KR20220080065A - Air Conditioner - Google Patents

Abstract

The integrated air conditioner includes a housing divided into an upper first housing and a lower second housing, in the first housing, a first inlet through which external air is introduced, a first outlet through which internal air is discharged, and the second housing In the housing, a second suction port through which external air is introduced, a second discharge port through which internal air is discharged, a compressor provided inside the housing to compress a refrigerant, and a second flow path connecting the second suction port and the second discharge port a condenser for condensing the refrigerant compressed from the compressor into a liquid phase, an expansion device for expanding the refrigerant condensed in the condenser into a refrigerant in a low pressure state, and a first flow path connecting the first suction port and the first discharge port It includes an evaporator provided to correspond to the upper end of the condenser on the upper end to return the refrigerant in the low-temperature and low-pressure phase from the expansion device to the compressor. The integrated air conditioner can be miniaturized and has the convenience of being portable.

Description

All-in-one air conditioner {Air Conditioner}

The present invention relates to an integrated air conditioner, and more particularly, to an integrated air conditioner in which an outdoor unit and an indoor unit are integrated.

In general, an air conditioner is a device that uses a refrigeration cycle to control temperature, humidity, airflow, distribution, etc. suitable for human activities, and at the same time remove dust, etc. in the air. A compressor, a condenser, an evaporator, a blower fan, etc. are provided as main components constituting the refrigeration cycle.

A case in which an indoor unit and an outdoor unit are installed separately is called a separate type air conditioner, and a case in which an indoor unit and an outdoor unit are installed together in one cabinet is called an integrated air conditioner.

Even in an integrated air conditioner, it is common that the indoor unit part faces the interior and the outdoor unit part faces the outdoors with a wall or window interposed therebetween.

In the case of such an air conditioner, the volume is large, and even an integrated air conditioner occupies a part of a wall and a window, which adversely affects the appearance.

One aspect of the present invention provides an integrated air conditioner that is easy to install and can be changed and moved as needed.

The present invention provides an integrated air conditioner that provides cooling or heated air to a user without communicating with the indoor and outdoor partitioned areas.

An integrated air conditioner according to an aspect of the present invention includes a housing divided into an upper first housing and a lower second housing; a first inlet and a first outlet provided in the first housing so that external air flows in and out; a second inlet and a second outlet provided in the second housing so that external air flows in and out; an evaporator for evaporating a refrigerant in a low-temperature and low-pressure phase on a first flow path connecting the first suction port and the first discharge port to exchange heat with surroundings; a compressor provided inside the housing to compress the refrigerant from the evaporator; a condenser provided on a second flow path connecting the second suction port and the second discharge port to condense the compressed refrigerant from the compressor into a liquid phase; an expansion device for expanding the refrigerant condensed in the condenser into a refrigerant in a low pressure state; and a storage tray provided between the evaporator and the condenser to store condensed water generated in the evaporator and discharge the condensed water to the condenser.

The water storage tray may further include a drain hole for discharging the stored condensed water to the condenser.

The water storage tray may include: a first water storage area provided under the evaporator; and a second water storage area provided above the condenser, wherein the drain hole is provided in the second water storage area.

At least a portion of the first suction port and the second suction port may be vertically disposed.

The evaporator and the condenser may be disposed adjacent to the first suction port and the second suction port, respectively.

The first suction port and the second suction port may be provided vertically on one side of the housing in parallel, and the evaporator and the condenser may be provided adjacent to each of the first suction port and the second suction port. .

The first outlet and the second outlet may be provided on different sides of the housing.

The housing may include: a left side panel provided with the first inlet and the second inlet; a right side panel provided with the second outlet; and a front panel provided with the first outlet.

It may be characterized in that it further comprises an upper blower fan for discharging the internal air on the first flow path.

It may further include a partition plate partitioning the first housing and the second housing between the housing.

In the partition plate, the position at which the upper blower fan is provided may be characterized in that the lower side is concave.

The compressor may be provided between the condenser and the second discharge port on the second flow path.

The expansion device may be characterized in that it is formed of a capillary tube.

An integrated air conditioner according to an aspect of the present invention includes a housing divided into an upper first housing and a lower second housing; In the first housing, a first inlet through which external air is introduced and a first outlet through which internal air is discharged; In the second housing, a second inlet through which external air is introduced and a second outlet through which internal air is discharged; a first blowing fan provided on a first flow path connecting the first suction port and the first discharge port, and a second blowing fan provided on a second flow path connecting the second suction port and the second discharge port; a partition plate partitioning the first housing and the second housing; Containing; the first blower fan including; a convex portion having an outer surface convex than the lower surface of the partition plate, and a concave portion having a rear surface of the convex portion concave compared to the upper surface of the partition plate is seated on the concave portion, and the second blowing fan is provided on a side surface of the convex portion.

a compressor provided inside the housing to compress the refrigerant; a condenser provided on the second flow path to condense the compressed refrigerant from the compressor into a liquid phase; an expansion device for expanding the refrigerant condensed in the condenser into a refrigerant in a low pressure state; It may further include an evaporator provided on the first flow path to correspond to the upper end of the condenser to return the refrigerant in the low-temperature and low-pressure phase from the expansion device to the compressor.

The housing may include: a left side panel provided with the first inlet and the second inlet; a right side panel provided with the second outlet; and a front panel provided with the first outlet.

The first blowing fan may include a centrifugal fan.

The second blowing fan may include an axial fan.

At least a portion of the first suction port and the second suction port may be provided vertically, and the evaporator and the condenser may be provided adjacent to each of the first suction port and the second suction port.

and a storage tray provided between the evaporator and the condenser to store condensed water generated in the evaporator and discharge the condensed water to the condenser.

The water storage tray may further include a drain hole for discharging the stored condensed water to the condenser.

The water storage tray may include: a first water storage area provided under the evaporator; and a second water storage area provided above the condenser, wherein the drain hole is provided in the second water storage area.

An integrated air conditioner according to an aspect of the present invention includes a housing divided into an upper first housing and a lower second housing; a compressor provided in the housing to compress the refrigerant; a condenser provided in the second housing to condense the compressed refrigerant from the compressor into a liquid phase; a capillary tube for expanding the refrigerant condensed in the condenser into a refrigerant in a low pressure state; an evaporator provided in the second housing to return the refrigerant expanded in the capillary to the compressor; In the first housing, a first inlet through which external air is introduced, and a first outlet through which cold air is discharged; in the second housing, a second inlet through which external air is introduced and provided below the first inlet, and a second outlet through which internal warmth flows out; The first outlet and the second outlet are provided to be spaced apart in the left and right directions.

The housing may include: a left side panel provided with the first inlet and the second inlet; a right side panel provided to be spaced apart from the left side panel; and a front panel provided between the left side panel and the right side panel.

The first outlet may be provided on a front panel, and the second outlet may be provided on a right side panel, respectively.

At least a portion of the first suction port and the second suction port may be vertically disposed.

The evaporator and the condenser may be disposed adjacent to the first suction port and the second suction port, respectively.

An integrated air conditioner according to the spirit of the present invention includes a housing divided into a first housing and a second housing; a compressor provided inside the housing to compress the refrigerant; a condenser provided inside the second housing and condensing the refrigerant compressed from the compressor into a liquid phase; an expansion device for expanding the refrigerant condensed in the condenser into a refrigerant in a low pressure state; and an evaporator provided to correspond to an upper end of the condenser in the first housing and returning the low-temperature and low-pressure refrigerant from the expansion device to the compressor, wherein the condenser and the evaporator are vertically disposed on at least one side of the housing It is characterized in that it is provided side by side.

An integrated air conditioner according to the spirit of the present invention includes a housing divided into a first housing and a second housing; a compressor provided inside the housing to compress the refrigerant; a condenser provided inside the second housing and condensing the refrigerant compressed from the compressor into a liquid phase; an expansion device for expanding the refrigerant condensed in the condenser into a refrigerant in a low pressure state; an evaporator provided to correspond to an upper end of the condenser in the first housing and returning the refrigerant in the low-temperature and low-pressure phase from the expansion device to the compressor; and a water storage tray provided to store condensed water generated in the evaporator and discharge to the condenser.

The integrated air conditioner of the present invention can be miniaturized by improving the structure of the heat exchanger and can be easily installed.

In addition, the location can be changed and moved as needed, so it is convenient as a portable device.

1 is a perspective view of an integrated air conditioner according to an embodiment of the present invention;
Fig. 2 is a cross-sectional view taken along line A-A' of Fig. 1;
Fig. 3 is a cross-sectional view taken along line B-B' of Fig. 1;
4 is an internal perspective view of an integrated air conditioner according to an embodiment of the present invention;
5 is a perspective view of a heat exchanger and a water storage tray according to an embodiment of the present invention;
6 is a perspective view of a water storage tray according to an embodiment of the present invention.
7 is a view of air flow in the integrated air conditioner according to an embodiment of the present invention.
8 is a perspective view of a heat exchanger and a water storage tray according to another embodiment of the present invention.
9 is a perspective view of a water storage tray according to another embodiment of the present invention.
10 is a view of air flow in an integrated air conditioner according to another embodiment of the present invention.

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

1 is a perspective view of an integrated air conditioner according to an embodiment of the present invention, FIG. 2 is a cross-sectional view taken along line A-A' of FIG. 1, FIG. It is an internal perspective view of an integrated air conditioner according to an embodiment.

The housing 10 includes a left side panel 11a, a right side panel 11b, a front panel 12, a rear panel 13, an upper panel 14, and a lower panel 15 constituting the left and right sides. .

The housing 10 may include an inlet for introducing air from the outside and a discharge port through which the internal air is discharged.

The housing 10 is composed of a first housing 30 on the upper side and a second housing 70 on the lower side, and a partition plate 100 is provided between the first housing 30 and the second housing 70, It is possible to prevent air from moving between the first housing 30 and the second housing 70 .

The first housing 30 functions as an indoor unit of the air conditioner in the separate type air conditioner, and may include an evaporator 26 and a first blower fan 40 . The second housing 70 functions as an outdoor unit of the air conditioner in the separate type air conditioner, and may include a condenser 22 and a second blowing fan 90 . However, the present invention is not limited thereto, and the first housing 30 may function as an outdoor unit of the heater, and the second housing 70 may function as an indoor unit of the heater.

The first housing 30 is provided with a first inlet 32 through which external air is introduced and a first outlet 34 through which internal air is discharged, and the second housing 70 is provided with a first inlet through which external air is introduced. A second inlet 72 and a second outlet 74 through which air is discharged may be provided.

Although the first suction port 32 and the second suction port 72 are provided vertically on the left side panel 11a in the embodiment of the present invention, they may be changed according to the arrangement of the internal configuration.

The first outlet 34 and the second outlet 74 are provided on the front panel 12 and the right side panel 11b, respectively, in the embodiment of the present invention, but may be changed according to the arrangement of the internal configuration.

The compressor 20 compresses and discharges the refrigerant in a high-temperature and high-pressure state, and the compressed refrigerant flows into the condenser 22 . The condenser 22 condenses the refrigerant compressed in the compressor 20 into a liquid phase. Heat is released to the environment through the condensation process.

The expansion device 24 expands the liquid refrigerant in a high temperature and high pressure state condensed in the condenser 22 into a liquid refrigerant in a low pressure state, and the evaporator 26 evaporates the refrigerant expanded in the expansion device 24 and the latent heat of evaporation of the refrigerant. It functions to return the refrigerant gas in the low-temperature and low-pressure phase to the compressor 20 by evaporating while achieving a refrigeration effect by heat exchange with the object to be cooled using Through this cycle, it is possible to control the air temperature in the indoor space.

The blowing fan includes a first blowing fan 40 provided on the first flow path 37 of the first housing 30 and a second blowing fan provided on the second flow path 76 of the second housing 70 ( 90) may be included.

In the embodiment of the present invention, the first blowing fan 40 is disposed so that the first suction port 32 and the first discharge port 34 are at right angles, so a centrifugal fan may be used. As a result, the temperature of the air flowing into the first suction port 32 formed in the left side panel 11a from the outside decreases as it passes through the evaporator 26 , and is formed in the front panel 12 through the first blowing fan 40 . It may be discharged through the first discharge port 34 . The discharge air generated by the first blowing fan 40 may be guided by the first blowing fan guide 42 surrounding the first blowing fan 40 and discharged to the first discharge port 34 . The first blowing fan 40 may be operated by a first motor 44 provided on the rotation shaft.

At least one blade 35 for guiding the discharged internal air may be provided on the first discharge port 34 .

Since the second blowing fan 90 is disposed so that the second inlet 72 and the second outlet 74 face each other in the embodiment of the present invention, an axial fan may be used. As a result, the temperature of the air flowing into the second inlet 72 formed on the left side panel 11a from the outside increases as it passes through the condenser 22 and the second blower fan 90 passes through the second air intake port 72 formed on the right side panel 11b. 2 may be discharged through the discharge port 74 . The discharge air generated by the second blowing fan 90 may be guided by the bell mouth 92 surrounding the second blowing fan 90 and discharged to the second discharge port 74 . The second blowing fan 90 may be operated by a second motor 96 provided on the rotating shaft. A fan guard 94 is provided on the outside of the bell mouth 92 to protect the second blowing fan 90 and guide the discharge air from the second blowing fan 90 to the outside.

In the present invention, a centrifugal fan and an axial fan are used as the blowing fan, but the first blowing fan 40 and the second blowing fan 90 may have different types of fans according to the direction of each outlet. For example, the first outlet 34 is provided on the right side panel 11b, the first blowing fan 40 is an axial fan, the second outlet 74 is provided on the front panel 12, and the second blowing fan (90) This centrifugal fan may be used.

A partition plate 100 for partitioning the first housing 30 and the second housing 70 may be provided. The partition plate 100 may be provided to seal the lower portion of the first housing 30 and the upper portion of the second housing 70 so that internal air is not exchanged between the first housing 30 and the second housing 70 . .

A seating portion 102 convexly formed toward the second housing 70 may be provided on the partition plate 100 so that the first blowing fan 40 in the first housing 30 can be seated. This may be convex on the side of the first housing 30 and concave on the second housing 70 . Through this configuration, the height occupied by the first blowing fan 40 in the first housing 30 can be reduced, so that the overall height of the integrated air conditioner 1 can be lowered.

The seating portion 102 has a convex portion 102a whose outer surface is convex compared to the lower surface of the partition plate 100 , and a rear surface of the convex portion 102a is formed to be concave compared to the upper surface of the partition plate 100 . and a concave portion 102b. The first blowing fan 40 is seated in the concave portion 102b, the second blowing fan 90 is provided on the side of the convex portion 102a, and the first blowing fan 40 and the second blowing fan 90 are It is not placed vertically. Through this configuration, even if the size of the blowing blades of the blowing fan is increased, the first blowing fan 40 and the second blowing fan 90 do not interfere with each other, so the integrated air conditioner 1 that can be miniaturized can be implemented. .

That is, when the imaginary surface including the rear surface of the first blowing fan 40 is referred to as the first reference surface P1, the front surface of the second blowing fan 90 is the same as or disposed behind the first reference surface P1. can make it happen Conversely, when the imaginary surface including the front surface of the second blowing fan 90 is referred to as the second reference surface P2, the rear surface of the first blowing fan 40 is the same as or disposed in front of the second reference surface P2. can make it happen Furthermore, the first blowing fan 40 and the second blowing fan 90 may be provided so that the first reference plane P1 is disposed behind the second reference plane P2 .

The compressor 20 is satisfied when provided in the housing 10, but is provided on the second flow path 76 in the embodiment of the present invention. In detail, it may be provided between the condenser 22 and the second blowing fan 90 on the second flow path 76 to reduce heat generated by the compressor 20 through the second blowing fan 90 .

As described above, the expansion device 24 serves to expand the liquid refrigerant in a high-temperature and high-pressure state condensed in the condenser 22 between the condenser 22 and the evaporator 26 into a liquid refrigerant in a low-pressure state. In an embodiment, it may be formed of a capillary tube. Also, it may be provided to pass through the first housing 30 and the second housing 70 .

A second flow path 76 , which is a flow path for air passing through the second housing 70 , is provided between the second suction port 72 and the second discharge port 74 , and the condenser 22 is disposed on the second flow path 76 . will be prepared In detail, the condenser 22 may be provided to be adjacent to the second suction port 72 on the second flow path 76 .

A first flow path 37 , which is a flow path for air passing through the first housing 30 , is provided between the first suction port 32 and the first discharge port 34 , and the evaporator 26 is disposed on the first flow path 37 . will be prepared In detail, the evaporator 26 may be provided on the first flow path 37 to be adjacent to the first suction port 32 .

The first suction port 32 and the second suction port 72 are provided to correspond to the evaporator 26 and the condenser 22, respectively, and in the embodiment of the present invention, adjacent to the left side panel 11a, the evaporator 26 and Since the condenser 22 is disposed, the first suction port 32 and the second suction port 72 may also be provided on the left side panel 11a. However, the present invention is not limited thereto, and when the evaporator 26 and the condenser 22 are extended with respect to the other side, the first suction port 32 and the second suction port 72 may also be formed on the other side correspondingly.

Each of the evaporator 26 and the condenser 22 may be provided such that at least a portion thereof is disposed vertically.

Condensed water is generated on the surface of the evaporator 26 while the indoor air exchanges heat with the evaporator 26 . The generated condensed water may fall on the surface of the condenser 22 to improve the heat exchange efficiency of the condenser 22 and at the same time prevent the condensed water generated from the evaporator 26 from being separately discharged.

A water storage tray 50 is provided at the lower portion of the evaporator 26 to collect the condensed water and to spray the condensed water to the condenser 22 .

5 is a perspective view of a heat exchanger and a water storage tray according to an embodiment of the present invention, and FIG. 6 is a perspective view of the water storage tray according to an embodiment of the present invention.

The water storage tray 50 is formed so that the side of the evaporator 26 is opened, and includes a tray lower surface 52 corresponding to the heat exchanger and a tray flange 54 extending upward from the end of the tray lower surface 52 . can do.

A drain hole is provided in the tray lower surface 52 to correspond to the upper shape of the condenser 22 . The condensed water is drained through the drain hole while being stored in the water storage tray 50 to wet the surface of the condenser 22 , thereby improving the heat exchange efficiency of the condenser 22 .

At least a portion of the tray lower surface 52 has an inclined surface, a first portion 53a that is a lower end of one side of the inclined surface, and a second portion that is disposed higher than the first portion 53a and is a higher end of the other side of the inclined surface ( 53b). The drain hole 55 may be disposed in the first part 53a. Through this configuration, the condensed water that is stored can be drained through the drain hole 55 without flowing down the slope.

The tray lower surface 52 is formed parallel to the arrangement of the evaporator 26 on the upper side, and at least one drain hole 55 may be provided in parallel with the arrangement of the condenser 22 in the tray lower surface 52 . have.

A drain tray 98 is provided at the lower portion of the condenser 22 so that the condensed water discharged from the water storage tray 50 is reduced on the surface of the condenser 22 and the remaining condensed water can accumulate.

Hereinafter, the operation of the integrated air conditioner according to an embodiment of the present invention having the above configuration will be described.

7 is a view related to air flow in the integrated air conditioner according to an embodiment of the present invention, which will be described with reference to FIG.

When the air conditioner 1 is operated, the refrigerant moves through the compressor 20 , the condenser 22 , the expansion device 24 , and the evaporator 26 .

In this process, condensed water is generated on the surface of the evaporator 26 as the external air passes. This condensed water is stored in the water storage tray 50 , is drained through the drain hole 55 , and is vaporized on the surface of the condenser 22 to improve the heat exchange efficiency of the condenser 22 .

In view of the air conditioning, since the evaporator 26 and the condenser 22 are vertically disposed on one side of the housing 10 of the air conditioner 1 , the first inlet for guiding external air to the evaporator 26 . (32) and a second suction port (72) for guiding the outside air to the condenser (22) is provided on the same side of the housing (10).

The internal air whose temperature is lower than that of the external air through the evaporator 26 is discharged to the first outlet 34 of the front panel 12 through the first blowing fan 40, and through the condenser 22, The internal air having a higher temperature is discharged to the second outlet 74 of the right side panel 11b through the second blowing fan 90 .

Since the first outlet 34 and the second outlet 74 are spaced apart from each other to the left and right and provided on the other side of the housing 10, it is possible to reduce the cooling effect due to interference with each other, thereby increasing the cooling efficiency or heating efficiency. be able to improve

8 is a perspective view of a heat exchanger and a water storage tray according to another embodiment of the present invention, and FIG. 9 is a perspective view of the water storage tray according to another embodiment of the present invention.

In another embodiment, a description of the same or overlapping configuration as in the first embodiment will be omitted.

In another embodiment, the condenser 22 may be provided on two sides within the second housing 70 . Although the condenser 22 is provided over two sides in this embodiment, the evaporator 26 may be formed as in the present embodiment on the contrary, and both configurations may be formed in this way.

As the condenser 22 is provided over two sides, the second suction port 82 in the second housing 70 may also be provided over the two sides along the condenser 22 . A second flow path 86 connecting the second suction port 82 and the second discharge port 84 is formed.

The water storage tray 60 is formed so that the side of the evaporator 26 is opened, and includes a tray lower surface 62 corresponding to the heat exchanger and a tray flange 64 extending upward from the end of the tray lower surface 62 . can do.

A drain hole 65 is provided in the tray lower surface 62 to correspond to the upper shape of the condenser 22 . The condensed water is drained through the drain hole 65 while being stored in the water storage tray 60 to wet the surface of the condenser 22 , thereby improving the heat exchange efficiency of the condenser 22 .

At least a portion of the tray lower surface 62 has an inclined surface, a first portion 63a that is a lower end of one side of the inclined surface, and a second portion that is disposed higher than the first portion 63a and is a higher end of the other side of the inclined surface ( 63b). The drain hole 65 may be disposed in the first part 63a. Through this configuration, the condensed water that is stored can be drained through the drain hole 65 without flowing down the slope.

The water storage tray 60 includes a first water storage area 68a provided to correspond to a lower portion of the evaporator 26 and a second water storage area 68b provided to correspond to an upper portion of the condenser 22 .

Since at least a portion of the evaporator 26 and the condenser 22 are provided to be aligned vertically, at least a portion of the first water storage area 68a and the second water storage area 68b may overlap.

A drain hole 65 is provided on the tray lower surface 62 on the second water storage area 68b to discharge condensed water along the arrangement of the condensers 22 .

Hereinafter, the operation of the integrated air conditioner 1 according to another embodiment of the present invention having the above configuration will be described.

10 is a view related to the air flow of the integrated air conditioner according to another embodiment of the present invention. In the present embodiment, a description of the operation according to the overlapping configuration in the embodiment will be omitted.

When the air conditioner 1 is operated, the refrigerant moves through the compressor 20 , the condenser 22 , the expansion device 24 , and the evaporator 26 .

In this process, condensed water is generated on the surface of the evaporator 26 as the external air passes. This condensed water is stored in the water storage tray 60 , and in detail, the condensed water is stored in the first water storage area 68a. Since the first water storage area 68a and the second water storage area 68b at least partially overlap, the stored condensed water is uniformly stored in the first water storage area 68a and the second water storage area 68b.

The stored condensed water is discharged to the upper portion of the condenser 22 through the drain hole 65 provided on the second water storage area 68b to improve the heat exchange efficiency of the condenser 22 .

In the above, specific embodiments have been shown and described. However, it is not limited only to the above-described embodiments, and those of ordinary skill in the art to which the invention pertains can make various changes without departing from the spirit of the invention described in the claims below. .

1: Air conditioner 11a: Left side panel
11b: right side panel 12: front panel
13: rear panel 14: top panel
15: lower panel
20: compressor 22: condenser
24: expansion device 26: evaporator
30: first housing 32: first intake port
34: first outlet 35: blade
37: first euro 40: first blowing fan
42: first blowing fan guide 44: first motor
50,60: water storage tray 52,62: tray lower surface
53a, 63a: first part 53b, 63b: second part
54,64: tray flange 55,65: drain hole
68a: first water storage area 68b: second water storage area
70: second housing 72, 82: second inlet port
74,84: second outlet 76,86: second flow
90: second blowing fan 92: bell mouse
94: fan guard 96: second motor
98: drain tray
100: partition plate 102: seating part
102a: convex part 102b: concave part
P1: first reference plane P2: second reference plane

Claims (28)

a housing including a first surface facing the first direction and a second surface facing the second direction, the housing having an upper portion and a lower portion;
a first suction port formed in a portion of the first surface corresponding to the upper portion of the divided interior of the housing so that air is introduced;
a first outlet formed so that the air introduced into the housing through the first inlet is discharged to the outside of the housing;
a second suction port formed in another portion of the first surface and a portion of the second surface corresponding to the lower portion of the divided interior of the housing so that air is introduced;
a second outlet formed so that the air introduced into the housing through the second inlet is discharged to the outside of the housing;
an evaporator positioned on a first flow path between the first suction port and the first discharge port, the evaporator being disposed parallel to the first surface of the housing;
and a condenser disposed on a second flow path between the second suction port and the second discharge port, the condenser including a portion disposed parallel to the second surface of the housing. The method of claim 1,
The integrated air conditioner according to claim 1, wherein at least a portion of the first inlet and the second inlet are vertically disposed. The method of claim 1,
The integrated air conditioner further comprising a water storage tray formed to correspond to the upper end of the condenser and including a portion disposed in parallel with the second surface of the housing. The method of claim 1,
and the evaporator extends in a direction parallel to the _ first surface of the housing, and the condenser includes a portion extending in a direction crossing the extending direction of the evaporator. The method of claim 1,
The integrated air conditioner according to claim 1, further comprising: a drain tray disposed under the condenser to collect condensed water falling from the condenser, the drain tray including a portion disposed parallel to the second surface of the housing. The method of claim 1,
A water storage tray provided between the evaporator and the condenser to store the condensed water generated in the evaporator or to discharge the condensed water to the condenser, the water storage tray including a plurality of drain holes; air conditioner. 4. The method of claim 3,
The water storage tray includes a drain hole provided to discharge the stored condensed water to the condenser. The method of claim 1,
The evaporator is an integrated air conditioner, characterized in that provided adjacent to the first suction port. The method of claim 1,
The second outlet is an integrated air conditioner, characterized in that formed on a side surface of the housing orthogonal to the second surface. The method of claim 1,
an upper blowing fan provided on the first flow path to discharge internal air; and
The integrated air conditioner further comprising a lower blowing fan provided on the second flow path connecting the second suction port and the second discharge port. 11. The method of claim 10,
The lower blowing fan is an integrated air conditioner, wherein an inlet of the lower blowing fan through which air is introduced is disposed to face the condenser. 11. The method of claim 10,
The lower blowing fan is an integrated air conditioner, wherein an inlet of the lower blowing fan through which air is introduced is disposed to face either one of the first surface or the second surface. 11. The method of claim 10,
In the partition plate, a portion where the upper blower fan is provided is concave. 11. The method of claim 10,
It further includes; a partition plate dividing the interior of the housing into an upper portion and a lower portion,
The partition plate includes a convex portion having an outer surface convex compared to a lower surface of the partition plate, and a concave portion having a rear surface of the convex portion concave compared to an upper surface of the partition plate, and
The upper blowing fan is seated on the concave portion, and the lower blowing fan is provided on a side surface of the convex portion. a housing comprising a first panel portion and a second panel portion, the interior of which is divided into upper and lower portions;
a first suction port formed in a portion of the first panel portion corresponding to the upper portion of the divided interior of the housing so that air is introduced;
a first outlet formed so that the air introduced into the housing through the first inlet is discharged to the outside of the housing;
a second suction port formed in another part of the first panel part corresponding to the lower part of the divided interior of the housing and a part of the second panel part so that air is introduced;
a second outlet formed so that the air introduced into the housing through the second inlet is discharged to the outside of the housing;
an evaporator located on a first flow path between the first suction port and the first discharge port, the evaporator being arranged in parallel with the first panel portion of the housing;
and a condenser disposed on a second flow path between the second suction port and the second discharge port, the condenser including a portion disposed in parallel with the second panel portion of the housing. 16. The method of claim 15,
The integrated air conditioner according to claim 1, wherein at least a portion of the first inlet and the second inlet are vertically disposed. 16. The method of claim 15,
The integrated air conditioner further comprising a water storage tray formed to correspond to the upper end of the condenser and including a portion disposed in parallel with the second panel portion of the housing. 16. The method of claim 15,
and the evaporator extends in a direction parallel to the _ first surface of the housing, and the condenser includes a portion extending in a direction crossing the extending direction of the evaporator. 16. The method of claim 15,
The integrated air conditioner according to claim 1, further comprising: a drain tray disposed under the condenser to collect condensed water falling from the condenser, the drain tray including a portion disposed in parallel with the second panel portion of the housing. 16. The method of claim 15,
A water storage tray provided between the evaporator and the condenser to store the condensed water generated in the evaporator or to discharge the condensed water to the condenser, the water storage tray including a plurality of drain holes; air conditioner. 18. The method of claim 17,
The water storage tray includes a drain hole provided to discharge the stored condensed water to the condenser. 16. The method of claim 15,
The evaporator is an integrated air conditioner, characterized in that provided adjacent to the first suction port. 16. The method of claim 15,
and the second outlet is formed on a side surface of the housing perpendicular to the second panel unit. 16. The method of claim 15,
an upper blowing fan provided on the first flow path to discharge internal air; and
The integrated air conditioner further comprising a lower blowing fan provided on the second flow path connecting the second suction port and the second discharge port. 25. The method of claim 24,
The lower blowing fan is an integrated air conditioner, wherein an inlet of the lower blowing fan through which air is introduced is disposed to face the condenser. 25. The method of claim 24,
The lower blowing fan is an integrated air conditioner, wherein an inlet of the lower blowing fan through which air is introduced is disposed to face either one of the first panel unit and the second panel unit. 25. The method of claim 24,
In the partition plate, a portion where the upper blower fan is provided is concave. 25. The method of claim 24,
It further includes; a partition plate dividing the interior of the housing into an upper portion and a lower portion,
The partition plate includes a convex portion having an outer surface convex compared to a lower surface of the partition plate, and a concave portion having a rear surface of the convex portion concave compared to an upper surface of the partition plate, and
The upper blowing fan is seated on the concave portion, and the lower blowing fan is provided on a side surface of the convex portion.

Images