KR101898592B1 - Air conditioner apparatus - Google Patents

Abstract

An air conditioner according to the present invention is installed in a ceiling of a room, at least one side of the room is exposed toward the inside, a first heat exchanger is disposed therein, a first duct communicated with the outside is arranged, A first air conditioner having an indoor air inlet and an indoor air outlet through which air is discharged into the indoor space; At least one surface is exposed toward the inside of the room, a second heat exchanger is disposed inside, a second duct communicating with the outside is disposed, and air is discharged to the room inlet and the room through which the room air is sucked A second air conditioner in which an indoor air outlet port is disposed; And a heat pump circulating a refrigerant in the first heat exchanger and the second heat exchanger to operate either the first heat exchanger or the second heat exchanger as an evaporator and the other as a condenser to form a heat pump cycle And the indoor air discharged from the room to the outside is discharged to the outside through one of the first heat exchanger and the second heat exchanger and outdoor air discharged from the outside to the room is discharged through the first heat exchanger Or the other of the second heat exchangers and is discharged to the room.
Since the evaporator and the condenser constituting the heat pump are disposed together on the ceiling of the room according to the present invention, the refrigerant pipe is not extended to the outside, and when the outdoor air is supplied, the outdoor air is dehumidified or humidified There is an advantage to be able to do.

Description

[0001] The present invention relates to a ceiling type air conditioner,

The present invention relates to a ceiling type air conditioner apparatus.

Generally, an air conditioner device refers to a device that discharges contaminated air in a room, and sucks fresh, clean air out of the room and supplies it to the room.

An air conditioner without ventilation function circulates indoor air while cooling or heating indoor air. There is a problem that the indoor air quality is gradually lowered when air conditioning is performed only by indoor air.

In recent years, there has been an increasing number of cases of installing an air conditioner having a ventilation function for sucking outdoor air and discharging indoor air.

In the case of an air conditioner having a ventilation function, it is generally installed in a ceiling of a room.

However, since the duct for supplying outdoor air and the duct for circulating indoor air are separately installed in the air conditioner having the ventilation function installed on the ceiling, it is difficult to install the duct.

Korean Patent Publication No. 10-2010-0128152

An object of the present invention is to provide a ceiling-type air conditioner having a ventilation function.

An air conditioner according to the present invention is installed in a ceiling of a room, at least one side of the room is exposed toward the inside, a first heat exchanger is disposed therein, a first duct communicated with the outside is arranged, A first air conditioner having an indoor air inlet and an indoor air outlet through which air is discharged into the indoor space; At least one surface is exposed toward the inside of the room, a second heat exchanger is disposed inside, a second duct communicating with the outside is disposed, and air is discharged to the room inlet and the room through which the room air is sucked A second air conditioner in which an indoor air outlet port is disposed; And a heat pump circulating a refrigerant in the first heat exchanger and the second heat exchanger to operate either the first heat exchanger or the second heat exchanger as an evaporator and the other as a condenser to form a heat pump cycle And the indoor air discharged from the room to the outside is discharged to the outside through one of the first heat exchanger and the second heat exchanger and outdoor air discharged from the outside to the room is discharged through the first heat exchanger Or the other of the second heat exchangers and is discharged to the room.

And a partition partitioning the inside of the first air conditioner into a one-layer flow path and a two-layer flow path, wherein the first heat exchanger may be disposed between the one-layer flow path and the two-layer flow path.

The lower portion of the first heat exchanger may be disposed in the one-layer flow path, and the upper portion may be disposed in the two-layer flow path.

Wherein the indoor air inlet port is disposed in the one-layer flow path, the room air flowing through the indoor air outlet structure passes through a lower portion of the first heat exchanger, the two-layer flow path communicates with the first duct, The outdoor air flowing from the first duct to the indoor discharge port can pass through the upper portion of the first heat exchanger.

The first air conditioner includes a first case installed in a ceiling of a room and exposed at least one side toward the room; The first duct communicating with the first case and the outdoor; A first outdoor fan connected to the first duct and flowing air of the first duct to an indoor side or an outdoor side; An indoor air outlet disposed in the first case and discharging air into the indoor air inlet and the indoor space in which room air is sucked; A first indoor fan disposed inside the first case and configured to flow indoor air sucked into the indoor air inlet; And the first heat exchanger disposed inside the case and performing heat exchange with the air to be flowed.

And a discharge louver for opening and closing the indoor discharge port.

And a partition partitioning the inside of the second air conditioner into a one-layer flow path and a two-layer flow path, and the second heat exchanger may be disposed between the one-layer flow path and the two-layer flow path.

The lower portion of the second heat exchanger may be disposed in the one-layer flow path, and the upper portion may be disposed in the two-layer flow path.

Wherein the indoor air inlet port is disposed in the one-layer flow path, the indoor air flowing through the indoor air outlet structure flows through the lower portion of the second heat exchanger, the two-layer flow path communicates with the second duct, The outdoor air flowing from the second duct to the indoor discharge port can pass through the upper portion of the second heat exchanger.

The second air conditioner includes a second case installed in a ceiling of a room and exposed at least one side toward the room; The second duct communicating the second case and the outdoors; A second outdoor fan connected to the second duct and flowing the air of the second duct to the indoor side or the outdoor side; An indoor air outlet disposed in the second case and discharging air into the indoor air inlet and the indoor space in which room air is sucked; A second indoor fan disposed inside the second case for flowing indoor air sucked into the indoor air inlet; And the second heat exchanger disposed inside the case and performing heat exchange with the air to be flowed.

And a discharge louver for opening and closing the indoor discharge port.

The second air conditioner includes a second case installed in a ceiling of a room and exposed at least one side toward the room; The second duct communicating the second case and the outdoors; A second outdoor fan connected to the second duct and flowing the air of the second duct to the indoor side or the outdoor side; An indoor air outlet disposed in the second case and discharging air into the indoor air inlet and the indoor space in which room air is sucked; A second indoor fan disposed inside the second case for flowing indoor air sucked into the indoor air inlet; And the second heat exchanger disposed inside the case and performing heat exchange with the air to be flowed.

And a partition for partitioning the inside of the first air conditioner into a one-layer flow path and a two-layer flow path, wherein the first heat exchanger is disposed in a one-layer flow path, the upper portion is disposed in a two- And a partition partitioning the inside of the air conditioner into a one-layer flow path and a two-layer flow path, wherein the lower portion of the second heat exchanger may be disposed in the one-layer flow path, and the upper portion may be disposed in the two-

A first discharge louver that opens and closes the indoor discharge port of the first air conditioner; And a second discharge louver for opening and closing the indoor discharge port of the second air conditioner, wherein the one-layer flow path and the two-layer flow path are disposed inside the first heat exchanger, and the first discharge louver And the one-layer flow path and the two-layer flow path may be disposed inside the second heat exchanger, and the second discharge louver may be disposed outside the second heat exchanger.

The first indoor fan of the first air conditioner may be disposed in the one-layer flow path of the first case, and the second indoor fan of the second air conditioner may be disposed in the one-layer flow path of the second case.

The air conditioning apparatus having a ventilation function according to the present invention has the following effects.

First, since the evaporator and the condenser constituting the heat pump are disposed together on the ceiling of the room, there is an advantage that the refrigerant pipe is not extended to the outside.

Second, the outdoor air can be supplied to the room through the first duct connected to the first air conditioner and the second duct connected to the second air conditioner, in the first air conditioner or the second air conditioner.

Third, when supplying outdoor air, there is an advantage that dehumidification or humidification can be provided for outdoor air.

Fourth, when either the first heat exchanger of the first air conditioner or the second heat exchanger of the second air conditioner is operated as an evaporator, and the other is operated as a condenser, Kant coating can be regenerated.

Fifth, when the dehumidifying efficiency of the heat exchanger performing the dehumidification is lowered, the functions of the evaporator and the condenser are alternated, and the dehumidified air can be continuously supplied through the room.

Sixth, since one duct is disposed in each of the first air conditioner and the second air conditioner, the duct structure installed on the ceiling can be simplified.

1 is a schematic configuration diagram showing an air conditioner apparatus according to a first embodiment of the present invention.
2 is a bottom view of the air conditioner apparatus shown in Fig.
3 is a front sectional view of the air conditioner apparatus shown in Fig.
4 is a configuration diagram of a heat pump according to the first embodiment of the present invention.
Fig. 5 is an operational example 1 of the air conditioner apparatus shown in Fig. 3. Fig.
Fig. 6 is an operational example 2 of the air conditioner apparatus shown in Fig. 3. Fig.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

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

2 is a bottom view of the air conditioner apparatus shown in Fig. 1, Fig. 3 is a side view of the air conditioner apparatus shown in Fig. 1, and Fig. FIG. 4 is an operation example 1 of the air conditioner apparatus shown in FIG. 3, and FIG. 5 is an operation example 2 of the air conditioner apparatus shown in FIG.

Referring to the drawings, an air conditioner according to an embodiment of the present invention includes a first air conditioner 100 installed in a ceiling of a room and having a first heat exchanger 150 disposed therein, A second air conditioner 200 in which a second heat exchanger 250 is disposed and a heat pump which circulates the refrigerant to the first heat exchanger 150 and the second heat exchanger 250 to form a heat pump cycle 300).

The heat pump 300 includes a compressor 310 for compressing a refrigerant, a four-way valve 320 for flowing the compressed refrigerant to either the first heat exchanger 150 or the second heat exchanger 250, A first expansion valve 330 for expanding the refrigerant flowing into the first heat exchanger 150 and a second expansion valve 340 for expanding the refrigerant flowing to the second heat exchanger 250.

The parts constituting the heat pump 300 are disposed inside the case 10. [

When the refrigerant compressed in the compressor 310 flows first to the first heat exchanger 150, the first heat exchanger 150 is used as a condenser and the second heat exchanger 250 is used as an evaporator.

On the other hand, when the refrigerant compressed in the compressor 310 flows first to the second heat exchanger 250, the second heat exchanger 250 is used as a condenser and the first heat exchanger 150 is used as an evaporator do.

The first heat exchanger 150 may be divided into a plurality of heat exchangers. The second heat exchanger 250 may also be divided into a plurality of heat exchangers.

The desiccant coating may be disposed on the surfaces of the first heat exchanger 150 and the second heat exchanger 250. The desiccant coating is a material capable of adsorbing moisture in the air and releasing adsorbed moisture. Since the material for the decant coating is a general material to those skilled in the art, a detailed description thereof will be omitted.

When the heat exchanger in which the desiccant coating is disposed operates as an evaporator, moisture in the air can be more effectively adsorbed. When the heat exchanger in which the desiccant coating is disposed operates as a condenser, the adsorbed moisture can be quickly released into the air.

The first air conditioner 100 includes a first case 110 installed on a ceiling of the room and exposed at least one side toward the room and a first duct 110 communicating with the first case 110 A first outdoor fan 170 connected to the first duct 160 and configured to flow the air of the first duct 160 to the indoor or outdoor side; The air conditioner according to any one of claims 1 to 3, further comprising: an indoor air inlet (120) through which indoor air is sucked; an indoor air outlet port (130) And a first heat exchanger 150 disposed inside the case 110 and performing heat exchange with the air to be flowed.

In the first case 110, a partition 115 partitioning one layer and two layers is disposed.

The first case 110 is composed of a plurality of layers, and is divided into one layer arranged on the indoor side by the partition 115 and two layers arranged on the ceiling side.

An indoor air inlet 120, an indoor air outlet 130, and a first indoor fan 140 are disposed on the first floor. The first duct 160 and the first outdoor fan 170 are disposed on the two layers. The first heat exchanger 150 may be disposed in one or two layers, and in the present embodiment, the first heat exchanger 150 is disposed over the first and second layers.

A one-layer flow path 101 is formed below the partition 115 and a two-layer flow path 102 is formed above the partition 115. [ In the present embodiment, the edge of the partition 115 is spaced apart from the inner surface of the first case 110, and the flow direction of the air is changed at the edge of the partition 115.

That is, the air that has flowed along the one-layer flow path 101 is turned 180 degrees from the edge of the partition 115 and can flow along the two-layer flow path 102. On the contrary, the air that has flowed along the two-layer flow path 102 is turned 180 degrees from the edge of the partition 115 and can flow along the one-layer flow path 101. [

In the present embodiment, the indoor air inlet 120 is disposed at the center of the bottom of the first case 110, and a plurality of indoor air outlet openings 130 are disposed around the indoor air inlet 130.

The first indoor fan (140) is a centrifugal fan disposed above the indoor suction port (130) and discharging air in the circumferential direction.

The indoor air outlet 130 is selectively opened and closed. A discharge louver 135 for opening and closing the indoor discharge opening 130 is disposed and the discharge louver 135 is rotated by an unillustrated louver motor. The air in the one-layer flow path 101 can be flowed into the two-layer flow path 102 when the discharge louver 135 is opened and the discharge louver 135 is closed.

The discharge louver 135 disposed in the first air conditioner is defined as a first discharge louver 135 and the discharge louver 235 arranged in the second air conditioner to be described later is defined as a second discharge louver 235 .

The first heat exchanger 150 may be disposed between the indoor air inlet 120 and the indoor air outlet 130.

In the present embodiment, the first heat exchanger 150 is in close contact with the edge of the partition 115, and a part of the first heat exchanger 150 is disposed in the one-layer flow path 101 and the remaining part is disposed in the two- The air flowing along the one-layer flow path 101 passes through the lower side of the first heat exchanger 150 and the air flowing into the two-layer flow path 102 passes through the upper side of the first heat exchanger 150 do.

The first outdoor fan 170 can be rotated forward or reverse so that outdoor air can be sucked into the first case 110 or outdoor air can be discharged through the first duct 160 .

The structure of the second air conditioner 200 is the same as that of the first air conditioner 100.

The second air conditioner 200 includes a second case 210 installed on a ceiling of the room and exposed at least one side toward the room and a second duct 210 communicating with the first case 210 A second outdoor fan 270 connected to the second duct 260 and configured to flow the air of the second duct 260 to the inside or the outside of the second duct 260; The indoor air is sucked into the indoor air inlet 220 through the indoor air inlet 220 where indoor air is sucked, the indoor air outlet 230 for discharging air into the indoor space, And a second heat exchanger 250 disposed inside the case 210 and performing heat exchange with the air to be flowed.

The interior of the second case 210 is divided into a first-layer flow path 201 and a second-layer flow path 202 by a partition 215.

In this embodiment, the case 10 is composed of the first case 110 and the second case 210. Unlike the present embodiment, the first case 110 and the second case 210 may be integrally manufactured. Also, unlike the present embodiment, the first case 110 and the second case 210 may be fabricated and combined to form the case 10.

The air conditioner according to the present embodiment can control the heat pump 300 to perform dehumidification with either the first air conditioner 100 or the second air conditioner 200 and humidify the other air conditioner.

In addition, the air conditioner according to the present embodiment can control the first air conditioner 100 or the second air conditioner 200 to discharge outdoor air to the room or to discharge outdoor air to the outside.

The operation of the air conditioner according to the present embodiment will be described in more detail.

First, in the ventilation mode, the ventilation mode dehumidification for dehumidifying the outdoor air supplied to the room will be described.

One of the first air conditioner (100) or the second air conditioner (200) sucks room air and discharges it to the outside so as to supply outdoor air to the room, and the other room sucks outdoor air to supply indoor do.

At this time, the heat exchanger disposed in the other air conditioner operates as an evaporator to dehumidify the outdoor air supplied to the room.

Referring to FIG. 5, the first heat exchanger 150 of the first air conditioner 100 is operated as a condenser, and the second heat exchanger 250 of the second air conditioner 200 is operated as an evaporator. To this end, the control unit of the air conditioner according to the present embodiment controls the first heat exchanger 150 to operate as a condenser and the second heat exchanger 250 to operate as an evaporator. That is, when the room is dehumidified, a heat exchanger disposed inside the air conditioner for discharging air into the room is operated as an evaporator.

The second air conditioner 200 for dehumidifying indoor air will be described as follows.

The controller controls the second outdoor fan 270 of the second air conditioner 200 to operate in the reverse direction to discharge the outdoor air to the room and the discharge louver 235 to open the discharge port 230. [ The air that has flowed into the second case 210 through the second outdoor fan 270 flows along the two-layer flow path 202 and then passes through the second heat exchanger 250 and flows through the discharge port 230 And is discharged into the room.

The indoor air sucked into the second case 210 through the second indoor fan 240 of the second air conditioner 200 flows along the first floor flow path 201 and then flows into the second heat exchanger 250 And is discharged to the discharge port 230 again.

The second heat exchanger (250) is operated by an evaporator, and is formed at a lower temperature than room air, and a decant coating disposed on the surface adsorbs moisture in the air.

The lower part of the second heat exchanger 250 disposed in the one-layer flow path 201 dehumidifies the indoor air to be circulated and the upper part of the second heat exchanger 250 dehumidifies the newly supplied outdoor air.

That is, the second heat exchanger 250 can simultaneously dehumidify the indoor air and the outdoor air.

Meanwhile, the first air conditioner 100 for discharging indoor air will be described as follows.

The controller controls the first outdoor fan 170 of the first air conditioner 100 to operate in a forward direction to discharge the room air outdoors and the discharge louver 135 to close the discharge port 130. [

The indoor air sucked into the first case 110 through the first indoor fan 140 of the first air conditioner 100 flows along the first floor flow path 201 and then flows into the second heat exchanger 250 Flows into the two-layer flow path 102 and is discharged from the two-layer flow path 102 to the outside through the first outdoor fan 170 and the first duct 160.

Here, the first heat exchanger 150 operates as a condenser to heat the refrigerant and to heat the air discharged to the outside. At this time, the desiccant coating disposed on the surface of the first heat exchanger (150) is regenerated in its original state capable of adsorbing moisture while releasing adsorbed moisture.

Both the heat-exchanged air and the heated air with the first heat exchanger (150) are discharged outdoors.

Thereafter, when the predetermined time has elapsed, the dehumidification efficiency of the desiccant coating of the second heat exchanger 250 operated by the evaporator is lowered. The controller determines the amount of dehumidification of the heat exchanger operated by the evaporator, and alternates the function of the heat exchanger when it falls below the reference value.

The control unit controls the heat pump 300 so that the first heat exchanger 150 is operated as an evaporator and the second heat exchanger 250 is operated as a condenser by switching the flow direction of the refrigerant.

6, when the first heat exchanger 150 is operated as an evaporator, the first outdoor fan 170 of the first air conditioner 100 is operated in the reverse direction, (130).

When the second heat exchanger 250 is operated as a condenser, the first outdoor fan 270 of the second air conditioner 200 is operated in the forward direction, and the discharge louver 235 closes the discharge port 230 .

The first heat exchanger 150, which has been operated as a condenser, is operated as an evaporator to dehumidify the room air, and the second heat exchanger 250, which has been operated as an evaporator, releases adsorbed moisture to regenerate the desiccant coating.

Next, when the room is humidified, the controls of the first air conditioner 100 and the second air conditioner 200 are the same as those described above. However, a heat exchanger disposed inside the air conditioner for discharging air into the room is operated as a condenser, so that water released from the desiccant coating of the heat exchanger is supplied to the room.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

100: first air conditioner 101: first floor air conditioner
102: two-layer flow path 110: first case
120: Indoor inlet 130: Indoor outlet
140: first indoor fan 150: first heat exchanger
160: first duct 170: first outdoor fan
200: second air conditioner 201: first floor air conditioner
202: two-layer flow path 210: first case
220: Indoor inlet 230: Indoor outlet
240: first indoor fan 250: first heat exchanger
260: first duct 270: first outdoor fan
300: heat pump 310: compressor
320: Four-way valve 330: First expansion valve
340: second expansion valve

Claims (15)

The air conditioner according to claim 1, wherein the first duct is disposed on the ceiling of the room, at least one side of the first duct is exposed toward the room, a first heat exchanger is disposed therein, A first air conditioner in which an indoor air outlet port is disposed;
At least one surface is exposed toward the inside of the room, a second heat exchanger is disposed inside, a second duct communicating with the outside is disposed, and air is discharged to the room inlet and the room through which the room air is sucked A second air conditioner in which an indoor air outlet port is disposed;
And a heat pump circulating a refrigerant in the first heat exchanger and the second heat exchanger to operate either the first heat exchanger or the second heat exchanger as an evaporator and the other as a condenser to form a heat pump cycle and,
Wherein the first air conditioner includes a partition that divides the inside into a one-layer flow path and a two-layer flow path, the first heat exchanger is disposed between the one-layer flow path and the two-
Wherein a flow path is formed so that the room air discharged from the room to the outside through the first heat exchanger or the second heat exchanger is discharged to the outside of the room,
Wherein the outdoor air discharged from the outdoor to the indoor is passed through the other of the first heat exchanger and the second heat exchanger to be discharged into the room. delete The method according to claim 1,
Wherein the first heat exchanger is disposed in the one-layer flow path and the upper portion is disposed in the two-layer flow path. The method of claim 3,
Wherein the indoor air inlet port is disposed in the one-layer flow path, the indoor air flowing through the indoor air inlet port flows through a lower portion of the first heat exchanger,
Wherein the two-layer flow path communicates with the first duct, and the outdoor air flowing from the first duct to the indoor discharge port passes through the upper portion of the first heat exchanger. The method according to claim 1,
Wherein the first air conditioner comprises:
A first case installed on the ceiling of the room and exposed at least one side toward the room;
The first duct communicating with the first case and the outdoor;
A first outdoor fan connected to the first duct and flowing air of the first duct to an indoor side or an outdoor side;
An indoor air outlet disposed in the first case and discharging air into the indoor air inlet and the indoor space in which room air is sucked;
A first indoor fan disposed inside the first case and configured to flow indoor air sucked into the indoor air inlet;
And the first heat exchanger disposed inside the case and performing heat exchange with the air to be flowed,
Wherein the first heat exchanger is disposed over the one-layer flow path and the two-layer flow path of the first case. The method of claim 5,
And a discharge louver for opening and closing the indoor air outlet. The method according to claim 1,
And a partition for partitioning the inside of the second air conditioner into a one-layer flow path and a two-layer flow path, wherein the second heat exchanger is disposed between the one-layer flow path and the two-layer flow path. The method of claim 7,
Wherein the lower portion of the second heat exchanger is disposed in the one-layer flow path, and the upper portion is disposed in the two-layer flow path. The method of claim 8,
Wherein the indoor air inlet port is disposed in the one-layer flow path, the indoor air flowing through the indoor air inlet port flows through the lower portion of the second heat exchanger,
Wherein the two-layer flow path communicates with the second duct, and the outdoor air flowing from the second duct to the indoor discharge port passes through the upper portion of the second heat exchanger. The method according to claim 1,
The second air conditioner includes:
A second case installed on the ceiling of the room and exposed at least one side toward the room;
The second duct communicating the second case and the outdoors;
A second outdoor fan connected to the second duct and flowing the air of the second duct to the indoor side or the outdoor side;
An indoor air outlet disposed in the second case and discharging air into the indoor air inlet and the indoor space in which room air is sucked;
A second indoor fan disposed inside the second case for flowing indoor air sucked into the indoor air inlet;
And the second heat exchanger disposed inside the case and being heat-exchanged with the air to be flowed. The method of claim 10,
And a discharge louver for opening and closing the indoor air outlet. The method of claim 5,
The second air conditioner includes:
A second case installed on the ceiling of the room and exposed at least one side toward the room;
The second duct communicating the second case and the outdoors;
A second outdoor fan connected to the second duct and flowing the air of the second duct to the indoor side or the outdoor side;
An indoor air outlet disposed in the second case and discharging air into the indoor air inlet and the indoor space in which room air is sucked;
A second indoor fan disposed inside the second case for flowing indoor air sucked into the indoor air inlet;
And the second heat exchanger disposed inside the case and being heat-exchanged with the air to be flowed. The method of claim 12,
And a partition for partitioning the inside of the second air conditioner into a one-layer flow path and a two-layer flow path, wherein the lower portion of the second heat exchanger is disposed in a single-layer flow path, . 14. The method of claim 13,
A first discharge louver that opens and closes the indoor discharge port of the first air conditioner; And a second discharge louver that opens and closes the indoor discharge port of the second air conditioner,
Wherein the one-layer flow path and the two-layer flow path are disposed inside the first heat exchanger, the first discharge louver is disposed on the outer side,
Wherein the one-layer flow path and the two-layer flow path are disposed inside the second heat exchanger, and the second discharge louver is disposed on the outside. The method of claim 12,
Wherein the first indoor fan of the first air conditioner is disposed in the one-storey passage of the first case, and the second indoor fan of the second air conditioner is disposed in the one- Device.

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