KR20010106976A - A separative air-conditioner - Google Patents

Abstract

The present invention relates to a separate air conditioner, which operates a compressor having a different capacity depending on the temperature of indoor air to be cooled to improve energy efficiency, reduce noise, and form an outdoor heat exchanger in the form of a straight line. The fan load and therefore the noise are also reduced.

According to the present invention, two compressors (10, 11), which are selectively operated according to the temperature of the indoor air and have different capacities for compressing the refrigerant sucked through the suction pipe and discharged to the discharge pipe, are connected to and compressed with the two compressors. It is connected to the outdoor heat exchanger 20 for condensing the refrigerant using outdoor air and the indoor heat exchanger 40 for evaporating the refrigerant using the indoor air to separate the refrigerant and the oil to draw the oil into the suction pipes 150 and 151 of the compressor. The oil separator 60 introduced into the gas-liquid separator 51 and the refrigerant separated therein, and two refrigerants containing the liquid refrigerant in the refrigerant introduced from the oil separator 60 and introducing only the gaseous refrigerant into the compressor. It is to provide a separate air conditioner including an outdoor unit composed of a gas-liquid separator (51).

Description

Separable air conditioner

The present invention is to install two compressors in the outdoor unit of the separate air conditioner, to improve the structure of the outdoor unit in which the compressor is installed, and to improve the energy efficiency.

In general, the air conditioner is discharged from the indoor and outdoor heat exchangers (40, 20) for evaporating or condensing the refrigerant through heat exchange with the compressor (10) for compressing the refrigerant, and the expansion valve (30) and the indoor heat exchanger to flow into the compressor. It is composed of a gas-liquid separator 50 to separate only the refrigerant in the gas phase to be introduced into the compressor.

In the case of a separate air conditioner, the outdoor unit is provided with a compressor 10, an outdoor heat exchanger 20, and a gas-liquid separator 50.

Such a conventional split air conditioner is the same as that shown in Figs. 1 and 2, the outdoor unit installed in the outdoor and the outdoor heat exchanger 20 is bent and installed so that heat exchange efficiency can be increased and the gas-liquid connected to the compressor It consists of a separator (50).

In addition, a fan 21 installed at a rear side of the outdoor heat exchanger 20 to blow air to the outdoor heat exchanger 20 and a blocking wall 12 for reducing noise generated when the compressor is driven are also included.

However, in the outdoor unit having such a structure, since the outdoor heat exchanger 20 is installed along the inner wall of the outdoor unit case separated by the blocking wall 12 so that the heat exchange area can be increased, the air is blown by the rotation of the fan 21. The flow resistance of the air to be generated is large, thereby increasing the load of the fan (21, 41) to increase energy loss and noise.

In addition, the manufacturing cost is increased by the installation of the barrier wall 12, and the weight of the outdoor unit is unevenly formed due to the bent shape of the outdoor heat exchanger.

In addition, the compressor is inefficiently operated and noise is generated greatly because the entire compressor having a large cooling capacity must be operated even at the minimum cooling load.

The present invention has been made to solve the above problems, and the object of the present invention is to provide a separate air conditioner that improves the structure of the separate air conditioner and changes its shape, thereby improving energy efficiency and reducing noise. .

1 is a schematic configuration diagram showing the configuration of a conventional air conditioner

2 is a perspective view showing an outdoor unit including a compressor and an outdoor heat exchanger installed outdoors of a conventional split air conditioner.

3 is a schematic configuration diagram showing a configuration of an air conditioner according to the present invention;

Figure 4 is a perspective view showing an outdoor unit composed of a compressor and an outdoor heat exchanger installed in the outdoor of the separate air conditioner according to the present invention

<Description of Signs of Main Parts of Drawing>

10, 11: first and second compressor 20: outdoor heat exchanger

30 expansion valve 40 indoor heat exchanger

50,51: first and second gas-liquid separator 60: oil separator

21,41: fan 150,151: first and second suction pipe

560,561: refrigerant pipe 12: blocking wall

160161: first and second oil piping

To this end, the present invention provides two compressors having different capacities to be selectively operated according to the temperature of indoor air and to compress the refrigerant sucked through the suction pipe and discharge the refrigerant to the discharge pipe, and the refrigerant compressed in connection with the two compressors outdoors. It is connected to an outdoor heat exchanger that condenses using air, and an indoor heat exchanger that evaporates refrigerant using indoor air, and separates refrigerant and oil to introduce oil into the suction pipe of the compressor and separate refrigerant into a gas-liquid separator. And a separate air conditioner including an outdoor unit comprising two gas-liquid separators which retain the liquid phase of the refrigerant introduced from the oil separator and introduce only the gaseous refrigerant into the compressor.

This will be described in more detail the configuration of the separate air conditioner according to the accompanying drawings.

Figure 3 is a schematic configuration diagram showing the configuration of an air conditioner according to the present invention, Figure 4 is a perspective view showing an outdoor unit of a separate type air conditioner equipped with a compressor and an outdoor heat exchanger according to the present invention.

As shown in FIG. 3, discharge pipes of the first and second compressors 10 and 11 are connected to an outdoor heat exchanger 20, and an expansion valve 30 having a reduced diameter is connected thereto. An indoor heat exchanger 40 is connected to the expansion valve.

In addition, an oil separator 60 is connected to the discharge tube of the indoor heat exchanger 40 so that the first and second refrigerant pipes 560 and 561 of the oil separator are installed in the first and second compressors 10 and 11, respectively. Connected to the first and second gas-liquid separators 50 and 51, respectively.

The first and second oil pipes 160 and 161 of the oil separator 60 may include first and second suction pipes connecting the first and second gas-liquid separators 50 and 51 to the first and second compressors. 150, 151).

In addition, the first and second gas-liquid separators 50 and 51 are connected to the first and second compressors 10 and 11 through the first and second suction pipes 150 and 151, respectively.

The devices having the schematic connection described above are installed in the outdoor unit of the air conditioner so that the weight unbalance does not occur and the production is easy as shown in FIG. 4.

That is, two compressors 10 and 11 are installed at both sides of the outdoor unit, the discharge pipes of both compressors are connected to the suction pipes of the outdoor heat exchanger 20, and the gas-liquid separators 50 and 51 connected to the suction pipes of the compressor. Are each located on one side of the compressor.

At this time, the sum of the cooling capacity of the two compressors is the same as the cooling capacity of the conventional compressor, the outdoor heat exchanger 20 is formed in a fin-tube structure is arranged along the inner wall surface of the outdoor unit in a straight line, The fan 21 is located.

As the fan 21 is rotated at the center of the outdoor unit with compressors on both sides, outside air flows to the outdoor heat exchanger through a vent formed in the case of the outdoor unit.

In addition, in the refrigerant evaporated and discharged from the indoor heat exchanger 40 installed indoors, the oil leaked from the compressor is mixed, and the oil separator 60 separating the oil is connected to each gas-liquid separator through the refrigerant pipes 560 and 561. 50, 51, and is connected to each of the suction pipe (150,151) through the oil pipe (160,161).

Looking at the operation of the separate air conditioner according to the present invention having such a configuration as follows.

The temperature of the indoor air is adjusted according to the outside temperature, and two compressors with different compression capacities are operated independently so that unnecessary energy loss does not occur.

As an example, when the indoor air temperature is high due to high outside temperature and the indoor cooling load is large to maintain a cooled indoor temperature, two first compressors 10 and two second compressors 11 simultaneously operate. do.

That is, while the first compressor 10 and the second compressor 11 are simultaneously operated, the refrigerant is compressed and flows into the outdoor heat exchanger 20 through the discharge pipe.

The high temperature and high pressure refrigerant introduced into the outdoor heat exchanger is heat-exchanged with outdoor air blown in accordance with the rotation of the fan 21 through the fins that are installed in the plurality of rows and the outer circumferential surface thereof to increase the contact area. Condensation into the liquid refrigerant occurs.

The refrigerant condensed as described above is decompressed while passing through the expansion valve 30 to form a low-temperature / low-pressure liquid refrigerant, and absorbs heat of indoor air blown by the rotation of the fan 41 in the indoor heat exchanger 40. It is heat exchanged and evaporated to gas at low temperature.

Then, the evaporated refrigerant is introduced into the oil separator 60, the oil and the refrigerant used for lubrication and heat dissipation are separated when the compressor is driven, so that only the refrigerant is connected to the first and second compressors 10 and 11. And second and second gas liquid separators 50 and 51 through the first and second refrigerant pipes 560 and 561.

In addition, the refrigerant passing through the first and second gas-liquid separators separates only the refrigerant in the gas phase from the liquid phase and flows into the first and second compressors 10 and 11 through the first and second suction pipes 150 and 151.

Meanwhile, the oil separated from the oil separator 60 is transferred to the suction pipes 150 and 151 of the compressor through the first and second oil pipes 160 and 161 and recovered to the first and second compressors.

As another embodiment of the present invention, when the external air temperature is a temperature condition that requires a cooling capacity larger than the rated cooling capacity of the second compressor 11 having a smaller capacity and smaller than the rated cooling capacity of the first compressor 10 having a large capacity, The first compressor 10 is operated and the second compressor 11 is kept stationary.

Therefore, the high-temperature, high-pressure gaseous refrigerant compressed by the first compressor 10 is condensed while passing through the linear outdoor heat exchanger 20, and evaporated while passing through the expansion valve 30 and the indoor heat exchanger 40. And flows into the oil separator 60.

The oil and the refrigerant are separated from the oil separator 60, and the separated refrigerant flows into the first gas-liquid separator 50 through the first refrigerant pipe 560, and the oil passes through the suction pipe of the first compressor 10. Flows into the first compressor (10).

The gaseous refrigerant separated from the liquid refrigerant in the first gas-liquid separator 50 is also introduced into the first compressor 10 through the suction pipe of the first compressor.

On the other hand, as shown in another embodiment of the present invention, when the external temperature is a temperature condition that requires a cooling capacity smaller than the rated capacity of the first compressor, less than the rated capacity of the second compressor, the second compressor (11) ) Is operated and the first compressor 10 is stopped.

Therefore, the high-temperature, high-pressure gaseous refrigerant compressed by the second compressor 11 is formed at low temperature and low pressure while passing through the linear outdoor heat exchanger 20, and the expansion valve 30 and the indoor heat exchanger 40 are formed. The refrigerant evaporated through the oil separator 60 is introduced through.

While passing through the oil separator 60, the refrigerant separates the oil flowing out of the compressor and flows into the second gas-liquid separator 51 through the second refrigerant pipe 561.

At this time, the heavy liquid refrigerant is separated and stored in the gas-liquid separator 51 while passing through the second gas-liquid separator 51, and only the gaseous refrigerant having a light density is passed through the second suction pipe 151. Flow into the second compressor 11 repeats the cycle continuously.

In addition, the oil separated from the oil separator 60 flows into the second compressor through the second oil pipe 161 connected to the second suction pipe 151 to smoothly drive the compressor and absorb heat. Do not damage the compressor by overheating.

In this way, when the compressor is selectively driven according to the external temperature, the external air blown to condense the refrigerant of the outdoor heat exchanger passes through the straight heat exchanger, so the pressure loss is reduced compared to passing through the bent heat exchanger. The load is reduced so that the small size fan 21 is installed in the outdoor unit.

As mentioned in the above-described configuration and operation process, the present invention selectively uses two compressors having different cooling capacity according to the temperature condition of the external air temperature, thereby preventing the inefficient operation of the compressor and improving energy efficiency. Power is reduced.

Further, by forming the heat exchanger in a straight shape, the weight of the outdoor unit is equally formed to prevent breakage during transportation, and the flow resistance of the heat exchanged air is reduced to improve the energy efficiency of the air conditioner.

In addition, since a plurality of compressors having different capacities are selectively used according to cooling loads, and a straight heat exchanger is used to reduce the flow resistance of the air, so that less noise is generated than a conventional barrier wall. And manufacturing costs can be lowered.

In addition, since the fan load is reduced due to the decrease in the air flow resistance, a small fan can be used, so that the outdoor unit can be made compact.

Claims (3)

Two compressors selectively operating according to the temperature of the indoor air and having different capacities for compressing the refrigerant sucked through the suction pipe and discharging the refrigerant to the discharge pipe; An outdoor heat exchanger connected to the two compressors to condense the compressed refrigerant using outdoor air; An oil separator connected to an indoor heat exchanger for evaporating refrigerant by heat exchange with indoor air to separate the refrigerant and oil so that oil is introduced into the suction pipe of the compressor, and the separated refrigerant is introduced into the gas-liquid separator; And an outdoor unit comprising two gas-liquid separators for retaining a liquid phase of the refrigerant introduced from the oil separator and introducing only a gaseous refrigerant into the compressor. The method of claim 1, The two compressors are installed in the outdoor unit so as to face each other. The method of claim 2, The outdoor heat exchanger is formed in the form of a linear air conditioner, characterized in that installed in the outdoor unit.