KR101605446B1 - Cooling tower including evaporation water collector - Google Patents

Abstract

The present invention relates to a cooling tower installed with a device for collecting evaporation water, which comprises: a body; a ventilator for introducing outside air to the body; a cooling tower including a coolant supply unit for spraying coolant inside the body; and a duct-shaped evaporation water collection unit stored in the cooling tower, and vertically installed in the height direction of the cooling tower between the ventilator and the coolant supply unit. Each of the evaporation water collection units including a plurality of inhalation units protruding outward is separately arranged in the longitudinal direction of the evaporation water collection unit on both sides of the evaporation water collection unit. According to the present invention, the cooling tower installed with a device for collecting evaporation water is easy to use, and has effects of collecting evaporation water without power consumption, and reducing the loss of the coolant.

Description

[0001] The present invention relates to a cooling tower including an evaporation water recovery device,

The present invention relates to a cooling tower provided with an evaporation water recovery device, wherein an evaporation water recovery device is installed in the cooling tower to reduce white smoke, save evaporated water to save water, and install only an evaporation water recovery device And a cooling tower provided with an evaporation water recovery device that is easy to install and operate.

A cooling tower is a device that is used in various industries to cool hot water. It is a device that cools water by bringing it into contact with outside air. Since a large amount of cooling water is required in various industrial sites, it is difficult to continuously supply high-quality industrial water in large quantities. Therefore, the industrial water for hot water is cooled and recycled. The necessary equipment is the cooling tower.

The basic principle of the cooling tower is to take advantage of the evaporation latent heat of the surrounding water while cooling the water, and to use the principle that the air is cooled by sensible heat by the temperature difference of water. That is, when the water is evaporated by bringing the water into contact with the air, the surrounding water and the non-evaporable water are cooled. Therefore, the cooling tower is designed to increase the efficiency of the cooling tower by maximizing the water-drawing time, maximizing the contact area, increasing the air flow, and maximizing the contact between water and air, so that much evaporation can occur.

Generally, the cooling tower has a structure in which outside air is introduced from the lower side of the tower to meet the water falling from the inside to induce evaporation, and then the outside air is discharged to the upper part where the fan is installed. At this time, since the discharged air contains a large amount of water evaporated from the inside, that is, steam, it is hot and humid air rather than the outside air before being introduced. The hot and humid air that is discharged to the outside causes a white smoke phenomenon in winter. The white smoke phenomenon is a phenomenon in which superheated water vapor looks like smoke as hot and humid air hits the relatively cool air outside. As described above, the white smoke phenomenon is not harmful to the human body as water vapor. However, since it looks like white smoke, it is often mistaken as a fire or smoke, so that a negative image can be given to the cooling tower and a large amount of water vapor is contained in the discharged air Since cooling water is lost, various devices have been developed for recovering lost cooling water, that is, evaporated water, one of which is disclosed in Korean Patent Publication No. 2010-0109132 ("Evaporating water recovery type cooling tower & The prior art). More specifically, the prior art is a method of discharging discharged hot and humid air through a housing and cooling and compressing the inside of the housing to recover evaporated water. However, the conventional technology has a high recovery rate of evaporated water and has an effect of preventing white smoke. However, in order to cool and compress the air inside the housing, power consumption is required. Since the apparatus must be separately installed or integrated into the cooling tower, This is a difficult problem.

Korea Patent Publication No. 2010-0109132 ("Evaporating Water Recovery Type Cooling Tower ", October 10, 2010) Korean Registered Patent No. 10-1553382 ("prefabricated cooling tower ", 2015.09.09.)

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a cooling tower in which an evaporation water collecting device, which can be easily applied to other cooling towers, .

In order to solve the above problems, a cooling tower provided with an evaporation water recovery device according to the present invention includes a body 100, a blower 200 for introducing outside air into the body 100, A cooling tower (1000) including a cooling water supply unit (300) for supplying cooling water; And a duct-shaped evaporation water recovery unit (400) accommodated in the cooling tower (1000) and installed vertically to the height direction of the cooling tower (1000) between the blower (200) and the cooling water supply unit The evaporation water recovery unit 400 includes a plurality of suction units 410 formed on both sides of the evaporation water recovery unit 400 and spaced apart from each other in the longitudinal direction of the evaporation water recovery unit 400 and protruding outwardly do.

The evaporated water recovery unit 400 includes a first duct 420 having one side opened and a second side closed, an exhaust port 430 having one side of the first duct 420 bent upward by a predetermined curvature, And a drain hole 450 formed in a predetermined area of the lower surface of the first duct 420 adjacent to the filter 440. The filter 440 is disposed inside the first duct 420 and is opposed to the exhaust hole 430, .

The evaporation water recovery unit 400 includes an evaporation water recovery pipe 460 communicating with the lower side of the drain hole 450 to recover evaporated water and an evaporation water recovery pipe 460 connected to the evaporation water recovery pipe 460, And an evaporation water receiving space 470 in which evaporated water recovered by the recovery pipe 460 is accommodated.

Further, the plurality of suction units (410) have a rectangular parallelepiped shape with a bottom surface opened.

The filter 440 is a car-containing filter having a triple structure.

Accordingly, the cooling tower provided with the evaporative water recovery device according to the present invention has the following effects.

According to the cooling tower provided with the evaporation water recovery device of the present invention, evaporation water can be recovered without consuming power.

Further, according to the present invention, it is possible to operate only by installing an evaporation water recovery unit on a cooling tower in the past, so that it is easy to use and has an advantage of general versatility.

Further, according to the present invention, evaporation water is recovered to reduce the loss of cooling water and reduce the white smoke phenomenon.

Further, according to the present invention, it is possible to perform maintenance and repair only by exchanging the filter, which is easy to use.

1 is a schematic view of a cooling tower equipped with an evaporation water recovery device according to the present invention;
2 is a perspective view of an evaporation water recovery unit according to the present invention;
3 is a side view of the evaporator water recovery unit according to the present invention
4 is a top cross-sectional view of the evaporation water recovery unit according to the present invention
5 is a schematic view of a cooling tower provided with an evaporation water recovery device according to the present invention,

Hereinafter, a cooling tower provided with an evaporation water recovery device according to the present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the technical concept of the present invention, are incorporated in and constitute a part of the specification, and are not intended to limit the scope of the present invention.

1 is a schematic view of a cooling tower provided with an evaporative water recovery device according to the present invention.

As shown in FIG. 1, a cooling tower having an evaporation water recovery device according to the present invention includes a cooling tower 1000 and an evaporation water recovery unit 400.

As shown in FIG. 1, the cooling tower 1000 is provided with the evaporation water collecting unit 400 therein. In addition, the cooling tower 1000 has the same structure as the conventional cooling tower, and includes a body 100, a blower 200, 300).

The body 100 may have any shape selected from a polygonal tube and a cylindrical shape corresponding to the external shape of a general cooling tower. However, in an embodiment of the present invention, as shown in FIG. 1, Lt; / RTI >

The body 100 has a space therein, and a part of the outer wall is formed with an inlet (not shown) having a space to allow external air to flow therein. The inflow portion is also called a louver. The inflow portion has a shape similar to a blind having an effect of adjusting the angle by adjusting the angle so that the rectangular plank has a slanting effect and an effect of communicating with the outside.

The blower 200 is configured to introduce outside air into the body 100. The blower 200 may be any structure as long as the blower 200 is capable of introducing outside air into the body 100, but it is preferable to use a fan as shown in FIG. 1, the blower 200 is located at an upper portion of the cooling tower 1000 to allow the outside air to flow from the lower or side of the cooling tower 1000, To the outside of the cooling tower (1000). The evaporator water recovery unit 400, which will be described later, is installed below the blower 200.

The cooling water supply unit 300 injects cooling water into the body 100. The cooling water injected from the cooling water supply unit 300 is strictly warm water before being cooled and the cooling water injected from the cooling water supply unit 300 is lowered and exchanges heat with the external air introduced by the blower 200 The cooling water falls down to the bottom of the body 100 and is cooled. A filler is installed in the lower part of the cooling water supply part 300 to drop the cooling water injected by the cooling water supply part 300 as slowly as possible. The filler is a structure in which the cooling water injected by the cooling water supply part 300 is allowed to fall as slowly as possible and a large number of pipes in the shape of a shoe are arranged in parallel so that water drops of the cooling water fall down, A plurality of plates having a plurality of voids in a direction perpendicular to the substrate may be arranged parallel to each other.

FIG. 2 is a perspective view of an evaporation water recovery unit according to the present invention, and FIG. 3 is a side view of an evaporation water recovery unit according to the present invention.

2 and 3, the evaporation water recovery unit 400 includes a cooling duct 300, which is accommodated in the cooling tower 1000 and is disposed between the blower 200 and the cooling water supply unit 300, (1000). The evaporating water collecting unit 400 includes a suction unit 410, a first duct 420, an exhaust port 430, a filter 440 A drain hole 450, an evaporation water recovery pipe 460, and an evaporation water recovery space 470.

The suction unit 410 is installed on both sides of the evaporator 400 and on both sides of the first duct 420 which is a basic structure of the evaporator 400, And is formed in a rectangular parallelepiped shape spaced apart in the longitudinal direction of the collecting part 400 and protruding outwardly and having a bottom open.

The first duct 420 is a duct in which one side is opened and the other side is closed, and is configured to allow hot and humid air to pass therethrough and has an internal space. The first duct 420 is installed between the blower 200 and the cooling water supply part 300 in a direction perpendicular to the height of the cooling tower 1000.

That is, the direction in which the suction unit 410 is protruded may be an outward direction perpendicular to the first duct 420 as shown in FIG. 2. In this case, the plurality of suction units 410 are parallel to each other. As described above, the suction unit 410 has a rectangular parallelepiped shape with a bottom surface and has a space therein. The space inside the suction unit 410 is connected to the first duct 420 to form a kind of passage. The open bottom surface of the suction unit 410 is opened to allow hot and humid air rising from the lower portion of the suction unit 410 to pass therethrough, And then flows into the inner space of the first duct 420 connected to the unit 410.

One side of the first duct 420 is curved upward at a predetermined curvature. The exhaust port (430) is configured to discharge hot and humid air introduced into the internal space of the first duct (420). One side of the first duct 420 is bent upward to have a predetermined degree of curvature so that the introduced hot and humid air can be easily discharged.

The filter 440 is installed inside the first duct 420 and is arranged to face the exhaust port 430. That is, the filter 440 is installed at an intermediate position where the air introduced into the internal space of the first duct 420 is discharged to the exhaust port 430, and is installed in a form to block the exhaust port 430, It is a car-containing filter composed of a triple structure. That is, air having a large amount of water vapor passes through it, and the water vapor is filtered, and only the air is allowed to escape, thereby directly blocking the evaporation water. That is, the filter 440 liquefies the steam to allow air to pass therethrough. The fabric constituting the filter 440 has a triple structure as described above and can not pass moisture. The filter 440 has a durability higher than that of the conventional glass fabric and has a longer differential pressure than the conventional glass fabric with a low differential pressure .

The drain hole 450 is formed in a predetermined area on the lower surface of the first duct 420 adjacent to the filter 440. The drain hole 450 is blocked by the filter 440 so that liquefied water vapor flows. The evaporation water recovery pipe 460, which will be described later, is connected to the drain hole 450 to collect the evaporated water.

The evaporation water recovery pipe (460) is connected to the drain hole (450) and collects evaporation water.

The other side of the evaporation water recovery pipe 460 is connected to the outside of the body 1000 to discharge evaporated water to the outside, and a portion of the evaporation water recovery pipe 460, to which the other side is connected, Space 470. The evaporation water accommodating space 470 serves as a water collecting container that is normally used. When the water level is above a predetermined level, the user directly transfers the evaporation water to another use, or a separate pipe is connected to the evaporation water receiving space 470 It is possible to automatically discharge evaporated water.

The first duct 420, the suction unit 410, the exhaust port 430, the filter 440 and the drain hole 450 constitute the evaporation water collecting unit 400. The first duct 420, The first duct 420, the suction unit 410, the exhaust port 430, the filter 440, and the drain hole 450 may be installed in the evaporation water recovery structure (480).

4 is a top cross-sectional view of the evaporative water recovery unit according to the present invention.

As shown in FIG. 4, a plurality of evaporation water recovery structures 480 are installed in parallel with each other. A plurality of the evaporation water recovery structures 480 may be arranged so that each of the drain holes 450 is located on the same line because the evaporation water recovery pipe 460 is formed in a straight line. The drain holes may not be arranged in a line on the same line, unlike the embodiment of the cooling tower provided with the evaporator water collecting apparatus according to the present invention shown in FIG. In this case, the evaporation water recovery pipe is bent and connected to the drain hole corresponding to the shape in which the drain hole is not disposed.

As shown in FIG. 4, a plurality of evaporation water recovery structures 480 are installed on the upper portion of the body 100 in parallel to each other. This reduces the humidity of the hot and humid air discharged from the cooling tower, To recover a part thereof, and to reduce the white smoke phenomenon.

FIG. 5 is a schematic view of a cooling tower provided with an evaporation water collecting device according to the present invention extending laterally.

As shown in FIG. 5, the body 100 is formed by extending two bodies of a general cooling tower in a transverse direction, and in the related art, Korean Patent No. 10-1553382 (" Lt; / RTI > That is, the body 100 shown in FIG. 5 is in a state in which the internal space is not partitioned. The reason why the body 100 is extended laterally is that the direction of the exhaust port 430 is positioned below the blower 200 to increase the exhaust efficiency.

Since the size of the body 100 of the blower 200 is twice as large as that of a conventional cooling tower, two blowers 200 may be installed on the upper portion of the body 100 so that more external air may flow into the body 100 To be introduced.

The cooling tower provided with the evaporation water collecting apparatus according to the present invention having all the above-mentioned features is advantageous in that the evaporation water collecting unit 400 can be easily detached from the conventional cooling tower. The evaporation water recovery structure 480 is installed between the fan and the cooling water supply device of the conventional cooling tower and the evaporation water recovery pipe 460 is connected to the bottom of the evaporation water recovery structure 460 to induce the evaporation water to the outside, The water can be collected in the evaporation water receiving space 470 and can be recycled. The evaporation water collecting pipe 460, the evaporating water receiving space 470 and the evaporating water collecting structure 480 are constructed separately (clip, hinge fitting and hook, etc.) for mounting the same, Or the like.

The performance of the cooling tower provided with the evaporative water recovery apparatus according to the present invention depends on the state of the filter 440. When the filter 440 is damaged or foreign matter is stuck, only the filter 440 needs to be replaced, There is an easy advantage. In order to easily replace the filter 440, the exhaust port 430 and the first duct 420 may be configured to be easily assembled and disassembled. For this purpose, the exhaust port 430 and the first duct 420 420 may be connected to each other using a connecting socket or a separate hook.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It goes without saying that various modifications can be made.

100: Body
200: blower
300: Cooling water supply part
400: evaporation water recovery unit
410: Suction unit
420: first duct
430: Exhaust
440: Filter
450: drain hole
460: Evaporation water recovery pipe
470: Evaporating water receiving space
480: Evaporation water recovery structure
1000: Cooling tower

Claims (5)

A cooling tower 1000 including a body 100, a blower 200 for introducing outside air into the body 100, and a cooling water supply unit 300 for injecting cooling water into the body 100.
And a duct-shaped evaporating water collecting part (400) accommodated in the cooling tower (1000) and provided between the blower (200) and the cooling water supplying part (300) so as to be perpendicular to the height direction of the cooling tower ,
The evaporation water recovery unit 400,
A plurality of suction units 410 formed on both sides of the suction unit 410 and spaced apart from each other in the longitudinal direction and protruding outward;
A first duct 420 having one side opened and the other side closed;
An exhaust port 430 formed by bending a first side of the first duct 420 with a predetermined curvature upward;
A filter (440) installed inside the first duct (420) and arranged to face the exhaust port (430); And
A drain hole 450 formed in a predetermined area on the lower surface of the first duct 420 adjacent to the filter 440;
And a cooling tower having an evaporation water recovery device installed therein.
delete The apparatus according to claim 1, wherein the evaporation water recovery unit (400)
An evaporation water recovery pipe 460 connected to a lower side of the drain hole 450 to recover evaporated water,
And an evaporation water receiving space (470) connected to the evaporation water recovery pipe (460) and accommodating the evaporation water collected by the evaporation water recovery pipe (460).
The apparatus according to claim 1, wherein the plurality of suction units (410)
Wherein the cooling tower has a rectangular parallelepiped shape with an open bottom surface.
The filter according to claim 1, wherein the filter (440)
Wherein the evaporation water collecting device is a three-layered car-receiving filter.

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