KR101563620B1 - Air conditioning system for communication equipment and controlling method thereof - Google Patents

Abstract

The present invention relates to a cooling apparatus for communications equipment, which efficiently cools communications equipment installed in a base station, a data center, a communication room, a computer room booth, and the like and minimizes occurrence of noise to improve convenience of maintenance. In relation to the cooling apparatus for communications equipment, which includes a brine-type heat exchanger and a coolant-type heat exchanger, an indoor module includes: a first cooling means which includes an indoor air blower, a first indoor heat exchanger, a circulation pipe in which a coolant is circulated, a second heat exchanger, a bypass pipe circulating the coolant without passing through the first indoor heat exchanger, and a bypass valve installed in each of the circulation pipe and the bypass pipe; and a second cooling means which includes a compressor, a condenser exchanging heat with the second indoor heat exchanger, an expansion valve, and an evaporator. In addition, an outdoor module includes: an outdoor air blower, a circulation pump which is installed on the circulation pipe, and an outdoor heat exchanger. Accordingly, power waste is reduced and cooling efficiency is maximized by effectively using cool air in the air depending on the external temperature while reducing size and noise of an outdoor unit, and it is possible to stably operate the condenser.

Description

TECHNICAL FIELD [0001] The present invention relates to an air conditioner for a communication device,

The present invention relates to cooling of communication equipments and computer equipment, and more particularly, to cooling equipments installed in a base station, a data center, a communication room, a computer room, and the like in order to maximize cooling efficiency, minimize external noise, And more particularly to a cooling device for a communication device that is efficient in maintenance of a communication device.

A typical air conditioner uses evaporation heat that takes heat away when the refrigerant evaporates. As the refrigerant, liquids such as ammonia, freon, azeotropic mixed refrigerant, and chloromethyl, which easily evaporate even at low temperatures, are used.

In this conventional cooling apparatus, a gaseous refrigerant compressed at a high pressure in a compressor is condensed into refrigerant in a liquid state in a high pressure state by heat exchange with the outside air while passing through a condenser, and then discharged through a expansion valve or a capillary tube to a low- .

The low-pressure sprayed refrigerant flows into the evaporator, is evaporated by heat exchange with the indoor air, and then flows into the compressor again. The cycle of the above-described process is circulated. At this time, the air cooled by the evaporation heat of the refrigerant generated in the evaporator And is blown to a predetermined space or a target object to be cooled by the blowing fan.

That is, such a general cooling apparatus cools a predetermined space or a target object to be cooled by using a refrigerant whose phase change is easy, such as liquefaction and evaporation.

In particular, in the case of a communication base station or a communication vehicle, a large number of wired / wireless communication devices are installed therein. Such communication devices may cause various malfunctions such as contact failure and device malfunction due to frequent heat generation. The stability of operation can be ensured.

However, in the conventional air conditioner for communication equipments, although the cooling utilizing the natural state cold air according to the external temperature is possible, the cooling cycle using the electric power is operated to cool the air conditioner, This is a significant disadvantage.

In order to solve these problems, there has been developed a cooling device for communication equipment that increases the cooling efficiency and minimizes the power consumption by independently or coexistently using outside air having a temperature capable of cooling with only the cold air according to the season Registration Nos. 10-0585991 and 10-0881119).

4 is a cooling apparatus for communication equipment according to the prior art. As shown in the figure, the cooling apparatus for communication equipment according to the related art includes a brine cooling unit 500 for directly cooling the communication equipment by using outside air, And the cooler cooling means 600 for indirectly cooling the coolant by lowering the temperature of the coolant. The brine and coolant cooling means 500 and 600 include an indoor unit 50 installed in the base station together with communication equipment, and an outdoor unit 60).

The indoor heat exchanger 52 for exchanging heat between the refrigerant and the room air and the indoor air blower 54 for sending the heat exchanged air to the room, Respectively.

In addition, an outdoor heat exchanger (510) in which heat exchange is performed between the refrigerant and outdoor air, and an outdoor air blower (520) for discharging the heat exchanged air to the outside are installed in the outdoor unit (60). The indoor heat exchanger (52) and the outdoor heat exchanger (510) are connected by a circulation pipe (110), and a predetermined refrigerant is filled therein.

The circulation pipe 110 is connected to the brine heat exchanger 540, which is heat-exchanged with the evaporator 610 of the coolant cooling unit 600.

A bypass pipe 140 is connected to the circulation pipe 110 so that the refrigerant can be circulated without passing through the outdoor heat exchanger 510 and the circulation pipe 110 and the bypass pipe 140 are selectively / First and second bypass valves 150 and 151 for opening and closing are provided, respectively.

The refrigerant cooling means 600 includes a compressor 620 for converting the refrigerant into a high-temperature / high-pressure gas, a condenser 630 for exchanging heat between the refrigerant that has passed through the compressor 620 and the outdoor air, (640) disposed between the expansion valve (640) and the compressor (620) and located in the brine heat exchanger (540) to convert the refrigerant introduced from the heat exchange tube And an evaporator 610 for exchanging heat with the evaporator 530.

The brine cooling unit 500 of the cooling apparatus for the communication equipment uses water as a refrigerant and the refrigerant cooling unit 600 uses a refrigerant such as Freon, ammonia, chloromethyl, azeotropic mixed refrigerant, etc.

However, according to the conventional technology, there is a problem in that the size of the outdoor unit is not only burdensome but also the noise is large, and there is a loss in heat efficiency, such as when the temperature of the outside air is high.

Accordingly, it is an object of the present invention to at least partially solve the problems in the conventional arts. Accordingly, it is an object of the present invention to provide a noise- By using the natural cold air as much as possible through the heat exchange, it is possible to minimize the operation of the cooling cycle in which the power consumption is high, thereby preventing power waste and to provide a cooling device for the communication equipment capable of stably maintaining the cooling state of the communication equipment It has its purpose.

According to an aspect of the present invention, there is provided a cooling apparatus for communication equipment,

A brine type heat exchanger having a tube for heat exchange inside and connected to the brine pump, a tube-type heat exchanger provided inside the brine tube, a refrigerant type heat exchanger installed on the refrigerant tube, connected to the compressor and the expansion valve The indoor unit module includes a first indoor heat exchanger, a circulation pipe through which the refrigerant is circulated, a second indoor heat exchanger, and a second outdoor heat exchanger. The indoor unit module includes a first indoor heat exchanger, A bypass pipe for circulating the refrigerant without passing through the first indoor heat exchanger, a first cooling water stage constituted by a bypass valve provided in each of the circulation pipe and the bypass pipe, a compressor, and a condenser for exchanging heat with the second indoor heat exchanger An expansion valve, and a second cooling means composed of an evaporator, and the outdoor unit module is installed on a circulation pipe It characterized in that it comprises a circulation pump and an outdoor heat exchanger.

In addition, the evaporator is disposed closer to the tuyer than the first indoor heat exchanger, and the indoor air is sequentially passed through the first indoor heat exchanger and the evaporator by the indoor blower to blow air to the communication equipment.

And a plurality of the second cooling means are provided so as to overlap with the first indoor heat exchanger and the second indoor heat exchanger to perform heat exchange.

And a plurality of outdoor heat exchangers are arranged so as to perform heat exchange in duplicate.

And the plurality of outdoor heat exchangers are selectively provided with a plurality of circulation pumps on one circulation pipe.

In addition, in controlling the air conditioner for communication equipment according to the present invention, the total amount of refrigerant cooled by the outside air is introduced into the indoor unit module, heat-exchanges heat with the first indoor heat exchanger, sequentially exchanges heat with the second indoor heat exchanger, When the first indoor heat exchanger is not operated by the bypass valve, the entire refrigerant is heat-exchanged with the second indoor heat exchanger and is drawn out to the outdoor unit module.

According to the present invention, the air conditioner for communication equipment having the above-described structure removes noise generated in a compressor or the like disposed outside the room from the outside in a closed space, It is possible to construct a multi-type air conditioner which can efficiently operate even in a place where the indoor units distributed in various places are connected to one outdoor unit in parallel, thereby improving the refrigerant circulation system. It is possible to drive the cooling cycle with stability, and the efficiency and reliability of the cooling by the cooling method using the existing dual cooling group can be further improved.

Fig. 1 is a schematic diagram showing a cooling apparatus for a communication equipment according to the present invention, Fig. 2 is a configuration diagram showing another embodiment of a cooling apparatus for a communication equipment according to the present invention, Fig. 3 is a view showing another embodiment Fig. 4 is a configuration diagram showing a cooling apparatus for a communication equipment according to the related art. Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings without intending to intend to provide a thorough understanding of the present invention to a person having ordinary skill in the art to which the present invention belongs.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram showing a cooling apparatus for a communication equipment according to the present invention; FIG.

The present invention relates to a refrigerator having a brine-type heat exchanger having a tube for heat exchange inside and connected to a brine pipe, a tube for heat exchange inside the brine pipe, a refrigerant pipe connected to the compressor and the expansion valve Type indoor heat exchanger, an indoor air heat exchanger having an outdoor air blower, and an outdoor air heat exchanger module.

As shown in the drawing, the air conditioner for communication equipment of the present invention comprises an indoor unit module 10 arranged in an indoor space of a base station and an outdoor unit module 20 arranged in an outdoor space of a base station.

The indoor unit module 10 includes an indoor air blower 260, a circulation pipe 110 through which the refrigerant is circulated, a refrigerant circulating through the circulation pipe 110 and cooled by the outdoor air, A second indoor heat exchanger 130 in which the refrigerant sequentially passing through the first indoor heat exchanger 120 undergoes secondary heat exchange with the condenser 220, a first indoor heat exchanger A bypass pipe 140 for circulating the refrigerant to the second indoor heat exchanger 130 without passing through the bypass pipe 120 and a bypass valve 150 installed in the circulation pipe 110 and the bypass pipe 140, A first cooling means (100)

And a second cooling unit 200 composed of a compressor 210, a condenser 220 for performing heat exchange with the second indoor heat exchanger 130, an expansion valve 230, and an evaporator 240.

The outdoor unit module 20 includes a circulation pump 22, an outdoor heat exchanger 24, and an outdoor air blower 26 installed on the circulation pipe 110.

The evaporator 240 is disposed closer to the air outlet than the first indoor heat exchanger 120 so that the indoor heat can be exchanged between the first indoor heat exchanger 120 and the evaporator 240 by the indoor air blower 260, And then blows air to the communication equipment.

2 is a configuration diagram showing another embodiment of a cooling apparatus for a communication equipment according to the present invention.

As shown in the drawing, the present embodiment is characterized in that a plurality of the second cooling means (200) are provided to the first indoor heat exchanger (120) and the second indoor heat exchanger And the second indoor heat exchanger (130).

The first and second compressors 210 and 211 and the first and second condensers 220 and 221 for exchanging heat with the second indoor heat exchanger 130 and the first and second expansion valves 230 and 231 and the first and second evaporators 240, and 241, respectively.

In addition, a plurality of the outdoor heat exchangers (24, 25) are provided to increase the utilization of the outside air and increase the efficiency of outdoor heat exchange, and a plurality of outdoor blowers (26, 27)

3 is a configuration diagram illustrating a cooling apparatus for a communication equipment according to another embodiment of the present invention.

As shown in the figure, in order to optimize the cooling efficiency of the outdoor air, in order to adjust the refrigerant circulation amount on the circulation pipe 110, the circulation pipe (one side) of the plurality of outdoor heat exchangers (24, 25) And a plurality of circulation pumps (22, 23) are provided on the bed (110).

The cooling process according to the present invention is essentially the same as the existing apparatus. However, there is a difference in that the cooling efficiency is increased by not only enabling efficient cooling by varying objects of cooling.

That is, the cooling apparatus according to the related art has a cooling means in the outdoor unit, so that the refrigerant on the circulation piping is cooled and supplied to the room, and the room is cooled by contacting the room air with the indoor heat exchanger connected to the circulation pipe. The cooling system according to the present invention includes cooling means in the indoor unit, so that the room air sequentially passes through the first indoor heat exchanger of the first cooling means and the evaporator of the second cooling means installed in the circulation pipe, performs heat exchange, And then supplied to the room. Therefore, the cooling efficiency can be increased by the first and second direct cooling of the air.

In addition, by controlling the circulation of the refrigerant heat-exchanged in contact with the outside air through the bypass valve 150, in the case of a refrigerant having sufficient cold air, the first cooling means 100 and the second cooling means 200 are sequentially The total amount of refrigerant can be added to the condenser so that the operation failure of the condenser 220, which is generated when the amount of the refrigerant added to the condenser 220 is insufficient, So that the cooling efficiency can be stably maintained.

Therefore, even when controlling the air conditioner for communication equipment according to the present invention, the total amount of refrigerant cooled by the outside air is not divided into the first cooling unit 100 and the second cooling unit 200, The whole amount is introduced into the indoor unit module 10 to primarily heat-exchange with the first indoor heat exchanger 120, sequentially heat-exchange with the second indoor heat exchanger 130, and then be led out to the outdoor unit module 20 . Through this control, all of the refrigerant cooled by the outside air firstly cools the room air, and then a sufficient amount of refrigerant to cool the condenser 220 by heat exchange with the high-temperature condenser 220 is supplied to the condenser 220 The refrigerant can be stably driven without causing an abnormal situation of the condenser 220 due to a sufficient amount of refrigerant supplied for heat transfer.

On the other hand, when the refrigerant heat-exchanged by the outside air is high in temperature of the indoor air and is not suitable for indoor cooling, the refrigerant flows into the bypass pipe 140 through the bypass valve 150 to prevent heat exchange with the first indoor heat exchanger 120 The entire amount of the refrigerant flows into the second indoor heat exchanger 130 and is heat-exchanged with the high-temperature condenser 220, and then the refrigerant is drawn out to the outdoor unit module 20.

The foregoing description of the preferred embodiments of the present invention has been provided for purposes of illustration only and is not to be construed as limiting the present invention. It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the basic principles of the present invention.

10: indoor unit module, 20: outdoor unit module
100: first cooling means 110: circulation piping
120: first indoor heat exchanger 130: second indoor heat exchanger
140: Bypass piping 150: Bypass valve
200: second cooling means 210: compressor
220: condenser 230: expansion valve
240: Evaporator 260: Indoor blower
22: circulation pump 24: outdoor heat exchanger
26: outdoor blower

Claims (6)

A brine type heat exchanger having a tube for heat exchange inside and connected to the brine pump, a tube-type heat exchanger provided inside the brine tube, a refrigerant type heat exchanger installed on the refrigerant tube, connected to the compressor and the expansion valve 1. An air conditioner for communication equipment comprising an indoor unit module having a tile, an indoor and an outdoor air blower, and an outdoor unit module,
In the indoor unit module,
A first indoor heat exchanger in which refrigerant that has been cooled by outside air firstly exchanges heat with indoor air; a second indoor heat exchanger in which refrigerant sequentially passing through the first indoor heat exchanger is heat-exchanged with a condenser; A bypass pipe for circulating the refrigerant without passing through the primary indoor heat exchanger, a first cooling water stage composed of a bypass valve provided in each of the circulation pipe and the bypass pipe,
A condenser for exchanging heat with the second indoor heat exchanger, an expansion valve, and a second cooling means comprising an evaporator,
Wherein the outdoor unit module includes a circulation pump installed on the circulation pipe and an outdoor heat exchanger. The method according to claim 1,
Wherein the evaporator is disposed closer to the tuyer than the first indoor heat exchanger, and the indoor air is sequentially passed through the first indoor heat exchanger and the evaporator by the indoor air blower to blow air to the communication equipment. The method according to claim 1 or 2,
Wherein the second cooling means is composed of a plurality of the first indoor heat exchangers and the second indoor heat exchangers so as to heat exchange with each other. The method according to claim 1 or 2,
Wherein a plurality of the outdoor heat exchangers are constructed and heat exchanged in duplicate. The method of claim 4,
Characterized in that the plurality of outdoor heat exchangers are selectively provided with a plurality of circulation pumps on one circulation pipe A control method of a cooling apparatus for communication equipment according to claim 1,
The entire amount of the refrigerant cooled by the outside air is introduced into the indoor unit module to heat-exchange with the first indoor heat exchanger, sequentially heat-exchange with the second indoor heat exchanger, and then out to the outdoor module,
And when the first indoor heat exchanger is not operated by the bypass valve, the entire refrigerant is heat-exchanged with the second indoor heat exchanger and is drawn out to the outdoor unit module.

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