KR100208132B1 - Refrigerating cycle and coolant control apparatus for air conditioner - Google Patents

Abstract

The present invention relates to a refrigeration cycle and a refrigerant control device of an air conditioner, and to reduce the capacity of the condenser by primarily lowering the high temperature, high pressure gas temperature introduced into the condenser.

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로 온도가 저하된 고압의 액상냉매는 증발압력까지 팽창시키는 팽창밸브(30)를 통과하면서 저온저압의 기체와 액체로 공존하는 냉매로 되어 증발기(40)에 유입되는 한편, 상기 증발기(40)로 유입된 냉매는 증발기(40)를 통과하면서 기화할 때 실내팬에 의해 송풍되는 공기에서 열을 빼앗아 실내공기를 냉각시킨 다음, 그 냉각된 공기(냉풍)를 실내로 토출해서 냉방을 행하고, 상기 증발기(40)에서 상변화된 저온저압의 기체냉매는 다시 압축기(10)에 의해 흡입되어 반복순환되는 공기조화기의 냉동싸이클에 있어서, 상기 냉매관(a)을 통해 응축기(20)로 인입되는 고온,고압의 냉매가 상기 냉매관(b)에 의해 응축기(20)에서 응축된 냉매를 공급시킨 응축관(50)의 중앙으로 통과시켜 1차응축을 시도한 뒤 응축기(20)로 유입되도록 하고, 상기 응축관(50)의 냉매는 냉매관(c)을 통해 압축기(10)로 회수하도록 있다.The present invention, when the refrigerant compressed in the gas state of high temperature and high pressure by the compressor 10 flows into the condenser 20 through the refrigerant pipe (a), the gas refrigerant compressed to high temperature and high pressure to the air blown by the cooling fan Heat exchange to liquefy the refrigerant by forced cooling, and about 35 in the condenser 20

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The high pressure liquid refrigerant at which the furnace temperature is lowered is introduced into the evaporator 40 while passing through an expansion valve 30 which expands to the evaporation pressure and becomes a refrigerant coexisting with gas and liquid of low temperature and low pressure. When the introduced refrigerant vaporizes while passing through the evaporator 40, the refrigerant is taken away from the air blown by the indoor fan to cool the indoor air, and then the cooled air (cold air) is discharged to the room for cooling. In the refrigeration cycle of the air conditioner, the low-temperature low-temperature gas refrigerant is changed by the compressor (10) is repeatedly sucked by the compressor 10, the high temperature introduced into the condenser 20 through the refrigerant pipe (a), The high-pressure refrigerant is passed through the condenser tube 50 to which the refrigerant condensed in the condenser 20 is supplied by the refrigerant tube b so as to firstly condense and then flow into the condenser 20. The refrigerant in the tube 50 is a refrigerant Through (c) may be returned to the compressor (10).

Description

Refrigeration cycle and refrigerant control device of air conditioner

The present invention relates to a refrigeration cycle and a refrigerant control device of an air conditioner, and in particular, a refrigeration cycle and a refrigerant of an air conditioner capable of reducing the capacity of the condenser by primarily lowering the high temperature and high pressure gas temperature introduced into the condenser. It relates to a control device.

In general, the refrigeration cycle of the air conditioner, as shown in FIG. 1, when the refrigerant compressed in the gas state of the high temperature and high pressure by the compressor 10 flows into the condenser 20 through the refrigerant pipe (a) condenser ( In 20), the gas refrigerant compressed at high temperature and high pressure is exchanged with air blown by a cooling fan to liquefy the refrigerant by forcibly cooling the liquid.

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로 온도가 저하된 고압의 액상냉매는 증발압력까지 팽창시키는 팽창밸브(30)를 통과하면서 저온저압의 기체와 액체로 공존gkl는 냉매로 되어 증발기(40)에 유입된다.And then about 35 at the condenser 20

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The high pressure liquid refrigerant at which the furnace temperature is lowered passes through the expansion valve 30 which expands to the evaporation pressure, and coexists with the gas and the liquid at low temperature and low pressure. Gkl becomes a refrigerant and flows into the evaporator 40.

Meanwhile, the refrigerant introduced into the evaporator 40 takes heat from the air blown by the indoor fan when the refrigerant flows through the evaporator 40 to cool the indoor air, and then discharges the cooled air (cold air) into the room. Cooling is performed, and the low-temperature low-pressure gas refrigerant changed in the evaporator 40 is again sucked by the compressor 10 to form a refrigerating cycle.

의 온도와 고압인 냉매가 응축기(20)로 유입되어 약 35

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의 온도로 저하되어야 하기 때문에 응축기의 용량이 큰 것을 필요로 하게 되는 결점이 있었다.However, this refrigeration cycle is about 90 discharged from the compressor (10)

Of refrigerant having a high temperature and high pressure flows into the condenser 20

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There is a drawback that the capacity of the condenser needs to be large because it must be lowered to the temperature of.

Accordingly, the present invention has been made to solve the above-mentioned drawbacks, attempts to first condensate the high temperature, high pressure refrigerant temperature introduced into the condenser to the refrigerant condensed in the condenser to lower the refrigerant temperature flowing into the condenser It is an object of the present invention to provide a refrigeration cycle and a refrigerant control device of an air conditioner capable of reducing the capacity.

1 is an explanatory diagram showing a refrigerant control device of a general air conditioner.

2 is an explanatory view showing a refrigerant control device of the air conditioner according to the present invention.

* Explanation of symbols for main parts of the drawings

a, b, c: refrigerant tube 10: compressor

20: upper plate 30: expansion valve

40: evaporator 50: condensation tube

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로 온도가 저하된 고압의 액상냉매는 증발압력까지 팽창시키는 팽창밸브를 통과하면서 저온저압의 기체와 액체로 공존하는 냉매로 되어 증발기에 유입되는 한편, 상기 증발기로 유입된 냉매는 증발기를 통과하면서 기화할 때 실내팬에 의해 송풍되는 공기에서 열을 빼앗아 실내공기를 냉각시킨 다음, 그 냉각된 공기(냉풍)를 실내로 토출해서 냉방을 행하고, 상기 증발기에서 상변화된 저온저압의 기체냉매는 다시 압축기에 의해 흡입되어 반복순환되되, 상기 냉매관을 통해 응축기로 인입되는 고온,고압의 냉매가 상기 냉매관에 의해 응축기에서 응축된 냉매를 공급시킨 응축관의 중앙으로 통과시켜 1차응축을 시도한 뒤 응축기로 유입되도록 하고, 상기 응축관의 냉매는 냉매관을 통해 압축기로 회수하도록 냉매싸이클을 구성한다.The present invention for achieving the above object, when the refrigerant compressed in the gas state of high temperature and high pressure by the compressor flows into the condenser through the refrigerant pipe in the condenser air is blown by the cooling fan the gas refrigerant compressed to high temperature and high pressure To cool the refrigerant by liquefied heat exchanger, and the condenser

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The high-pressure liquid refrigerant at which the furnace temperature is lowered passes through an expansion valve that expands to the evaporation pressure and becomes a refrigerant that coexists with gas and liquid of low temperature and low pressure and enters the evaporator, while the refrigerant introduced into the evaporator evaporates while passing through the evaporator. When cooling the indoor air by taking heat from the air blown by the indoor fan, and then discharged the cooled air (cool air) to the room to perform the cooling, the low-temperature low-pressure gas refrigerant in the evaporator is returned to the compressor Suctioned by the refrigerant pipe and the high-temperature, high-pressure refrigerant drawn into the condenser through the refrigerant pipe passes through the center of the condenser tube supplied with the refrigerant condensed in the condenser by the refrigerant pipe, and then attempts to condense to the condenser. The refrigerant cycle of the condenser tube is configured to recover the refrigerant to the compressor through the refrigerant tube.

In addition, the refrigerant control device includes a compressor for discharging a high-temperature, high-pressure refrigerant, a condenser for injecting gas refrigerant discharged through the refrigerant pipe from the compressor and heat exchanged with air blown by a cooling fan to forcibly cool and liquefy the refrigerant; Refrigerant of an air conditioner consisting of an expansion valve for depressurizing the refrigerant condensed in the condenser and an evaporator for removing heat from the air blown by the indoor fan when the refrigerant depressurized in the expansion valve is evaporated to cool the indoor air. In the control apparatus, a refrigerant pipe for branching the refrigerant condensed in the condenser, a condenser tube installed at the tip of the refrigerant tube, and the refrigerant tube passing through the center, and the refrigerant in the condenser tube is recovered to the compressor. The pipe is installed.

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

2 is an explanatory diagram showing a refrigerant control apparatus of an air conditioner according to the present invention, and the same reference numerals are attached to the same parts as in FIG.

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로 온도가 저하된 고압의 액상냉매는 증발압력까지 팽창시키는 팽창밸브(30)를 통과하면서 저온저압의 기체와 액체로 공존하는 냉매로 되어 증발기(40)에 유입되는 한편, 상기 증발기(40)로 유입된 냉매는 증발기(40)를 통과하면서 기화할 때 실내팬에 의해 송풍되는 공기에서 열을 빼앗아 실내공기를 냉각시킨 다음, 그 냉각된 공기(냉풍)를 실내로 토출해서 냉방을 행하고, 상기 증발기(40)에서 상변화된 저온저압의 기체냉매는 다시 압축기(10)에 의해 흡입되어 반복순환되는 공기조화기의 냉동싸이클에 있어서, 상기 냉매관(a)을 통해 응축기(20)로 인입되는 고온,고압의 냉매가 상기 냉매관(b)에 의해 응축기(20)에서 응축된 냉매를 공급시킨 응축관(50)의 중앙으로 통과시켜 1차응축을 시도한 뒤 응축기(20)로 유입되도록 하고, 상기 응축관(50)의 냉매는 냉매관(c)을 통해 압축기(10)로 회수하도록 되어 있다.In the present invention, the refrigeration cycle, when the refrigerant compressed in the gas state of high temperature and high pressure by the compressor 10 flows into the condenser 20 through the refrigerant pipe (a), the condenser 20 receives the gas refrigerant compressed to high temperature and high pressure. Heat exchanged with the air blown by the cooling fan to liquefy the refrigerant by forced cooling, about 35 in the condenser 20

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The high pressure liquid refrigerant at which the furnace temperature is lowered is introduced into the evaporator 40 while passing through an expansion valve 30 which expands to the evaporation pressure and becomes a refrigerant coexisting with gas and liquid of low temperature and low pressure. When the introduced refrigerant vaporizes while passing through the evaporator 40, the refrigerant is taken away from the air blown by the indoor fan to cool the indoor air, and then the cooled air (cold air) is discharged to the room for cooling. In the refrigeration cycle of the air conditioner, the low-temperature low-temperature gas refrigerant is changed by the compressor (10) is repeatedly sucked by the compressor 10, the high temperature introduced into the condenser 20 through the refrigerant pipe (a), The high-pressure refrigerant is passed through the condenser tube 50 to which the refrigerant condensed in the condenser 20 is supplied by the refrigerant tube b so as to firstly condense and then flow into the condenser 20. The refrigerant in the tube 50 is a refrigerant It is to be returned to the compressor 10 through (c).

In addition, the refrigerant control device according to the refrigeration cycle, the compressor 10 for discharging the high-temperature, high-pressure refrigerant, the gas refrigerant discharged through the refrigerant pipe (a) from the compressor 10 is blown by the cooling fan A condenser 20 for liquefying the liquid by forcibly cooling the refrigerant by heat exchange with air, an expansion valve 30 for depressurizing the refrigerant condensed in the condenser 20, and a refrigerant depressurized in the expansion valve 30 to be vaporized. In the refrigerant control device of the heat exchanger consisting of an evaporator 40 to take the heat from the air blown by the indoor fan to cool the indoor air, the refrigerant condensed in the condenser 20 branch (b) And a condenser tube 50 installed at the front end of the refrigerant tube b and through which the refrigerant tube a passes to the center, and a refrigerant tube such that the refrigerant in the condensation tube 50 is recovered to the compressor 10. (c) is provided.

Therefore, when the high temperature and high pressure refrigerant compressed by the compressor 10 flows into the condenser 20 through the refrigerant pipe a, the condenser 20 exchanges the gas refrigerant compressed to high temperature and high pressure with air blown by a cooling fan. To force the refrigerant to liquefy.

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로 온도가 저하된 고압의 액상냉매는 증발압력까지 팽창시키는 팽창밸브(30)를 통과하면서 저온저압의 기체와 액체로 공존하는 냉매로 되어 증발기(40)에 유입된다.And then about 35 at the condenser 20

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The high pressure liquid refrigerant at which the furnace temperature is lowered is introduced into the evaporator 40 as a refrigerant that coexists with gas and liquid at low temperature and low pressure while passing through the expansion valve 30 which expands to the evaporation pressure.

Meanwhile, when the refrigerant introduced into the evaporator 40 evaporates while passing through the evaporator 40, the refrigerant takes heat from the air blown by the indoor fan to cool the indoor air, and then discharges the cooled air (cold air) into the room. Cooling is performed, and the low-temperature low-pressure gas refrigerant changed in the evaporator 40 is again sucked by the compressor 10 to form a refrigerating cycle.

In addition, the refrigerant condensed in the condenser 20 is introduced into the condenser tube 50 through the refrigerant tube b, and the refrigerant in the refrigerant tube a passed through the center of the condenser tube 50 is first condensed. This will be introduced into the condenser 20.

On the other hand, the refrigerant of the condensation pipe 50 is recovered to the compressor 10 through the refrigerant pipe (c).

That is, attempting to first condense the refrigerant temperature introduced into the condenser 20 into the refrigerant condensed in the condenser 20 may lower the refrigerant temperature flowing into the condenser 20.

As described above, according to the present invention, the first condensation of the high-temperature, high-pressure refrigerant temperature introduced into the condenser with the refrigerant condensed in the condenser to reduce the refrigerant temperature flowing into the condenser to reduce the capacity of the condenser There is.

One embodiment according to the object of the present invention is not limited thereto, and those skilled in the art will be able to make various changes and modifications based on the technical idea of the present invention.

Claims (2)

When the refrigerant compressed in the gas state of high temperature and high pressure by the compressor flows into the condenser through the refrigerant pipe, the condenser heats the gas refrigerant compressed at high temperature and high pressure with air blown by a cooling fan to liquefy the refrigerant by forced cooling. About 35 at the condenser

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The high-pressure liquid refrigerant at which the furnace temperature is lowered passes through an expansion valve that expands to the evaporation pressure and becomes a refrigerant that coexists with gas and liquid of low temperature and low pressure and enters the evaporator, while the refrigerant introduced into the evaporator evaporates while passing through the evaporator. When cooling the indoor air by taking heat from the air blown by the indoor fan, and then discharged the cooled air (cool air) to the room to perform the cooling, the low-temperature low-pressure gas refrigerant in the evaporator is returned to the compressor Suctioned by the refrigerant pipe and the high-temperature, high-pressure refrigerant drawn into the condenser through the refrigerant pipe passes through the center of the condenser tube supplied with the refrigerant condensed in the condenser by the refrigerant pipe, and then attempts to condense to the condenser. The refrigerant of the condensation pipe is to be introduced into the compressor through the refrigerant pipe to the refrigeration of the air conditioner, characterized in that Cycle. A compressor for discharging a high-temperature, high-pressure refrigerant, a condenser for injecting gas refrigerant discharged through a refrigerant pipe from the compressor, heat exchanged with air blown by a cooling fan, forcibly cooling the liquid to liquefy, and the refrigerant condensed in the condenser A refrigerant control device of an air conditioner comprising an expansion valve for reducing pressure and an evaporator for extracting heat from air blown by an indoor fan when the refrigerant depressurized in the expansion valve is introduced and vaporized, thereby cooling the indoor air. A refrigerant pipe in which the refrigerant condensed in the condenser diverges, a condenser tube installed at the front end of the refrigerant tube, and through which the refrigerant tube passes through the center, and a refrigerant tube installed to recover the refrigerant from the condenser tube to the compressor; Refrigerant control device of the air conditioner.

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