KR100193332B1 - Water-cooled heat circulation cooling system - Google Patents

Abstract

The present invention relates to a water-cooled heat circulation cooling system, which is a high temperature refrigerant gas. Compressor compressed with high pressure gas and high temperature sent from this compressor. A condenser to cool and liquefy the high pressure refrigerant, a receiver tank to allow the cooled liquefied refrigerant to flow through the high pressure pressure control valve, and a complete liquid refrigerant formed by the receiver tank to pass through the high pressure filter and the expansion valve. An evaporator which expands and at the same time the refrigerant introduced therein absorbs the heat of the surroundings and performs heat exchange, and a cooling cycle connected to each of the lines so that the refrigerant is recovered from the compressor; A storage tank for storing the antifreeze, a pump for forcibly circulating the antifreeze in the tank, an indoor heat exchanger provided in the indoor unit such that cold air is discharged into the room by a blower fan after the antifreeze flows into the heat exchanger, and the indoor heat exchanger An antifreeze circulation cycle formed by connecting a dry cooler installed outdoors so that the coarse antifreeze is cooled again and a line for recovering the antifreeze cooled in the dry cooler to the antifreeze storage tank again through three directions; It should be composed of a dedicated antifreeze cooling line provided with a separate auxiliary line on the line from the indoor heat exchanger to the evaporator and the three-way.

Description

Water-cooled heat circulation cooling system

1 is a block diagram showing the overall configuration of the present invention.

2 is a cross-sectional view showing the configuration of an evaporator among the components of the present invention.

* Explanation of symbols for main parts of the drawings

1: compressor 2: condenser

3: high pressure pressure control valve 4: receiver tank

5: high pressure filter 6: expansion valve

7: evaporator 10: cooling cycle

11: storage tank 12: pump

13: indoor heat exchanger 14: dry cooler

15: three-way 20: antifreeze circulation cycle

30: antifreeze cooling line 40: auxiliary cooling unit

41: water supply pump 42: injection nozzle

The present invention relates to a water-cooled heat circulation type cooling system of the present invention. In particular, the cooling cycle is performed by operating a normal cooling cycle in the summer and winter, and the external temperature is low in the winter, and thus the cooling cycle is not operated. The antifreeze stored therein is cooled by external air and forcedly circulated to an indoor heat exchanger installed in an indoor unit, thereby allowing cooling air to be discharged to the room through a discharge fan, thereby cooling and contributing to energy saving.

In general, air conditioners are installed outdoors, such as on the roof of a building, and sent to a compressor. It consists of an outdoor unit having a condenser to cool the high-pressure refrigerant to the temperature of the outside air to liquefy, and an indoor unit to introduce the refrigerant liquefied from the condenser of the outdoor unit into the room and undergo a heat exchange in the evaporator to be discharged into the room.

That is, the air conditioner having such a rough configuration compresses the refrigerant gas in the compressor to produce a high temperature. It is brought to a state of high pressure and cooled by a cooling fan in the installed condenser to pass the liquefied liquid refrigerant through the receiver tank through the high pressure pressure regulating valve, and the complete liquid refrigerant formed by the receiver tank receives the high pressure filter and the expansion valve. It expands and draws it to the evaporator side. At this time, the refrigerant in the evaporator absorbs the surrounding heat and becomes a gas state to perform indoor cooling by a series of repetitive cooling cycles recovered through the liquid separator to the compressor. In this case, the cold air that has undergone heat exchange in the evaporator is supplied to the room by a blower fan installed at the discharge grill side of the indoor unit as the air conditioner is operated.

However, the cooling system composed of such general cooling cycles consumes a lot of power and excessively burdens the machine since the cooling cycle must be continuously operated regardless of the season or weather such as winter or midnight, etc. in a machine room equipped with communication facilities except general households. There have been problems such as problems with the use of notes and improper use.

Accordingly, the present invention is to solve the above-mentioned problems, and in particular, whether or not the normal cooling cycle is operated according to the summer or winter to suit the characteristics of the air conditioner installed in the machine room equipped with communication-related equipment, In general, by cooling only water cooling heat (antifreeze) stored in the storage tank, the cost loss caused by continuous operation of the cooling cycle is suppressed as much as possible, thereby reducing the cooling cost by reducing the operating time of the normal cooling cycle. The purpose is to provide a cooling heat circulation cooling system.

The present invention is a high temperature refrigerant gas. Compressor compressed with high pressure gas and high temperature sent from this compressor. A condenser to cool and liquefy the high pressure refrigerant, a receiver tank allowing the cooled liquefied liquid refrigerant to flow through the high pressure pressure control valve, and a complete liquid refrigerant formed by the receiver tank is passed through a high pressure filter and an expansion valve. An evaporator which expands and at the same time absorbs the surrounding heat so that heat exchange is performed, and a cooling cycle is connected to each of the lines so that the refrigerant is recovered from the compressor; A storage tank for storing the antifreeze, a pump for forcibly circulating the antifreeze in the tank, an indoor heat exchanger provided in the indoor unit such that cold air is discharged into the room by a blower fan after the antifreeze flows into the heat exchanger, and the indoor heat exchanger An antifreeze circulation cycle formed by connecting a dry cooler installed outdoors so that the coarse antifreeze is cooled again and a line for recovering the antifreeze cooled in the dry cooler to the antifreeze storage tank again through three directions; It is composed of a dedicated antifreeze cooling line to be connected to one side of the three sides through the evaporator of the cooling cycle by providing a separate auxiliary line on the line from the indoor heat ventilator to the dry cooler.

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

1 is a block diagram showing the configuration of the present invention, the present invention is a cooling cycle 10, the antifreeze circulation cycle 20 and the antifreeze cooling line 30 provided on the antifreeze circulation cycle 20 It is characterized by the configuration made.

The cooling cycle 10 is configured in one line, the refrigerant gas at a high temperature. Compressor (1) is provided to compress the gas with high pressure, one side of the compressor (1) is provided with a condenser (2) is a high temperature sent from the compressor (1). The high pressure refrigerant is cooled to be liquefied, and the liquid refrigerant cooled in the condenser 2 is connected to flow into the receiver tank 4 through the high pressure pressure regulating valve 3 installed on the line. The complete liquid refrigerant introduced into the tank (4) expands through the high pressure filter (5) and the expansion valve (6) and is introduced into the evaporator (7) so that the introduced refrigerant absorbs the heat of the surroundings to perform heat exchange. Afterwards it is made of a configuration that is connected to recover to the compressor (1) again.

In addition, the antifreeze circulation line 20 is provided with a storage tank 11 for storing ice heat, i.e., antifreeze, on one side, and a pump 12 for forcibly circulating the antifreeze on one side of the storage tank 11 is provided. The pump 12 is also configured to be connected to the preliminary pump 12a as needed to be used in an emergency, and the antifreeze circulated by the pump 12 is an indoor heat exchanger installed in an indoor unit having a blowing fan. Cold air is discharged into the room by the blowing fan after the heat exchange is performed to the heat exchanger, and the antifreeze passing through the indoor heat exchanger 13 passes to the dry cooler 14 installed outdoors so as to cool again. It consists of a configuration to be recovered to the antifreeze storage tank 11 through the three-way side (15) installed in this, a separate auxiliary on the line from the indoor heat exchanger (13) to the three-way side (15) It is provided with a line consisting of an antifreeze cooling line 30 so as to be connected to one side of the three sides 15 through the evaporator (7) of the cooling cycle (10).

On the other hand, the evaporator (7) is a cylindrical body for cooling only the antifreeze to flow back into the storage tank (11), a plurality of refrigerant lines (7a) is bent in the center is connected to the compressor (1) In addition, an antifreeze flow path 7b is formed between the refrigerant lines 7a so that the antifreeze flows in the process of circulating the antifreeze flowing into the cylindrical body in the refrigerant line 7a.

In addition, the condenser (2) is provided with an auxiliary cooling unit (40) for supplying direct water from the feed water pump (42) to one side to be injected into the injection nozzle 42, which is the cooling efficiency of the condenser (2) It is intended to be improved.

Reference numeral 8 denotes available power, which serves to release the refrigerant gas to the outside in the event of a failure of the high-pressure circuit breaker, and stop the operation, and 9 denotes a low pressure filter that filters the refrigerant passing through the evaporator 7.

Referring to the operation and effects of the present invention configured as described above are as follows.

The present invention operates two types of operations in the case of cooling the antifreeze by cooling the antifreeze by operating the normal cooling cycle 10 during the summer or during the heat wave, and in the case of cooling by operating only the antifreeze circulation cycle 20 in the low winter temperature. In the former case, the normal cooling cycle 10 is operated to cool the air, and at this time, the refrigerant gas is heated at a high temperature in the compressor 1. By compressing to a high pressure state, the liquid refrigerant cooled in the condenser (2) passes through the receiver tank (4) through the high pressure pressure control valve (3), and then passes through the high pressure filter (5) and expansion valve (6) At the same time, a series of operations are performed to draw heat into the evaporator side 7 to perform heat exchange and then to return to the gas state to recover the compressor 1. At this time, the cooled antifreeze is pumped by the pump 12 to the indoor heat exchange. After circulating through the air (13) to discharge the cold air into the room by the blower fan again through the evaporator (7) is cooled again to repeat the circulation flowing into the storage tank (11) through one side of the three-way (15). Will be done.

When the cooling cycle 10 is operated as described above, the antifreeze cooled in the dry cooler 14 by the three-way valve 15 operated by an electronic signal is closed and cannot be introduced, but only the antifreeze cooling line 30 is provided. Will be opened.

On the other hand, the auxiliary cooling unit 40, which supplies the direct water by the feed water pump 41 to be injected into the injection nozzle 42, thereby improving the cooling efficiency of the condenser 2, operates according to the need of an external temperature. Be sure to

In the latter case, since the external air temperature is low during the winter season, sufficient cooling can be achieved even by circulating the antifreeze cooled in the dry cooler 14 without operating the cooling cycle 10. In this case, only the antifreeze circulation cycle 20 is operated. That is, the antifreeze is withdrawn from the storage tank 11 and circulated and supplied to the indoor heat exchanger 13 by the pump 12 to discharge cold air into the room by the blowing fan, and then cooled by the dry cooler 14 again. It is to be cooled by a series of operations to be introduced into the storage tank (11).

When cooling is performed by operating only the antifreeze circulation cycle 20 as described above, the cooling cycle 10 and the antifreeze exclusive cooling line 30 are closed by the three-way valve 15 operated by an electronic signal.

Therefore, the present invention configured as described above constitutes a system for cooling by antifreeze, and thus, operates a normal cooling cycle at midnight or summer to store the antifreeze generated in the storage tank, and then stores the antifreeze in the storage tank during the summer or the ordinary. By cooling only by the stored water-cooled heat circulation type, it prevents the increase of the electricity charge by continuously operating the cooling cycle, and divides it into the winter and summer, especially by reducing the operating time of the normal cooling cycle during the winter season. There is a characteristic effect that can be saved.

Claims (3)

Compressor 1 which compresses refrigerant gas into gas of high temperature and high pressure, and high temperature sent from this compressor. A condenser (2) for cooling and liquefying the high pressure refrigerant, a receiver tank (4) for allowing the cooled liquefied liquid refrigerant to flow through the high pressure pressure regulating valve (3), and a complete liquid formed by the receiver tank. The refrigerant is expanded by passing through the high pressure filter (5) and the expansion valve (6), and at the same time, the introduced refrigerant absorbs the heat of the surroundings, and the evaporator (7) for heat exchange to be recovered therefrom. A cooling cycle 10 connected to each of the lines; A storage tank 11 for storing the antifreeze, a pump 12 for forcibly circulating the antifreeze in the tank, and an indoor heat exchanger provided in the indoor unit so that cold air is discharged into the room by a blower fan after the antifreeze flows in and performs heat exchange. 13, the dry cooler 14 installed outdoors so that the antifreeze passing through the indoor heat exchanger is cooled again, and the antifreeze cooled in the dry cooler is returned to the antifreeze storage tank through the three-way valve 15 again. Antifreeze circulation cycle 20 by connecting the; Water-cooled heat circulation cooling system, characterized in that the anti-freeze cooling line 30 is provided with a separate auxiliary line on the line from the indoor heat exchanger (13) to the evaporator (7) and the three-way (15). . 2. The evaporator (7) according to claim 1, wherein the evaporator (7) is a cylindrical body for cooling only the antifreeze and flowing it back into the storage tank (11), and a plurality of refrigerant lines (7a) are refracted at the center thereof and one end thereof is returned to the compressor (1). And an antifreeze flow path 7b is formed between the refrigerant lines 7a so that the antifreeze is cooled in the process of circulating the refrigerant in the refrigerant line 7a. Water-cooled heat circulation cooling system. The auxiliary cooling unit 40 of claim 1, wherein one side of the condenser 2 is supplied with water directly from the feed water pump 41 to be injected into the injection nozzle 42 so as to improve the cooling efficiency of the condenser 2. Water cooling heat circulation cooling system characterized in that it comprises a.