water resources can be saved.

On the other hand, a weir 52 is formed on the side surface of the cooling water storage tank 40. For example, the weir 52 may be formed in a V-shape. However, the present invention is not limited thereto, and a weir having a different shape may be formed through a design change.

Cooling water that flows toward the heat exchanger 20 is dripped and stored in the cooling water storage tank 40. Then, as the cooling process is repeated, the water level of the coolant storage tank 40 gradually increases. When the water level exceeds a certain level, the cooling water overflows through the weir 52 and moves to the adjacent water tank 50 for the deodorizer.

However, the cooling water storage tank 40 is further connected to a separate discharge pipe for discharging the cooling water to be dumped and stored. Between the cooling water storage tank 40 and the spray unit 38, an auxiliary pipe 84 to which the cooling water of the cooling water storage tank 40 is directly supplied may be disposed. As a result, the deodorizing unit (30) can recycle the cooling water stored in the cooling water storage tank (40).

On the other hand, one end of the supply pipe 82 into which the cooling water provided from the outside of the casing 10 flows is further connected to the water tank 50 for the deodorizer. This is because the recycling of the cooling water described above must precede the heat exchange through the heat exchanger 20. Further, since cooling through the heat exchanger 20 can be limited to a specific period by seasonal factors, deodorization through the deodorizing unit 30 can be carried out at any time regardless of the season.

Therefore, if the amount of the cooling water stored in the cooling water storage tank 40 is insufficient, the water tank 50 for the deodorizer is additionally supplied with the cooling water through the supply pipe 82.

A main pipe connected to the spray unit 38 is connected to the deodorizer water tank 50. The cooling water is supplied to the spray unit 38 by a pump installed in the main pipe and sprinkled toward the deodorizing unit 32.

The common air blowing unit 60 allows the direction of the airflow to be formed from the outside air inlet of the single casing 10 toward the outside air outlet. As a result, the outside air can flow smoothly into the outside air inlet. At the same time, the common air blowing unit 60 according to the embodiment allows the direction of the airflow to be formed at the outside air outlet of the casing 10 at the deodorizing portion 32 of the deodorizing unit 30. [

That is, the flow of the airflow for the heat exchanger 20 and the deodorizing unit 30 can be smoothly formed by using the single common air blowing unit 60. As a result, it is possible to reduce the number of common air blowing units 60, which have conventionally been separately used, and to reduce the consumption of electric energy. However, the common air blowing unit 60 may be formed at any one of the outside air inlet and the outside air outlet of the casing 10 to smooth the flow of the airflow.

Specifically, the common air blowing unit 60 includes a motor 64, a dustproof unit 67, and a fan unit 66. The dustproof unit 67 is disposed below the motor 64 and minimizes the vibration transmitted to the motor 64 or transmitted to the motor 64. As a result, the durability of the motor 64 can be improved and the noise generation can be reduced. The fan unit 66 is directly or indirectly coupled to the motor 64 and rotates. Meanwhile, the fan unit 66 includes a plurality of blades.

The common air blowing unit 60 can adjust the flow rate of the airflow by varying the shaft rotation speed of the motor 64. [ That is, the flow rate of the airflow can be controlled. To this end, the motor 64 further includes a control unit 68 for the motor.

The motor control unit 68 variably controls the shaft rotation speed in consideration of the operation of each of the heat exchanger 20 and the deodorization unit 30, the cooling water temperature, and the opening angle of the damper 36. Further, the control unit for the motor can variably control the shaft rotation speed using the information about the ambient temperature. Here, the outdoor air temperature can be measured from a temperature sensor 62 provided on the outer surface of the casing 10. [

For example, when only the deodorizing unit 30 is operated, the motor control unit 68 primarily reflects this, and can appropriately control the shaft rotation speed by reflecting the opening angle of the damper 36 in a second order . For this purpose, the motor control unit 68 may store the mapping value to which the shaft rotational speed is mapped according to the combination of the respective conditions. As a result, the common air blowing unit 60 can effectively drive the motor 64, further saving electric energy.

4 is a schematic plan view of a deodorizer integrated cooling tower according to another embodiment of the present invention. Referring to FIG. 4, the deodorizer integrated cooling tower according to another embodiment of the present invention includes the deodorizer and cooling tower portions arranged in parallel. Therefore, the same reference numerals will be used for the same components in the following description.

Specifically, the heat exchanger 20 and the deodorizing unit 30 are arranged in parallel with respect to the flow direction of the outside air. At this time, the outside air inlet of the casing 10 is formed on the front panel on which the heat exchanger 20 is disposed, that is, the portion where the cooling tower related configuration is disposed. However, the outside air outlet is formed at the middle portion of the rear panel of the casing 10 so as to discharge not only the outside air flowing through the outside air inlet but also the odor gas injected to the deodorizing portion 32. It is preferable that the common air blowing unit (60) is disposed immediately in front of the outside air outlet of the inside of the casing (10). On the other hand, a partition may be formed between the heat exchanger 20 and the deodorizing unit 30.

As a result, the airflow can be introduced through the outside air inlet of the casing 10 and out through the common blower unit 60 through the heat exchanger 20 to the outside air outlet. At this time, another air flow can be started from the deodorizing unit 32 and can flow out to the outside air outlet through the common air blowing unit 60. That is, unlike the tandem arrangement, the air flows having two bifurcations flow out into the atmosphere through a single common air blowing unit (60). At this time, the structure in which the deodorizer water tank 50 is disposed adjacent to the cooling water storage tank 40 in order to recycle the cooling water is the same as described above.

Alternatively, the common air blowing unit 60 may be constituted by a pair of common air blowing units of a smaller size and a smaller size. At this time, each of the common air blowing units (60) is located in front of the heat exchanger (20) and the deodorizing unit (30).

As described above, the deodorizing unit 30 is disposed adjacent to the heat exchanger 20 in the single casing 10, and when the single deodorizing unit 30 is installed on the roof of the building by sharing a single common air blowing unit 60 The occupied area can be reduced.

And, according to another embodiment, the deodorization unit 30 may be dry. At this time, the deodorizing unit 30 does not use water. Therefore, the deodorizing unit 30 does not need the deodorizer water tank 50. That is, the cooling water can not be recycled. However, even in such a case, since the single common blower unit 60 can be used by disposing the deodorizing unit 30 in series with the heat exchanger 20, it is possible to obtain a cost saving effect such as electric energy.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

10: casing 20: heat exchanger
30: Deodorizing unit 40: Cooling water storage tank
50: Water tank for deodorizer 60: Common air blowing unit
32: deodorizer 34: exhaust duct
36: damper 38: spray unit
52: Weir 62: Temperature sensor
64: motor 66: fan section
68: Motor control unit 82: Supply piping
84: auxiliary piping 67: dustproof unit

Claims (8)

Casing;
A heat exchanger disposed in the casing and discharging the heat of cooling water to the atmosphere;
A deodorizing unit disposed in the casing in a horizontal direction with the heat exchanger;
A cooling water storage tank disposed below the heat exchanger;
A water tank for storing the cooling water supplied from the cooling water storage tank and supplying cooling water to the deodorization unit; And
And a single common air blowing unit for forming the direction of the airflow from the outside air inlet of the casing and the outside air outlet of the casing in the deodorizing unit,
The deodorizing unit includes a deodorizing unit formed at the same height as the heat exchanger;
An exhaust duct for collecting odor gas generated in the room and injecting the odor gas to the deodorizer;
A damper disposed in the exhaust duct and having an opening angle varying; And
And a spray unit for spraying coolant supplied from the deodorizer water tank to the deodorizer,
Wherein the common air blowing unit is disposed at the outside air inlet or outside air outlet,
In the common air blowing unit,
motor;
A dustproof unit disposed below the motor; And
And a fan unit coupled to the motor and rotating,
Wherein the motor further comprises a motor control unit for variably controlling the shaft rotation speed according to the operation state of each of the heat exchanger and the deodorization unit, the cooling water temperature, and the opening angle of the damper.
The method according to claim 1,
Wherein the deodorizing unit is disposed in series or in parallel with the heat exchanger.
delete The method according to claim 1,
The deodorant water tank is disposed adjacent to the cooling water storage tank,
Wherein the height of the water tank for the deodorizer is lower than the height of the cooling water storage tank to form a step.
The method according to claim 1,
And a weir is formed on a side surface of the cooling water storage tank so that cooling water exceeding a predetermined level is allowed to fall into the water tank for the deodorizer.
The method according to claim 1,
Wherein one end of a supply pipe to which cooling water provided from the outside of the casing is connected is connected to the deodorizer water tank.
The method according to claim 1,
And an auxiliary pipe through which cooling water of the cooling water storage tank is supplied between the cooling water storage tank and the spray unit. delete

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