KR20190092136A - Movable air conditioner - Google Patents

Abstract

The present invention relates to a movable air conditioner which can induce a portion of air cooled by an evaporation unit through a cooling flow path to a condensation space to cool hot air generated in the condensation space. To this end, the movable air conditioner comprises: a moving body divided into a condensation space and an evaporation space by a division partition wall installed therein; a compression unit installed in the condensation space to compress refrigerant; a condensation unit installed in the condensation space to condense the refrigerant compressed by the compression unit; an evaporation unit installed in the evaporation space to evaporate the refrigerant condensed by the condensation unit; a condensation fan unit installed in the condensation space to radiate the condensation unit; an evaporation fan unit installed in the evaporation space to discharge air cooled by the evaporation unit; and a cooling flow path connecting the evaporation space to the condensation space to induce the air cooled by the evaporation unit to the condensation space.

Description

Mobile Air Conditioner {MOVABLE AIR CONDITIONER}

The present invention relates to a mobile air conditioner, and more particularly, to a mobile air conditioner capable of cooling hot air generated in the condensation space by guiding a part of the air cooled by the evaporation unit through a cooling passage. .

In general, an air conditioner is a cooling system that cools a room by an iterative operation of inhaling hot air in a room, exchanging heat with a low temperature refrigerant, and then discharging it into the room. An air conditioner is a compressor-condenser-expansion valve-evaporator that forms a series of cycles.

Such an air conditioner is composed of an indoor unit that exchanges heat with indoor air, and an outdoor unit that exchanges heat with outdoor air, and may be classified into an integrated air conditioner in which the indoor unit and the outdoor unit are integrally formed, and a separate air conditioner in which the indoor unit and the outdoor unit are formed separately.

In addition, the integrated air conditioner may be classified into a window air conditioner and a mobile air conditioner.

In general, the separate air conditioner is fixedly installed in a space for cooling, and cooling can be performed in a limited space. Therefore, in order to cool various spaces, air conditioners may be installed in each space or a multi-type indoor unit may be installed in an outdoor unit having a large capacity, and this may cause unnecessary installation cost.

In the case of a mobile air conditioner, it is necessary to install a duct such as a communication to discharge hot air to the outside, and inconvenience occurs whenever moving.

Republic of Korea Patent Publication No. 2007-0028633 (Invention name: Mobile air conditioner, published on March 13, 2007)

An object of the present invention is to solve the problems of the conventional mobile air conditioner, by guiding a portion of the air cooled by the evaporation unit through the cooling flow path to the condensation space, a mobile type that can cool the hot air generated in the condensation space In providing air conditioning.

According to a preferred embodiment for achieving the above object of the present invention, a mobile air conditioner according to the present invention includes a moving body partitioned into a condensation space and an evaporation space by a partition partition installed therein; A compression unit installed in the condensation space to compress the refrigerant; A condensation unit installed in the condensation space to condense the refrigerant compressed by the compression unit; An evaporation unit installed in the evaporation space to evaporate the refrigerant condensed by the condensation unit; A condensation fan unit installed in the condensation space to dissipate the condensation unit; An evaporation fan unit installed in the evaporation space to discharge air cooled by the evaporation unit; And a cooling flow path connecting the evaporation space and the condensation space to guide the air cooled by the evaporation unit to the condensation space.

Here, the cooling passage, the cold air collecting duct in communication with the evaporation space; An extension duct extending from the cold air collection duct; And a cold air supply duct extending from the extension duct to supply air cooled by the evaporation unit to the condensation space, the condensation fan unit, or the condensation unit.

Here, the cold air collection duct, is provided with an inclined portion to guide the air cooled by the evaporation unit to the extension duct.

Mobile air conditioner according to the invention further comprises a heat pipe for cooling the wind generated in the condensation fan unit.

Mobile air conditioner according to the present invention is provided in the evaporation space, the first drip tray to collect the condensate generated in the evaporation unit; A second drip tray provided in the condensation space; And a drain pipe connecting the first drip tray and the second drip tray so that the wind generated by the condensation fan unit is hit. The second drip tray cools the wind generated by the condensation fan unit. Part of the heat pipe is submerged.

Here, the heat pipe guides the wind generated in the condensation fan unit to the second drip tray.

Mobile air conditioner according to the present invention is provided in the evaporation space, the first drip tray to collect the condensate generated in the evaporation unit; A second drip tray provided in the condensation space; And a drain pipe connecting the first and second drip trays so that the wind generated by the condensation fan unit collides with each other.

Here, the second drip tray may include: a collecting body in which a collecting space for collecting condensate transferred from the first drip tray is collected; Branch partitions are provided in the collecting space for dividing the air delivered; A circulation discharge unit configured to transfer air divided to one side by the branch partition to the condensation space; It includes; and a fluid discharge unit for delivering the air divided to the other side by the branch partition to the room.

Here, the condensation fan unit is built in the fan housing provided in the condensation space, the discharge inlet of the fan housing to guide the discharged air to the second drip tray; is provided.

According to the mobile air conditioner according to the present invention, by inducing a part of the air cooled by the evaporation unit through the cooling passage to the condensation space, it is possible to cool the hot air generated in the condensation space.

In addition, the present invention can facilitate the inflow of air cooled by the evaporation unit through the detailed configuration of the cooling flow path, and facilitate the mixing with hot air in the condensation space.

In addition, the present invention increases the intake amount of the air cooled through the induction inclination portion, prevents the occurrence of negative pressure in the cooling flow path, and does not interfere with the cooling of the hot air.

In addition, the present invention can cool the hot air generated in the condensation space by using the heat radiation action through the heat pipe, improve the heat dissipation effect of the heat pipe by using the cold condensed water generated in the evaporation unit, accordingly the hot air It increases the cooling efficiency of the and ensures sufficient cooling when the air is discharged from the condensation space.

In addition, the present invention can cool the hot air using the cold air of the condensate through a plurality of drip tray and the drain pipe, thereby increasing the cooling efficiency of the hot air.

In addition, since the heat pipe is immersed in the condensed water, the present invention increases the cooling efficiency of the heat pipe, and allows the hot air in the condensation space to be cooled and discharged quickly.

In addition, the present invention by cooling the hot air generated in the condensation space, it is possible to discharge the air of the cooled condensation space to the room, and to omit the duct for discharging the air of the condensation space to the outside, the installation of the duct Eliminate the inconvenience caused by, can be free to move the position of the moving body.

In addition, the present invention by cooling the hot air generated from the condensation unit to lower the temperature of the hot air to room temperature level can be discharged as it is indoors.

In addition, the present invention by changing the flow of hot air through the cooling partition, it is possible to increase the contact area of the hot air and the cooling partition in the condensation space, thereby inducing the cooling of the hot air.

In addition, the present invention can maintain the function of the air conditioner indoors without installing a duct connecting the condensation space and the outdoors.

In addition, the present invention facilitates the circulation of hot air in the condensation space through the detailed configuration of the second drip tray, increases the cooling efficiency of the hot air according to the circulation of the hot air, the air and the collecting space circulating in the condensation space It is possible to smoothly discharge the condensate received.

1 is a front sectional view showing a mobile air conditioner according to a first embodiment of the present invention.
FIG. 2 is an enlarged view illustrating a state in which the suction hole part of FIG. 1 is disposed.
3 is a side cross-sectional view showing an installation state of the cooling passage in the mobile air conditioner according to the first embodiment of the present invention.
Figure 4 is a side cross-sectional view showing a mobile air conditioner according to a second embodiment of the present invention.
Figure 5 is a side cross-sectional view showing a mobile air conditioner according to a third embodiment of the present invention.
6 is a perspective view illustrating a second drip tray in a mobile air conditioner according to a third embodiment of the present invention.
7 is a plan view illustrating a state in which exhaust air of the fan housing passes through the second drip tray in the mobile air conditioner according to the third embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of a mobile air conditioner according to the present invention. At this time, the present invention is not limited or limited by the embodiment. In addition, in describing the present invention, a detailed description of known functions or configurations may be omitted to clarify the gist of the present invention.

The mobile air conditioner according to the first embodiment of the present invention will now be described.

1 to 3, the mobile air conditioner according to the first embodiment of the present invention includes a moving body 10, an air conditioning facility provided in the moving body 10, and a cooling passage 30.

The moving body 10 is partitioned into a condensation space 12 and an evaporation space 13 by a partition partition 11 installed therein. The condensation space and the evaporation space are installed separately for the condensation process and the evaporation process of the air conditioning equipment. In other words, the condensation space 12 is provided with a compression unit 21, a condensation unit 22, and a condensation fan unit 24. The evaporation space 13 is provided with an evaporation unit 23 and an evaporation fan unit 25.

The moving body 10 may be provided with a suction hole 14 for opening the evaporation space 13 for communication with the cooling passage 30. In addition, the moving body 10 may be provided with a connection hole 15 for opening the condensation space 12 for communication with the cooling passage 30.

The moving body 10 may be provided with a first discharge hole 16 for opening the evaporation space 13 so that the air cooled by the evaporation unit 23 is discharged. In addition, the moving body 10 may be provided with a second discharge hole 17 for opening the condensation space 12 so that hot air generated in the condensation space 12 is discharged.

Here, the opening area of the suction hole part 14 is larger than the opening area of the connection hole part 15, so that the cooled air can be smoothly discharged. In addition, the opening area of the suction hole 14 is smaller than the opening area of the first discharge hole 16 so that the cooled air is sufficiently supplied to the room. In addition, the opening area of the first discharge hole 16 is equal to or larger than the opening area of the suction hole 14 so that the hot air is sufficiently cooled in the condensation space.

The air conditioning equipment cools the incoming indoor air and supplies it to the room. The air conditioning equipment is to be embedded in the mobile body (10). The air conditioning system includes a compression unit 21, a condensation unit 22, an evaporation unit 23, a condensation fan unit 24, and an evaporation fan unit 25.

The compression unit 21 is installed in the condensation space 12 to compress the refrigerant. The compression unit 21 may include a compressor for compressing the refrigerant. The compression unit 21 may generate heat in the process of compressing the refrigerant.

The condensation unit 22 is installed in the condensation space 12 to condense the refrigerant compressed by the compression unit 21. The condensation unit 22 may generate heat in the process of condensing the refrigerant. The condensation unit 22 may be connected to the compression unit 21 through a first refrigerant pipe (not shown), and may condense the supplied compressed refrigerant.

The evaporation unit 23 is installed in the evaporation space 13 to evaporate the refrigerant condensed by the condensation unit 22. The evaporation unit 23 may absorb heat in the process of evaporating the refrigerant. Accordingly, the evaporation unit 23 may cool the air in the evaporation space (13). At this time, in the evaporation unit 23, as the air of the evaporation space 13 is cooled, cold condensed water may occur. Here, the generated condensate is close to 0 degrees, and may represent 5 degrees to 15 degrees.

Although not shown, an expansion unit (not shown) may be provided between the condensation unit 22 and the evaporation unit 23 to expand and supply the refrigerant condensed through the condensation unit 22 to the evaporation unit 23. The evaporation unit 23 may be connected to the condensation unit 22 through a second refrigerant pipe (not shown), and an expansion unit (not shown) may be provided on the second refrigerant pipe (not shown).

The condensation fan unit 24 is installed in the condensation space 12 to dissipate the condensation unit 22. The condensation fan unit 24 may cool the condensation unit 22 by circulating the air introduced in the indoor air or the condensation space 12. The condensation fan unit 24 may also cool the compression unit 21 together with the condensation unit 22.

The condensation fan unit 24 may include a condensation fan motor generating a rotational force and a condensation fan rotated by the condensation fan motor.

The condensation fan unit 24 may allow the indoor air to flow into the condensation space 12, circulate the air in the condensation space 12, and suck the cooled air from the connection hole 15. Air in the condensation space 12 may be supplied to the second discharge hole 17.

The condensation fan unit 24 may be built in the fan housing 241 provided in the condensation space 12. Then, the condensation fan unit 24 embedded in the fan housing 241 sucks the indoor air or the air of the condensation space 12 introduced into the condensation space 12 into the fan housing 241, and condensation fan unit 24. The wind generated in the) is heated by the condensation unit 22 or the compression unit 21 in the condensation space 12, the wind generated in the condensation fan unit 24 includes hot air.

The evaporation fan unit 25 is provided in the evaporation space 13 to discharge the air cooled by the evaporation unit (23). The evaporation fan unit 25 may cool the air in the evaporation space 13 by allowing the indoor air or the air of the evaporation space 13 to pass through the evaporation unit 23.

The evaporation fan unit 25 may allow indoor air to flow into the evaporation space 13, circulate air in the evaporation space 13 in the evaporation space 13, and provide air in the evaporation space 13. The suction hole 14 and the first discharge hole 16 may be supplied.

Although not shown, the evaporation fan unit 25 may be embedded in the evaporation housing (not shown) provided in the evaporation space (13). Then, the air cooled in the evaporation unit 23 by the evaporation housing (not shown) can be stably guided to the suction hole 14 and the first discharge hole 16.

The evaporation fan unit 25 may include an evaporation fan motor generating a rotational force and an evaporation fan rotated by the evaporation fan motor. Here, the evaporation fan may include a cross flow fan.

The cooling passage 30 connects the evaporation space 13 and the condensation space 12 to guide the air cooled by the evaporation unit 23 to the condensation space 12.

The cooling passage 30 has a cold air collecting duct 31 in communication with the evaporation space 13, an extension duct 33 extending from the cold air collecting duct 31, and an extension duct 33 extending from the evaporation unit 23. It may include a cold air supply duct 35 for supplying the air cooled by the condensation space 12, the condensation fan unit 24 or the condensation unit 22.

At this time, the inlet area of the cold air collection duct 31 is substantially the same as the opening area of the suction hole 14, the cross-sectional area of the extension duct 33 is substantially the same as the cross-sectional area of the cold air supply duct 35, the cold air supply Since the cross-sectional area of the duct 35 may be substantially the same as the opening area of the connection hole 15, the movement of the cooled air by the negative pressure may be smoothly performed.

In particular, the outlet of the cold air supply duct 35 may be directly connected to the condensation space 12, supply cool air to the condensation fan unit 24, and supply cool air to the condensation unit 22. do.

Here, the cold air collection duct 31 is provided with an inclined portion 32 to guide the air cooled by the evaporation unit 23 to the extension duct 33, so that the cooled air stably into the condensation space 12 Make sure to supply enough.

The mobile air conditioner according to the first embodiment of the present invention may further include a first drip tray 50. The first drip tray 50 collects cold condensed water generated by the evaporation unit 23. Since the condensed water collected in the first drip tray 50 is generated in the evaporation unit 23, the condensed water is lower than the temperature of the indoor air.

In the first embodiment of the present invention, the air cooled by the evaporation unit 23 may represent 5 degrees to 15 degrees, and the condensed water collected in the first drip tray 50 may represent 5 degrees to 15 degrees. Hot air in the condensation space 12 may represent 40 to 60 degrees.

At this time, as the cooled air is transferred to the condensation space 12, the hot air of the condensation space 12 may be discharged to the room through the second discharge hole 17 in a state of being lowered by about 15 degrees to about 20 degrees.

A mobile air conditioner according to a second embodiment of the present invention will now be described.

Referring to FIG. 4, the mobile air conditioner according to the second embodiment of the present invention includes a moving body 10, a compression unit 21, a condensation unit 22, an evaporation unit 23, and a condensation fan unit ( 24, an evaporation fan unit 25, and a cooling passage 30.

In the mobile air conditioner according to the second embodiment of the present invention, the same components as in the mobile air conditioner according to the first embodiment of the present invention are denoted by the same reference numerals, and description thereof will be omitted.

The mobile air conditioner according to the second embodiment of the present invention may further include a heat pipe 40. The heat pipe 40 may be composed of micro channels.

The heat pipe 40 cools the wind generated from the condensation fan unit 24. The inside of the heat pipe 40 forms a vacuum or the cooling fluid is filled in the heat pipe 40, thereby cooling the wind generated in the condensation fan unit 24.

In the second embodiment of the present invention, the heat pipe 40 is provided in the second discharge hole 17 or is provided between the condensation fan unit 24 and the second discharge hole 17 to move from the condensation space 12 to the interior. The hot air discharged can be further cooled.

The mobile air conditioner according to the second embodiment of the present invention may further include a first drip tray 50, a second drip tray 60, and a drain pipe 70.

The first drip tray 50 is provided in the evaporation space 13 to collect the condensed water generated in the evaporation unit 23. Since the condensed water collected in the first drip tray 50 is generated in the evaporation unit 23, the condensed water is lower than the temperature of the indoor air or the temperature of the evaporation space 13.

The second drip tray 60 is provided in the condensation space 12. The second drip tray 60 is collected in the first drip tray 50 to collect the condensed water supplied through the drain pipe 70. The second drip tray 60 is provided with a drain pipe 61 to discharge the condensed water collected in the second drip tray 60.

The drain pipe 70 connects the first drip tray 50 and the second drip tray 60. The drain pipe 70 allows the wind generated in the condensation fan unit 24 to hit. Since the condensed water passing through the drain pipe 70 is condensed water collected in the first drip tray 50, the hot air generated by the condensation fan unit 24 hits the air.

In the second embodiment of the present invention, the heat pipe 40 may be immersed in the condensed water collected in the second drip tray 60. Then, the heat pipe 40 is heat-exchanged with the hot air of the condensation space 12, and the heat pipe 40 is heat-exchanged with the condensed water collected in the second drip tray 60, it is discharged to the second discharge hole 17 The air of the condensation space 12 is cooled once more, and the hot air of the condensation space 12 may be further cooled by about 8 degrees to about 11 degrees.

Therefore, the heat dissipation efficiency of the heat pipe 40 is increased through the condensed water collected in the second drip tray 60, and the hot air of the condensation space 12 is further cooled. Cooling efficiency for hot air may be increased, and hot air in the condensation space 12 may be discharged through the second discharge hole 17 in a state of being lowered by about 20 to 35 degrees.

The heat pipe 40 may change the direction of the wind generated from the condensation fan unit 24. The cooling partition 80 may cool the hot air cooled by the heat pipe 40 by changing the direction of wind generated from the condensation fan unit 24 to the second drip tray 60.

Then, the hot air of the condensation space 12 is circulated in the condensation space 12 while passing through the condensed water of the heat pipe 40 and the second drip tray 60 or discharged through the second discharge hole 17. Accordingly, the cooling efficiency for the hot air of the condensation space 12 can be increased.

A mobile air conditioner according to a third embodiment of the present invention will now be described.

5 to 7, the mobile air conditioner according to the third embodiment of the present invention includes a mobile body 10, a compression unit 21, a condensation unit 22, an evaporation unit 23, and condensation. And a fan unit 24, an evaporation fan unit 25, and a cooling passage 30.

In the mobile air conditioner according to the third embodiment of the present invention, the same components as those of the mobile air conditioner according to the first or second embodiment of the present invention are denoted by the same reference numerals, and description thereof will be omitted.

The mobile air conditioner according to the third embodiment of the present invention may further include the heat pipe 40 described above.

The mobile air conditioner according to the third embodiment of the present invention may further include the first drip tray 50, the second drip tray 60, and a drain pipe 70.

Here, the condensation fan unit 24 may be embedded in the fan housing 241 provided in the condensation space 12. The fan housing 241 is provided with an outlet 242 through which the air inside is discharged. Although not shown in the drawing, the inside of the fan housing 241 or the inside of the outlet 242 or the front of the outlet 242 is provided with the above-described heat pipe 40 may further cool the air discharged. And the fan housing 241 is provided with a discharge guide portion 243 for guiding the air discharged from the discharge port 242 to the second drip tray (60).

In addition, in the third embodiment of the present invention, the second drip tray 60 is provided in the collecting body 63 and the collecting space 63a in which the collecting space 63a is formed to collect the condensed water delivered from the first drip tray. Branch partition 64 for dividing the air to be divided, circulation partition 65 for delivering the air divided to one side by the branch partition 64 to the condensation space 12, and the other side by the branch partition 64 It may include a fluid discharge portion 66 for delivering the divided air to the room.

The collection body 63 may be provided with an air induction part 63b for guiding air discharged from the discharge port 242 to the branch partition wall. The air induction part 63b inclines upward from the bottom of the collection body 63 toward one edge of the collection body 63 at the branch partition 64 side, thereby facilitating air induction into the branch partition 64. .

The branch partition 64 includes a first induction part 642 for guiding the supplied air to one side of the collecting space 63a and a second induction part 643 for guiding the supplied air to the other side of the collecting space 63a. can do. The first induction part 642 extends inclined toward one side of the collecting space 63a with respect to the branch 64a, and the second induction part 643 has the other of the collecting space 63a based on the branch 64a. It is provided to extend inclined to the side. The branch partition 64 may further include an air branch 641 for guiding the supplied air to the first induction part 642 and the second induction part 643. The air branch portion 641 extends toward the air supply side based on the branch portion 64a. Then, the branch partition wall 64 may have a triangular shape extending in three directions with respect to the branch portion 64a.

The air discharged from the discharge port 242 may be guided to one side of the collection body 63 by the discharge induction part 243, and the circulation discharge part 65 may be formed in a groove shape on the other side of the collection body 63. Here, the air discharged through the circulation discharge unit 65 is the compression unit 21, the receiver tank (not shown) connected to the compression unit 21, connecting the compression unit 21 and the receiver tank (not shown) It may be supplied to at least one component of the refrigerant line (not shown) to cool the component.

The fluid discharge portion 66 is coupled to the second discharge hole portion 17. In the fluid discharge portion 66, a discharge hole 66b is penetrated to deliver the supplied air to the room. The discharge hole 66b communicates with the second discharge hole portion 17. As such, in the mobile air conditioner according to the third embodiment of the present invention through the detailed configuration of the second drip tray 60, a separate drain hose connection is not required, and there is no restriction in installation and movement, and according to the installation and movement Discomfort can be eliminated.

In addition, a collecting jaw portion 66a may be provided between the collecting body 63 and the fluid discharge part 66 to indicate a limit overflowing the condensed water collected in the collecting space 63a. The collecting jaw portion 66a is recessed from the upper end of the collecting body 63 to allow the collecting space 63a and the discharge hole 66b to communicate with each other. Then, the air guided to the other side of the collecting space 63a is discharged into the groove by the collecting jaw portion 66a to be discharged into the room through the discharge hole 66b. In addition, in the collecting space 63a, the condensed water may be collected from the bottom of the collecting body 63 to a height from the bottom of the collecting jaw portion 66a, and the condensed water is higher than the upper end of the collecting jaw portion 66a. Condensed water is discharged toward the interior through the discharge hole (66b).

In the third embodiment of the present invention, the heat pipe 40 may be immersed in condensed water collected in the collecting space 63a of the second drip tray 60. In this case, since the heat pipe 40 may protrude from the outlet 242 as shown in FIG. 5 and may be supported at the bottom of the collection space 63a, the heat pipe 40 may be simply immersed in condensed water. In addition, the heat pipe 40 guides the wind generated in the condensation fan unit 24 to the second drip tray 60. As shown in FIG. 5, since the heat pipe 40 guides the air discharged from the discharge port 242 to the collection space 63a, the cooling efficiency of the air discharged from the discharge port 242 may be increased.

Then, the heat pipe 40 is heat exchanged with the condensed water collected in the second drip tray 60, the air discharged from the outlet 242 is first heat exchanged in the heat pipe 40, and passes through the second drip tray 60 While secondary heat exchange, the temperature can be reduced in two steps. Accordingly, the air discharged from the discharge port 242 has a temperature drop of one step through the cooling flow path 30 and a temperature drop of two steps through the condensed water of the heat pipe 40 and the second drip tray 60. The temperature can be lowered to a level.

According to the above-described mobile air conditioner, by guiding a part of the air cooled by the evaporation unit 23 through the cooling passage 30 to the condensation space 12, it is possible to cool the hot air generated in the condensation space 12 have. In addition, it is possible to facilitate the inflow of air cooled by the evaporation unit 23 through the detailed configuration of the cooling flow path 30, and to facilitate mixing with hot air in the condensation space 12. In addition, the suction amount of the air cooled through the inclined portion 32 increases, and prevents negative pressure from occurring in the cooling flow path 30, and does not interfere with the cooling of the hot air.

In addition, it is possible to cool the hot air generated in the condensation space 12 by using a heat radiation action through the heat pipe 40, and improve the heat radiation effect of the heat pipe by utilizing the cold condensate water generated in the evaporation unit (23). In this case, the cooling efficiency of the hot air is increased, and the air is sufficiently cooled when the air is discharged from the condensation space 12. In addition, it is possible to cool the hot air by using the cold air of the condensate through the plurality of drip trays 50 and 60 and the drain pipe 70, thereby increasing the cooling efficiency of the hot air. In addition, since the heat pipe 40 is immersed in the condensed water, the cooling efficiency of the heat pipe 40 is increased, and the hot air in the condensation space 12 is quickly cooled and discharged.

In addition, the hot air generated in the condensation space 12 is cooled, so that the air of the cooled condensation space 12 can be discharged to the room, and the duct for discharging the air of the condensation space 12 to the outside can be omitted. It can be, and eliminate the inconvenience caused by the installation of the duct, it is possible to freely move the position of the moving body (10). In addition, by cooling the hot air generated from the condensation unit 22 to lower the temperature of the hot air to room temperature level can be discharged as it is indoors.

In addition, by changing the flow of hot air through the cooling partition 80, it is possible to increase the contact area between the hot air and the cooling partition 80 in the condensation space 12, thereby inducing the cooling of the hot air.

In addition, the function of the air conditioner can be maintained indoors without installing a duct connecting the condensation space 12 and the outdoors.

In addition, the detailed configuration of the second drip tray 60 facilitates the circulation of hot air in the condensation space 12, increases the cooling efficiency of the hot air according to the circulation of the hot air, and circulates in the condensation space 12. It is possible to smoothly discharge the condensate contained in the air and the collecting space (63a).

Although the preferred embodiments of the present invention have been described with reference to the drawings as described above, those skilled in the art can variously change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. Can be modified or changed.

10: moving body 11: compartment bulkhead 12: condensation space
13: evaporation space 14: suction hole 15: connection hole
16: first discharge hole 17: second discharge hole 21: compression unit
22: condensation unit 23: evaporation unit 24: condensation fan unit
241: fan housing 242: discharge port 243: discharge guide portion
25: evaporation fan unit 30: cooling flow path 31: cold air collection duct
32: guide slope 33: extension duct 35: cold air supply duct
40: heat pipe 50: first drip tray 60: second drip tray
61: drain pipe 63: collection body 63a: collection space
63b: air induction part 64: branch partition 641: air branch part
642: first induction part 643: second induction part 64a: branch part
65: circulation discharge portion 66: fluid discharge portion 66a: collecting jaw portion
66b: discharge hole 70: drainage pipe

Claims (9)

A moving body partitioned into a condensation space and an evaporation space by a partition partition wall installed therein;
A compression unit installed in the condensation space to compress the refrigerant;
A condensation unit installed in the condensation space to condense the refrigerant compressed by the compression unit;
An evaporation unit installed in the evaporation space to evaporate the refrigerant condensed by the condensation unit;
A condensation fan unit installed in the condensation space to dissipate the condensation unit;
An evaporation fan unit installed in the evaporation space to discharge air cooled by the evaporation unit; And
And a cooling flow path connecting the evaporation space and the condensation space to guide the air cooled by the evaporation unit to the condensation space. The method of claim 1,
The cooling passage,
A cold air collecting duct in communication with the evaporation space;
An extension duct extending from the cold air collection duct; And
And a cold air supply duct extending from the extension duct to supply the air cooled by the evaporation unit to the condensation space, the condensation fan unit, or the condensation unit. The method of claim 2,
In the cold air collection duct,
Mobile air conditioner, characterized in that the; provided with an inclined portion to guide the air cooled by the evaporation unit into the extension duct. The method of claim 1,
Mobile air conditioner further comprises a; heat pipe for cooling the wind generated in the condensation fan unit. The method of claim 4, wherein
A first drip tray provided in the evaporation space to collect condensate generated in the evaporation unit;
A second drip tray provided in the condensation space; And
And a drain pipe connecting the first and second drip trays to form a movement path of the condensate.
Mobile air conditioner, characterized in that a part of the heat pipe is immersed in the second drip tray. The method of claim 5,
The heat pipe is a mobile air conditioner, characterized in that to guide the wind generated in the condensation fan unit to the second drip tray, The method of claim 1,
A first drip tray provided in the evaporation space to collect condensate generated in the evaporation unit;
A second drip tray provided in the condensation space; And
And a drainage pipe connecting the first drip tray and the second drip tray to form a movement path of the condensate. The method according to any one of claims 5 to 7,
The second drip tray,
A collecting body in which a collecting space for collecting condensed water from the first drip tray is collected;
Branch partitions are provided in the collecting space for dividing the air delivered;
A circulation discharge unit configured to transfer air divided to one side by the branch partition to the condensation space; And
Mobile air conditioner comprising a; fluid discharge unit for transmitting the air divided to the other side by the branch partition to the room. The method according to any one of claims 5 to 7,
The condensation fan unit is built in the fan housing provided in the condensation space,
Mobile exhaust air conditioner, characterized in that provided in the discharge port of the fan housing to guide the discharged air to the second drip tray.

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