KR101333622B1 - Condenser - Google Patents

Abstract

The present invention provides an evaporative condenser that allows the support frame for supporting the condenser body to be independently separated to support the condenser body, thereby increasing the durability of the condenser and increasing the life. In addition, the condenser main body is stably supported by a plurality of vertical frames formed vertically at the edges of the rectangular horizontal frame closely attached to the ground, and the load of the condenser main body is distributed to the ground through the vertical frame to increase durability of the support frame. By inclining the side surface of the tank, the cooling water sprayed from the injector falls down naturally into the receiving space of the tank along the side of the tank, and the amount of cooling water contained in the tank is reduced, so that the entire condenser is reduced. The reduced weight provides an evaporative condenser that can reduce the concentrated load that forms on the roof when installed on the roof of the building. Evaporative condenser according to the present invention and the condenser body 20; A support frame 30 installed on the ground to support the condenser body 20; A heat exchanger 40 installed inside the condenser main body 20 to circulate the refrigerant; An injector 50 installed in the condenser body 20 to inject cooling water into the heat exchanger 40; A water tank 60 installed inside the condenser main body 20 to accommodate the coolant sprayed from the injector 50; A circulation pump 70 for pumping the cooling water contained in the water tank 60 to supply the cooling water to the injection device 50; A blowing fan 80 for discharging the refrigerant circulated from the heat exchanger 40 to the outside; It is installed inside the condenser body 20, characterized in that it comprises an eliminator 90 for removing water droplets in the air evaporated by the heat exchanger (40).

Description

Evaporative Condenser

The present invention relates to an evaporative condenser, and more specifically, to support the condenser body by separating the support frame for supporting the condenser body independently, evaporative condenser to increase the durability and increase the life of the condenser It is about.

In addition, the condenser main body is stably supported by a plurality of vertical frames formed vertically at the edges of the rectangular horizontal frame closely attached to the ground, and the load of the condenser main body is distributed to the ground through the vertical frame to increase durability of the support frame. To an evaporative condenser that makes it possible.

In addition, by forming the side of the tank inclined, the cooling water sprayed from the injector falls into the receiving space of the tank naturally along the side of the tank, the total weight of the condenser is reduced because the amount of cooling water contained in the tank is reduced It is possible to reduce the concentrated load formed on the roof when installed on the roof of the building, and to reduce the generation of scale and contaminants in the tank relates to an evaporative condenser convenient to manage the water tank.

In general, a refrigerator compresses a refrigerant vaporized in an evaporator in a compressor, compresses the refrigerant at a high temperature and high pressure in the compressor, and sends the refrigerant to a condenser, and the condenser cools the refrigerant compressed in the compressor to condense it into a liquid refrigerant, and the liquid phase in the condenser. The liquid refrigerant condensed with the refrigerant is rapidly expanded in the expansion valve and sent to the evaporator in the mist state, and in the evaporator, the refrigerant expanded in the mist state is evaporated by the action of taking heat from the surrounding air or water, and then sent to the compressor. It is configured to heat exchange by repeating the circulation operation.

As described above, an apparatus for cooling a gaseous refrigerant compressed at a high temperature and high pressure in a compressor of a refrigerator to condense it into a liquid refrigerant by heat exchange with cooling water and air is disclosed in Patent Document 1 (Domestic Utility Model Publication No. 1982-0002446) several legs 2 are integrally formed at the lower end of the cooling tower cylinder 1 made of FRP in the form of a '-' angle, and several circular gratings 3 are formed on the inner circumferential surface of the legs 2. Attached at regular intervals to the main surface of the cooling water tank 4 made of FRP and formed several legs 5 as a single body and installed on the ground, and then placing the leg 2 of the control (1) on the top flange of the water tank (4). It is proposed to arrange in (4 ').

The prior art having such a configuration has a problem in that the shape of the water tank has a rectangular shape, so that the amount of water contained in the water tank increases, so that the weight of the condenser increases, and in the case of an old building, the building cannot handle the weight of the condenser. There was a problem that collapsed or generated uniformity in the building wall threatens the stability of the building.

In addition, the support means for supporting the condenser body located on the upper side of the water tank is fixed to the water tank, or the water tank supports the condenser body without a separate support means, the load of the condenser body is transferred to the water tank to lower durability, lifespan There was a problem with this shrinking.

Patent Document 1: Domestic Utility Model Publication No. 1982-0002446 "Supporting Device of Cooling Tower"

Therefore, the present invention has been proposed to improve such a conventional problem, and the support frame for supporting the condenser body is independently separated to support the condenser body, thereby increasing the durability of the condenser, a new form to increase the life It is an object of the present invention to provide an evaporative condenser.

In addition, the condenser main body is stably supported by a plurality of vertical frames formed vertically at the edges of the rectangular horizontal frame closely attached to the ground, and the load of the condenser main body is distributed to the ground through the vertical frame to increase durability of the support frame. It is an object of the present invention to provide a new type of evaporative condenser.

In addition, by forming the side of the tank inclined, the cooling water sprayed from the injector falls into the receiving space of the tank naturally along the side of the tank, the total weight of the condenser is reduced because the amount of cooling water contained in the tank is reduced It is possible to reduce the concentrated load formed on the roof when installed on the roof of the building, and to provide a new type of evaporative condenser convenient to manage the tank by reducing the generation of scale and contaminants in the tank.

According to a feature of the present invention for achieving the above object, the condenser body 20; A support frame (30) installed on the ground to support the condenser body (20); A heat exchanger (40) installed inside the condenser body (20) for circulating a refrigerant; An injector 50 installed in the condenser body 20 to inject cooling water into the heat exchanger 40; A water tank 60 installed inside the condenser body 20 to accommodate the coolant sprayed from the injector 50; A circulation pump 70 for pumping the cooling water contained in the water tank 60 to supply the cooling water to the injector 50; A blowing fan (80) installed on an upper surface of the condenser main body (20) for sucking external air and contacting the sucked external air with the heat exchanger (40); It is installed inside the condenser body 20, characterized in that it comprises an eliminator 90 for removing water droplets in the air evaporated by the heat exchanger (40).

In the evaporative condenser according to the present invention, the water tank 60 has an accommodating space 62 in which the water tank 60 is opened to accommodate the cooling water therein, and the side surface 64 is formed to be inclined to have an upper area. The lower area is formed to have a smaller area, the discharge port 662 is formed on the front surface 66 so that the coolant pumped by the circulation pump 70 is discharged and circulated, and on one side of the discharge port 662 A drain hole 664 for draining the coolant contained in the accommodation space 62 is formed.

In the evaporative condenser according to the present invention, the front surface 66 and the rear surface 68 of the water tank 60 is formed to be inclined so that the lower area is smaller than the upper area, the front surface 66 and the rear surface The inclination of the 68 is characterized in that it is formed to have a lower inclination than the inclination of the side (64).

In the evaporative condenser according to the present invention, the bottom surface 61 of the water tank 60 is formed such that the front surface 66 side is lower than the rear surface 68 side so that the coolant received in the accommodation space 62 is the front surface. Characterized in that the drain to the outside through the drain hole 664 (66).

In the evaporative condenser according to the present invention, the support frame 30 has a horizontal frame 32 is placed on the ground, formed from the horizontal frame 32 to the upper side to support the lower side of the condenser body 20 Having a vertical frame 34 formed to make; The side surface 64 of the water tank 60 has a through hole 642 formed at a position corresponding to the vertical frame 34 of the support frame 30; The vertical frame 34 of the support frame 30 passes through the through-hole 642 of the water tank 60 so as to support the lower side of the condenser body 20.

In the evaporative condenser according to the present invention, the packing 12 is provided in the through hole 642 of the water tank 60 through which the vertical frame 34 of the support frame 30 passes. It is characterized by preventing the corrosion of.

As described above, according to the evaporative condenser according to the present invention, the support frame for supporting the condenser main body is independently separated to support the condenser main body, thereby increasing the durability of the condenser and increasing the life.

In addition, the condenser main body is stably supported by a plurality of vertical frames formed vertically at the edges of the rectangular horizontal frame closely attached to the ground, and the load of the condenser main body is distributed to the ground through the vertical frame to increase durability of the support frame. It has the effect of making it possible.

In addition, by forming the side of the tank inclined, the cooling water sprayed from the injector falls into the receiving space of the tank naturally along the side of the tank, the total weight of the condenser is reduced because the amount of cooling water contained in the tank is reduced It can reduce the concentrated load formed on the roof when installed on the roof of the building, it is convenient to manage the water tank by reducing the generation of scale and contaminants in the tank.

1 is a view for explaining a conventional technique,
2 is a perspective view of an evaporative condenser according to a preferred embodiment of the present invention;
3 is an exploded perspective view of an evaporative condenser according to a preferred embodiment of the present invention;
4 and 5 is a cross-sectional view for explaining the configuration of the evaporative condenser according to a preferred embodiment of the present invention,
6a and 6b are views for explaining another embodiment of the water tank in the evaporative condenser according to the preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, FIGS. 2 to 6B, and like reference numerals denote like elements for performing the same function in FIGS. 2 to 6B. In the drawings and the detailed description, detailed description of specific elements and functions of elements not directly related to the technical features of the present invention will be omitted. .

2 to 6b, the evaporative condenser according to a preferred embodiment of the present invention, a condenser body 20, a support frame 30 for supporting the condenser body 20 is installed on the ground, and the condenser body (20) a heat exchanger (40) installed inside to circulate the refrigerant, an injector (50) installed in the condenser main body (20) for injecting cooling water into the heat exchanger (40), and a condenser main body (20). And a circulation tank 70 for supplying the cooling water to the injection device 50 by pumping the cooling water contained in the water tank 60 to accommodate the cooling water injected from the injection device 50. , A blower fan 80 for discharging the refrigerant circulated from the heat exchanger 40 to the outside, and an elimine for removing water droplets in the air evaporated by the heat exchanger 40 installed inside the condenser body 20. Data 90 is included.

The condenser main body 20 is formed in a box shape having a lower opening, and has an inlet port 22 connected to a circulation pump 70 at an upper front surface thereof so that the coolant pumped from the circulation pump 70 flows in and a heat exchanger 40 at an upper surface thereof. It has a discharge port 24 to discharge the refrigerant circulated from the evaporation to the outside, and has an air inlet 26 formed of a plurality of perforations so that air flows into the lower front, rear and side.

The support frame 30 has a horizontal frame 32 settled on the ground, and has a vertical frame 34 formed upward from the horizontal frame 32 to support the lower side of the condenser body 20.

The heat exchanger 40 is installed in the condenser main body 20 to circulate the refrigerant, and the plurality of heat exchange plates are arranged at regular intervals, or the plurality of refrigerant pipes are zigzag connected to each other by a 'U'-shaped pipe. It may be configured in various ways.

The injector 50 is positioned above the heat exchanger 40 and is connected to the inlet 22 of the condenser body 20 to inject cooling water into the heat exchanger 40.

On the other hand, the heat exchanger 40, injector 50 and the laminate 90 is commonly used, the detailed description thereof will be omitted.

The water tank 60 has an accommodating space 62 in which the upper part is opened to accommodate the coolant therein, and the side surface 64 is formed to be inclined so that the lower area is smaller than the upper area. It has a discharge port 662 so that the coolant pumped by the circulation pump 70 is discharged and circulated, and has a drain hole 664 on one side of the discharge port 662 to drain the coolant contained in the receiving space 62 to the outside. .

6A and 6B are views for explaining another embodiment of the water tank 60 in the evaporative condenser 10 according to the preferred embodiment of the present invention. 68 is formed to be inclined as shown in Figure 6a is formed to have a lower area than the upper area, the inclination of the front 66 and the rear 68 so as to have a lower slope than the slope of the side (64). 6B is formed in the water tank 60, the bottom surface 61 is formed to be inclined, the front side 66 is formed so as to be lower than the back side 68, the old cooling water accommodated in the receiving space 62 When draining to the outside may be naturally drained to the outside through the drain hole 664. In addition, when cleaning the inside of the water tank 60 may be formed so that the deposit accumulated in the receiving space 62 through the drain hole 664 can be easily discharged to the outside.

As such, the inclination of the front and rear of the tank to have a lower inclination than the inclination of the tank can be settled more stably than the narrow bottom when the tank is placed in the support frame, and the sides, sides, rear and By inclining the bottom surface, it is easy to manage the discharge and cleaning of deposits contained in the tank.

On the other hand, the side surface 64 of the water tank 60 is formed with a through hole 642 at a position corresponding to the vertical frame 34 of the support frame 30, so that the vertical frame 34 is the side surface 64 of the water tank 60. It is formed to penetrate through the through-hole 642 to support the lower side of the condenser body 20. At this time, the packing 12 is provided in the through hole 642 of the water tank 60 to prevent the vertical frame 34 from being corroded by the cooling water sprayed from the injector 50.

Thus, by forming the side of the tank inclined in the evaporative condenser according to a preferred embodiment of the present invention, the cooling water sprayed from the injector falls into the accommodating space of the tank naturally along the side of the tank, into a rectangular tank In comparison, the amount of cooling water contained in the tank is small, so that the scale of the inside of the tank due to long time use is reduced, the frequency of contaminants is generated, which is convenient for water tank management, and the cost of chemical treatment of the cooling water is reduced.

In particular, by allowing the vertical frame of the support frame installed on the ground to penetrate through the tank through hole to be formed outside, the lower side of the condenser main body can be stably supported, and the vertical frame can stably maintain the vertical state by the through hole. There is an effect that can support the condenser body stably even by external influences such as wind.

The circulation pump 70 is installed through the pipe 14 between the outlet 662 of the water tank 60 and the inlet 22 of the condenser body 20.

Blower fan 80 is installed in the outlet 24 formed on the upper surface of the condenser body 20 to suck the outside air to contact the heat exchanger 40, the eliminator 90 is the injection device 50 And installed between the blowing fan 80 to remove the water droplets in the air evaporated by the heat exchanger (40).

Referring to the operation of the evaporative condenser 10 according to the preferred embodiment of the present invention having such a configuration, when the refrigerant compressed at high temperature and high pressure is transferred to the heat exchanger 40, the condenser body 20 is also driven together. It becomes the state to do. That is, when the refrigerant flows through the heat exchanger 40 installed in the condenser main body 20, the circulation pump immersed in the cooling fan 80 and the cooling water of the water tank 60 installed inside the condenser main body 20. Each of the 70 drives.

Therefore, the coolant pumped by the circulation pump 70 is sprayed evenly to the heat exchanger 40 through the injector 50 to flow down the heat exchanger 40, and at the same time is sucked by the blower fan 80 The external air is in contact with the heat exchanger 40. At this time, the refrigerant circulating inside the heat exchanger 40 is deprived of heat by heat exchange with the air, so that the heat exchange is smoothly performed. Cooling water not evaporated by 40 is accommodated in the water tank 60 again is pumped by the circulation pump 70 is supplied to the injection device 50.

As such, the support frame for supporting the condenser body is independently separated from the evaporative condenser according to the preferred embodiment of the present invention to support the condenser body, thereby increasing the durability of the condenser and increasing the life.

In addition, the condenser main body is stably supported by a plurality of vertical frames formed vertically at the edges of the rectangular horizontal frame closely attached to the ground, and the load of the condenser main body is distributed to the ground through the vertical frame to increase durability of the support frame. It has the effect of making it possible.

In addition, by forming the side of the tank inclined, the cooling water sprayed from the injector falls into the receiving space of the tank naturally along the side of the tank, the total weight of the condenser is reduced because the amount of cooling water contained in the tank is reduced It can reduce the concentrated load formed on the roof when installed on the roof of the building, it is convenient to manage the water tank by reducing the generation of scale and contaminants in the tank.

As described above, although the evaporative condenser according to the preferred embodiment of the present invention has been shown in accordance with the above description and drawings, this is merely described for example and various changes and modifications within the scope without departing from the technical spirit of the present invention. It will be appreciated by those skilled in the art that this is possible.

10: evaporative condenser
20: condenser body 30: support frame
32: horizontal frame 34: vertical frame
40: heat exchanger 50: injector
60: tank 61: bottom surface
62: accommodation space 64: side
66: front 68: rear
662: outlet 70: circulation pump
80: blower fan 90: eliminator

Claims (6)

A condenser body 20;
A support frame (30) installed on the ground to support the condenser body (20);
A heat exchanger (40) installed inside the condenser body (20) for circulating a refrigerant;
An injector 50 installed in the condenser body 20 to inject cooling water into the heat exchanger 40;
A water tank 60 installed inside the condenser body 20 to accommodate the coolant sprayed from the injector 50;
A circulation pump 70 for pumping the cooling water contained in the water tank 60 to supply the cooling water to the injector 50;
A blowing fan (80) installed on an upper surface of the condenser main body (20) for sucking external air and contacting the sucked external air with the heat exchanger (40);
A eliminator 90 installed inside the condenser body 20 to remove water droplets in the air evaporated by the heat exchanger 40;
The support frame 30 has a horizontal frame 32 which is settled on the ground, and has a vertical frame 34 formed upward from the horizontal frame 32 to support the lower side of the condenser body 20. ;
The side surface 64 of the water tank 60 has a through hole 642 formed at a position corresponding to the vertical frame 34 of the support frame 30;
Evaporative condenser characterized in that the vertical frame (34) of the support frame 30 to support the lower side of the condenser body (20) through the through hole (642) of the water tank (60).
The method of claim 1,
The water tank 60 has an accommodating space 62 in which the upper part is opened to accommodate the coolant therein, and the side surface 64 is formed to be inclined so that the lower area is smaller than the upper area. A discharge port 662 is formed to discharge and circulate the cooling water pumped by the circulation pump 70, and a drain hole 664 for draining the cooling water accommodated in the accommodation space 62 on one side of the discharge port 662. Evaporative condenser, characterized in that is formed.
3. The method of claim 2,
The front surface 66 and the rear surface 68 are formed to be inclined so that the lower area is smaller than the upper surface area, and the inclination of the front surface 66 and the rear surface 68 is lower than that of the side surface 64. Evaporative condenser characterized in that it is formed to have a slope.
3. The method of claim 2,
The bottom surface 61 of the water tank 60 is formed such that the front side 66 is lower than the rear side 68 side, so that the coolant contained in the accommodation space 62 opens the drain hole 664 of the front side 66. Evaporative condenser characterized in that to be drained to the outside through.
delete The method of claim 1,
Evaporation, characterized in that the packing 12 is provided in the through hole 642 of the water tank 60 through which the vertical frame 34 of the support frame 30 is penetrated to prevent corrosion of the vertical frame 34. Type condenser.

Images