KR101867072B1 - cooling tower - Google Patents

Abstract

The present invention relates to a cooling tower capable of surely preventing cooling water from being scattered to the outside through an exhaust port and easily installing the cooling tower in a room with a reduced height. The present invention provides a cooling tower having an exhaust port (502) A casing 504; The partition wall 512 is vertically installed on one side of the casing 504 and divides the inside of the casing into a first compartment 506 and a second compartment 508 and has a through hole 510 at a lower side thereof. and; A blower 514 fixed to a bottom surface of the first compartment 506 and supplying air into the second compartment 508 through a through hole 510 of the compartment 512; A cooling water spraying tube 516 having an injection nozzle installed at an upper side of the second compartment 508 to discharge the recovered high temperature cooling water; A filler 518 sloped at a predetermined distance from the cooling water injection pipe 516 at a central portion of the second compartment 508 to cool the high temperature cooling water injected from the cooling water injection pipe 116; A water collecting tank 520 horizontally installed at a lower side of the second compartment 508 at a predetermined interval from the filling material 518 to collect cooling water dropped from the filling material 518; The cooling water is injected into the second compartment 508 at a predetermined distance from the cooling water injection pipe 516 so that the cooling water can not be scattered to the outside through the exhaust port 502 of the casing 504, And an eliminator 522 for discharging the exhaust gas to the exhaust port 502.

Description

Cooling tower {cooling tower}

The present invention relates to a cooling tower, and more particularly, to a cooling tower capable of reliably preventing cooling water from being scattered to the outside through an exhaust port and reducing the height of the cooling water to be easily installed in the room.

Generally, a cooling tower is used not only for a cooling system for cooling in a hospital or a building but also a cooling water supply system which is used in an air conditioner in a factory or the like.

There is a counterflow type cooling tower in the cooling tower.

Here, the counterflow type cooling tower has air flowing vertically upward and cooling water vertically downward.

As shown in FIG. 1, the counterflow type cooling tower 100 includes:

A casing (104) having an exhaust port (102) at an upper end thereof;

A partition wall 112 which is vertically installed on one side of the casing 104 and divides the inside of the casing into a first compartment 106 and a second compartment 108 and has a through hole 110 on a lower side thereof, and;

A blower 114 installed on the bottom surface of the first compartment 106 to supply air into the second compartment 108 through a through hole 110 of the compartment 112;

A cooling water injection tube (116) horizontally installed on an upper side of the second compartment (108) and having a spray nozzle for discharging the recovered high temperature cooling water;

A filler 118 horizontally installed at a central portion of the second compartment 108 at a predetermined distance from the cooling water injection pipe 116 to cool the high temperature cooling water injected from the cooling water injection pipe 116;

A water collecting tank 120 horizontally installed at a lower side of the second compartment 108 at regular intervals from the filling material 118 to collect cooling water dropped from the filling material 118;

And an emitter (not shown) horizontally installed at one side of the upper portion of the second compartment 108 at a predetermined distance from the cooling water injection pipe 116 to prevent the cooling water from being scattered to the outside through the exhaust port 102 of the casing 104 122).

However, the counterflow type cooling tower 100 having the above-described structure has a high heat exchange efficiency, but has a high height and can not be installed in a room of a building.

In order to solve the above-mentioned problem, there has been developed an orthogonal flow type cooling tower which can be installed in a room of a building with a reduced height.

Here, in the orthogonal flow type cooling tower, the air flows horizontally and the cooling water flows vertically downward.

This application is filed with the Korean Intellectual Property Office (KIPO) under application No. 10-2009-0025148 (entitled: Modular Cooling Tower) of Mar. 24, 2009, which is an example of the above-mentioned orthogonal flow type cooling tower. Referring to FIG. 2, A cooling unit disposed in the upper portion of the heat exchanging unit to cool the cooling water, a cooling unit disposed in the heat exchange zone and having a cooler mechanism and an exhaust port to form a heat exchange zone, An evaporator for collecting the cooling water dropped through the heat exchanger, a cooling fan for cooling the cooling water in one region, and a cooling fan for cooling the cooling water, A cooling tower having a collecting tank provided with an outlet, the casing comprising a front plate and a rear plate, an upper plate and a bottom plate, And the air supply mechanism is formed so as to penetrate through either a rear plate or a bottom plate of the casing, the air outlet being formed through the front plate of the casing and supporting the casing, A water spraying area dividing part formed between the heat exchanging part and the air supply device to form an air supply area and partitioning one side of the water spraying part; And an air supply opening formed in the air supply region partition to allow the cooling water and the air to flow smoothly without bypass flow. The air supply opening is formed in the air supply and discharge compartment, An air intake zone formed between the airflow separation unit and the air supply unit, and an air intake zone formed between the heat exchange unit and the exhaust duct, The blowing fan unit is fixed to the bottom of the casing and is fixed to the bottom plate through a frame portion facing the bottom plate and fixed by a fixing bolt And a plurality of upper mounting members fixed to the upper portion of the casing and fixed to the upper plate through a frame portion facing the upper plate and fixed by fixing bolts. " to be.

However, as shown in FIG. 2, the modular cooling tower, which is the orthogonal-type cooling tower, can be installed in a room of a building with a reduced height. However, the heat exchange efficiency is lower than that of the counterflow type cooling tower.

Particularly, since the modular cooling tower as the orthogonal-type cooling tower can not reliably hold the water droplets scattered toward the exhaust port, as shown in FIG. 2, the wind of the blower (blowing fan portion 90a) There is a problem that water droplets that are scattered are discharged to the outside through the exhaust port 18.

As a result, there is a problem that the periphery of the exhaust port is dirty by water droplets as cooling water, and a drain for collecting water droplets as a cooling water must be additionally provided around the exhaust port.

Accordingly, it is an object of the present invention to reduce the height of the indoor unit so that it can be easily installed in the room, and to prevent the cooling water from being scattered to the outside through the exhaust port And to improve the heat exchange efficiency.

However, the object of the present invention is not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention,

A casing 504 having an exhaust port 502 at an upper side thereof;

The partition wall 512 is vertically installed on one side of the casing 504 and divides the inside of the casing into a first compartment 506 and a second compartment 508 and has a through hole 510 at a lower side thereof. and;

A blower 514 fixed to a bottom surface of the first compartment 506 and supplying air into the second compartment 508 through a through hole 510 of the compartment 512;

A cooling water spraying tube 516 having an injection nozzle installed at an upper side of the second compartment 508 to discharge the recovered high temperature cooling water;

A filler 518 sloped at a predetermined distance from the cooling water injection pipe 516 at a central portion of the second compartment 508 to cool the high temperature cooling water injected from the cooling water injection pipe 116;

A water collecting tank 520 horizontally installed at a lower side of the second compartment 508 at a predetermined interval from the filling material 518 to collect cooling water dropped from the filling material 518;

The cooling water is injected into the second compartment 508 at a predetermined distance from the cooling water injection pipe 516 so that the cooling water can not be scattered to the outside through the exhaust port 502 of the casing 504, And an eliminator 522 for discharging the exhaust gas to the exhaust port 502.

As described above, since the height of the cooling tower according to the present invention can be reduced, it is possible to easily install the cooling tower in a room.

In addition, the present invention can reliably prevent the cooling water from being scattered to the outside through the exhaust port, so that the periphery of the exhaust port is clean, and drain for collecting water drops around the exhaust port is not separately provided.

1 is a schematic view of a conventional counterflow cooling tower,
FIG. 2 is a diagram showing a modular cooling tower which is an orthogonal-type cooling tower according to the related art,
3 is a schematic view of a cooling tower according to the present invention,
4 is a view for comparing the height of the cooling tower according to the present invention and the height of the counterflow type cooling tower according to the prior art of FIG.

Hereinafter, preferred embodiments of the cooling tower according to the present invention will be described.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

3 is a schematic view of a cooling tower according to the present invention.

3, the cooling tower 500 according to the present invention includes:

A casing 504 having an exhaust port 502 at an upper side thereof;

The partition wall 512 is vertically installed on one side of the casing 504 and divides the inside of the casing into a first compartment 506 and a second compartment 508 and has a through hole 510 at a lower side thereof. and;

A blower 514 fixed to a bottom surface of the first compartment 506 and supplying air into the second compartment 508 through a through hole 510 of the compartment 512;

A cooling water spraying tube 516 having an injection nozzle installed at an upper side of the second compartment 508 to discharge the recovered high temperature cooling water;

A filler 518 sloped at a predetermined distance from the cooling water injection pipe 516 at a central portion of the second compartment 508 to cool the high temperature cooling water injected from the cooling water injection pipe 116;

A water collecting tank 520 horizontally installed at a lower side of the second compartment 508 at a predetermined interval from the filling material 518 to collect cooling water dropped from the filling material 518;

The cooling water is injected into the second compartment 508 at a predetermined distance from the cooling water injection pipe 516 so that the cooling water can not be scattered to the outside through the exhaust port 502 of the casing 504, And an eliminator 522 for discharging the exhaust gas to the exhaust port 502.

The installation process and operation of the cooling tower 500 according to the present invention will be described as follows.

Here, the installation process of the cooling tower 500 according to the present invention can be changed as much as the installer.

First, a casing 504 having an exhaust port 502 at an upper side thereof is positioned in a room desired by a user, and a through hole 510 is provided at a lower side of the casing 504 perpendicularly to one side of the casing 504 A partition wall 512 is provided.

At this time, the inside of the casing is divided into the first compartment 506 and the second compartment 508 by the partition 512.

The blower 514 is installed on the bottom surface of the first compartment 506 and the blowing inlet of the blower 514 is installed in the through hole 510 of the partition wall 512.

A cooling water spraying tube 516 having a spray nozzle for discharging hot water recovered obliquely to the upper side of the second compartment 508 is provided.

A filling material 518 for cooling the high temperature cooling water injected from the cooling water injection tube 116 at an angle to one central portion of the second compartment 508 is provided at a predetermined interval from the inclined cooling water injection pipe 516 .

A water collecting tank 520 for collecting cooling water dropped from the filling material 518 horizontally is installed at a lower side of the second compartment 508 at a predetermined interval from the inclined filling material 518.

The filling material 518 is inclined by 10 ° to 30 ° so that the gap between the filling material 518 and the water collecting tank 520 becomes narrower toward the one side so that the wind of the blower, .

An eleminator that prevents the cooling water from being scattered to the outside through the exhaust port (502) of the casing (504) while being inclined to one side of the upper portion of the second compartment (508) at a predetermined interval from the inclinedly installed cooling water injection pipe (516) (522).

At this time, the exhaust port 502 formed on the upper surface of the casing 504 has a wide outlet at the air outlet.

On the other hand, the inclination angles of the cooling water spraying tube 516, inclined filler material 518, and inclinedly installed electrifier 522 having inclined spray nozzles,

10 ° to 30 °.

Here, when the inclination angle is less than 10 or more than 30, the air of the blower, that is, the air, is not exhausted well through the exhaust port 502.

Therefore, the heat exchange is not performed well.

When the installation of the cooling tower 500 according to the present invention is completed,

The inclinedly installed cooling water injection tube 516 injects hot water recovered through the injection nozzle into the inclined filler material 518.

The air blower 514 sends air to the gap between the inclined filler 518 of the second compartment 508 and the water collecting tank 520 through the through hole 510 of the partition wall 512.

The gap between the filling material 518 and the water collecting tank 520 becomes narrower toward one side,

The air entering between the filler material 518 and the water collecting tank 520 enters the filler material 518 evenly.

The air that has entered the filler material 518 cools the high temperature cooling water injected from the injection nozzle of the cooling water injection tube 516 and is heat-exchanged and exits from the filler material 518 to the inclined eliminator 522.

The cooling water cooled at the filling material 518 falls to the water collecting tank 520.

Here, the water collecting tank 320 collects low-temperature cooling water cooled down from the filling material 518.

In addition, the inclined eliminator 522 prevents droplets of water from exchanging heat from the filler material 518 from scattering to the exhaust port 502, and at the same time, sends the air with the droplets removed to the exhaust port 502.

The gap between the eliminator 522 and the exhaust port 502 widens toward one side,

The air from which the water droplets are removed from the eliminator 522 quickly spreads out through the air outlet 502.

Accordingly, the cooling tower according to the present invention can reliably prevent the cooling water from being scattered to the outside through the exhaust port, and can be easily installed in the room by reducing the height as shown in FIG.

The foregoing description of the invention is merely exemplary of the invention and is used for the purpose of illustration only and is not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

500: cooling tower
502: Exhaust
504: casing
506: First compartment
508: the second compartment
510: Through hole
512:
514: Blower
516: Cooling water distributing pipe
518: filler
520: Water collecting tank
522: Eliminator

Claims (4)

A casing 504 having an exhaust port 502 at an upper side thereof;
The partition wall 512 is vertically installed on one side of the casing 504 and divides the inside of the casing into a first compartment 506 and a second compartment 508 and has a through hole 510 at a lower side thereof. and;
A blower 514 fixed to a bottom surface of the first compartment 506 and supplying air into the second compartment 508 through a through hole 510 of the compartment 512;
A cooling water spraying tube 516 having an injection nozzle installed at an upper side of the second compartment 508 to discharge the recovered high temperature cooling water;
A filler 518 sloped at a predetermined distance from the cooling water injection pipe 516 at a central portion of the second compartment 508 to cool the high temperature cooling water injected from the cooling water injection pipe 116;
A water collecting tank 520 horizontally installed at a lower side of the second compartment 508 at a predetermined interval from the filling material 518 to collect cooling water dropped from the filling material 518;
The cooling water is injected into the second compartment 508 at a predetermined distance from the cooling water injection pipe 516 so that the cooling water can not be scattered to the outside through the exhaust port 502 of the casing 504, And an eliminator (522) for discharging the exhaust gas to the exhaust port (502)
The inclined angle of the cooling water spraying tube 516 having the inclined spray nozzles, the inclined filler material 518, and the inclinedly disposed elevators 522,
10 ° to 30 °,
Wherein a gap between the filler material (518) and the water collecting tank (520) is narrowed toward the one side by the inclination of the filler material (518).
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