KR102181110B1 - Air cooler having improved cooling efficiency - Google Patents

Abstract

The present invention provides an air cooler which has a simple structure that accommodates a cooling body such as a frozen mineral water bottle inside and blows air, is convenient to operate, is convenient to carry by being manufactured in a small volume, and can effectively exchange heat between incoming outdoor air and the cooling body. The present invention includes: a cylindrical body containing water and the cooling body and having a plurality of heat exchange blades; a blowing fan that sucks and discharges air from a plurality of air flow paths between the heat exchanger blades; a stirring member for stirring water on a bottom sealing member coupled to the lower end of the cylindrical body; and a stirring actuator for driving the stirring member.

Description

Cooler with improved air cooling efficiency{AIR COOLER HAVING IMPROVED COOLING EFFICIENCY}

The present invention relates to a cooling fan with improved air cooling efficiency, and more particularly, by configuring the cooling body and water accommodated in the columnar body to effectively heat exchange of air passing through the columnar body. It relates to a cooler that improves the cooling efficiency of the.

Air conditioners are mainly used for cooling in the summer, but there is a problem that power consumption is severe and excessive costs are required for installation and management.

In particular, installing and operating an air conditioner for cooling a tightly closed space such as a study room has many wasteful factors, and the use of a fan with low energy consumption is recommended, but the limitation in not being able to blow cool wind due to self-heating when used for a long time. There is.

Accordingly, in recent years, a cooling fan that consumes less energy and can be easily operated has been developed.

1 is related to a cold air machine 1 using a conventional refrigerant receptor, which is described in Korean Utility Model Publication No. 20-0480519.

Referring to FIG. 1, in a state in which the refrigerant receiver 3 is accommodated in the refrigerant receiving space 2, external air introduced through the inlet 6 contacts the refrigerant receiver 3 to perform heat exchange.

The blowing fan consists of a suction fan 4 and a discharge fan 5, so when the blowing fan is operated, the inner suction fan 4 is sucked so that the outside air passes through the refrigerant receptor 3, Heat exchange is performed, and the outer discharge fan 5 discharges the cool air sucked by the suction fan 4 back to the outside through the discharge path 7.

Such a conventional cooling fan 1 can have a small volume as a whole, and can supply cold air by a simple structure and operation of rotating the blower fan after installing the refrigerant receptor 3 in the refrigerant receiving space 2. There is an advantage.

However, since the conventional cooler 1 is mainly in contact with the outside air on the surface of the refrigerant receptor 3, the contact area between the refrigerant receptor 3 and the outside air is narrow, and the air passing through the refrigerant receptor 3 also passes quickly. Since sufficient heat exchange cannot be performed around the refrigerant receptor 3, there is a problem that the cooling air supply performance and energy efficiency are not high.

The present invention was conceived from the above point of view, and the object of the present invention is to have a simple structure and operation convenience for receiving and blowing a cooling body such as a frozen mineral water bottle inside, and a mobile convenience that can be manufactured in a small volume, It is to provide a cooling fan having a structure in which the cooling efficiency of the air is improved by enabling the heat exchange between the incoming outdoor air and the cooling body to be effectively performed.

In order to achieve the above object, the cooling fan according to the present invention includes a cylindrical body for accommodating water and a cooling body in an internal space, a cylindrical body having a plurality of heat exchange blades formed along an outer circumference of the cylindrical part, and the circumferential body therein. A cylindrical cover in which a mold body is inserted to cover the periphery of the heat exchange blades along the outer ends of the plurality of heat exchange blades so that air flows in the longitudinal direction of the cylindrical part in a plurality of air flow paths between the heat exchange blades; , A blowing fan coupled to the upper end of the cylindrical body and sucking air from the air flow path and discharging it, and a bottom sealing member coupled to the lower end of the cylindrical portion to form a bottom surface of the inner space of the cylindrical portion; It characterized in that it comprises a stirring member installed on the bottom sealing member to stir the water accommodated in the inner space of the cylindrical portion, and a stirring driver installed below the bottom sealing member to stir and operate the stirring member.

In addition, the cooling air according to the present invention, the stirring member comprises a magnet or a ferromagnetic material, the stirring driver, a rotating body including a magnet or ferromagnetic material to act on the attraction or repulsive force magnetic force to the stirring member, and the rotor By including a motor that rotates the whole, the stirring member by the rotation of the rotating body is characterized by another feature to stir the water by moving by receiving the attraction or repulsive force.

In addition, the cooling air according to the present invention, wherein the stirring member includes a rod-shaped stirring body and an annular protrusion surrounding an outer circumferential surface at the center of the stirring body, and the annular projection is in contact with the upper surface of the bottom sealing member, and the stirring Another feature is that rotation occurs by rotation of the rotating body while the body is lying down.

In addition, the cooling air according to the present invention is provided with a support protrusion protruding upward at a plurality of positions along the outer circumference of the stirring member rotating at the center of the upper surface of the bottom sealing member to support the cooling body, In the blowing fan, a cover coupled to an upper end of the cylindrical portion is coupled to a central portion of a lower portion, and an air guide path for guiding air rising from the air flow path along the circumference of the cover is formed, and a fan on the upper side of the cover A fan blade rotating by a motor and the fan motor is installed to raise air from the air guide path, and a display that displays a temperature in the center of the upper surface, and air formed along the periphery of the display and rising from the fan blade Another feature is that the outlet is installed to be discharged.

In addition, the cooler according to the present invention is coupled to the lower end of the columnar body to build the columnar body by landing on the floor, a container-shaped landing housing accommodating the stirring actuator, and an annular shape to surround the landing housing. And a drip tray member for receiving condensate falling from the heat exchanger blade, wherein the drip tray member has a hinge shaft installed on one side and is coupled to each other by the hinge shaft at one end and contacts each other at the other end to form a complete annular shape. A pair of arc-shaped water tanks each having a gutter groove, a magnetic force attaching and detaching member respectively installed at the other ends of the pair of arc-shaped water tanks to join each other by magnetic force, and protruding from the inner side of the pair of arc-shaped water tanks. Another feature is that a support protrusion is included, and a support groove coupled with the support protrusion is formed on a side surface of the landing housing.

The cooling fan of the present invention includes a columnar body having a plurality of heat exchange blades for receiving water and a cooling body, a blower fan that sucks and discharges air from a plurality of air flow paths between the heat exchange blades, and the columnar body It consists of a stirring member for stirring water on the bottom sealing member coupled to the lower end of the, and a stirring driver for driving it.

Accordingly, the cooling fan of the present invention, the air flows between the heat exchange blades of the columnar body to perform heat exchange in a large contact area, and the cooling body and the columnar body are also continuously flowing between them and Since heat exchange is performed, heat exchange between the incoming outdoor air and the cooling body can be performed smoothly and effectively, thereby improving the cooling efficiency of air.

1 is a cross-sectional view showing the structure of a conventional cooler
2 is an exploded perspective view showing the configuration of each part of a cooler according to an embodiment of the present invention
3 is a cross-sectional view showing a configuration of a cooler according to an embodiment of the present invention
4 is an exploded perspective view showing a modified configuration of a stirring member in a cooler according to an embodiment of the present invention
5 is a cross-sectional view showing a configuration of a cooler according to another embodiment of the present invention
6 is a perspective view showing the configuration of a water receiving member in a cooler according to an embodiment of the present invention
7 is an explanatory diagram illustrating a process of separating a water receiving member from a landing housing in a cooler according to an embodiment of the present invention;
8 is a perspective view showing a configuration of a cooler according to another embodiment of the present invention, and showing a structure in which an outlet is installed on an upper side
9 is a cross-sectional configuration diagram showing the configuration of the cooler of FIG. 8

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

2 and 3, the cooler according to the embodiment of the present invention includes a cylindrical portion 11 and the cylindrical portion 11 for accommodating water 81 and a cooling body 82 in an inner space 11a. ), a columnar body 10 having a plurality of heat exchange blades 12 formed along the periphery of the outer circumference of the columnar body 10, and a heat exchange blade 12 along the outer ends of the plurality of heat exchange blades 12 ) By covering the circumference of the heat exchanger blades 12 to allow air to flow in the longitudinal direction of the cylindrical portion 11 in a plurality of air flow paths 12a, and the cylindrical body The blower fan 30 is coupled to the upper end of the 10 and sucks and discharges air from the air flow path 12a, and is coupled to the lower end of the cylindrical part 11 so that the upper surface is the inner space of the cylindrical part 11 ( The bottom sealing member 50 forming the bottom of 11a) and a stirring member 60 installed on the bottom sealing member 50 to stir the water 81 accommodated in the inner space 11a of the cylindrical portion 11 ), and a stirring actuator 70 installed under the bottom sealing member 50 to stir and operate the stirring member 60.

The columnar body 10 is a part that is integrally made of aluminum to perform heat exchange, and a cylindrical part 11 for accommodating the water 81 and the cooling body 82 in the inner space 11a, and the A plurality of heat exchange blades 12 are formed along the periphery of the outer peripheral surface of the cylindrical portion 11.

The heat exchange blades 12 are arranged at uniform intervals around the cylindrical portion 11, and are preferably extended in a radial direction from the outer circumferential surface of the cylindrical portion 11, but extending in a spiral curved trajectory toward the radial direction. Do.

When the plurality of heat exchange blades 12 extend in a spiral curved trajectory, a contact area with air may be widened than that extending in a straight line based on one heat exchange blade 12.

Between the plurality of heat exchange blades 12, the air flow path 12a is formed so as to extend in the longitudinal direction of the cylindrical part 11, and a plurality of heat exchange blades 12 are arranged at uniform intervals around the cylindrical part 11 Is formed.

A cylindrical cover 20 surrounding the periphery of the heat exchange blades 12 along the outer ends of the plurality of heat exchange blades 12 so that the air flow path 12a is formed as a passage extending in the longitudinal direction of the cylindrical part 11 Installed.

That is, the cylindrical body 10 is fitted and installed inside the cylindrical cover 20, so that the cylindrical cover 20 has a structure surrounding the heat exchange blades 12, and the air flow path between the heat exchange blades 12 (12a) has a longitudinal direction so that the radially outside is blocked and air flows along the longitudinal direction of the cylindrical portion 11.

In the cylindrical portion 11 of the cylindrical body 10, the inner space 11a is formed as an empty space so that the water 81 and the cooling body 82 may be accommodated.

To this end, the inner space 11a of the cylindrical part 11 is blocked by installing a bottom sealing member 50 at its lower end, and a cover 40 is installed at the upper end.

The cover 40 has a locking protrusion 41 that is hooked on the upper end of the cylindrical portion 11 is formed around the circumference, and an annular O-ring 42 is installed at the lower side thereof to act watertight.

The cooling body 82 is charged into the inner space 11a of the cylindrical part 11 and fills the inside by pouring water 81, and the cooling body 82 may be a frozen mineral water bottle.

The water 81 filled around the cooling body 82 serves as a heat transfer medium by contacting the cooling body 82 and the inner surface of the cylindrical portion 11.

The blower fan 30 is coupled to the upper end of the cylindrical body 10, sucks air from the air flow path 12a, and discharges it to the upper side.

A cover 40 coupled to the upper end of the cylindrical part 11 is coupled to the lower part of the blowing fan 30, and when the cover 40 is fixed to the upper end of the cylindrical part 11, the blowing fan 30 is also It may be fixed to the upper end of the cylindrical portion (11).

In addition, the blower fan 30 has an air guide path 35 for guiding the air rising from the air flow path 12a along the circumference of the cover 40 from the bottom, and the upper side of the cover 40 A fan motor 32 and a fan blade 31 rotated by the fan motor 32 are installed so that air can be raised from the air guide path 35 by the rotation of the fan motor 32.

In the outer case of the blower fan 30, a display 33 displaying the temperature in the center on the upper surface thereof, and an outlet 34 formed along the circumference of the display 33 to discharge the air rising from the fan blades 31 Is installed.

The external air temperature and the temperature of the cold air discharged by the blower fan 30 may be displayed on the display 33.

On the other hand, the bottom sealing member 50 is coupled to the lower end of the cylindrical portion 11 to form the bottom surface of the inner space 11a of the cylindrical portion 11, the inner space 11a of the cylindrical portion 11 Of the water (81) to prevent leakage to the lower side.

The bottom sealing member 50 has an O-ring 52 installed on the outer surface of the circumferential circular frame, and the circular frame is inserted into the lower end of the cylindrical portion 11 in the cylindrical body 10, so that the O-ring 52 is the cylindrical portion 11 ), it can be watertight.

Among the bottoms of the inner space 11a of the cylindrical part 11, on the bottom sealing member 50, a stirring member 60 for stirring the water 81 accommodated in the inner space 11a of the cylindrical part 11 is installed do.

The stirring member 60 is for stirring by stirring the water 81 in the inner space 11a while rotating, and is rotated by the stirring actuator 70.

The stirring driver 70 is installed under the bottom sealing member 50 to rotate the stirring member 60.

The stirring member 60 includes a magnet or a ferromagnetic material, and the stirring driver 70 is a rotating body 71 including a magnet or a ferromagnetic material so as to apply a magnetic force to the stirring member 60 to apply attractive or repulsive force, and the It includes a motor 72 for rotating the rotating body 71.

Accordingly, by the rotation of the rotating body 71, the stirring member 60 moves by receiving an attractive force or repulsive force to agitate the water 81.

The rotating body 71 may be a bar magnet in which a rotation shaft of the motor 72 is coupled to an intermediate portion, or a structure in which magnets are coupled to both ends of a rod made of metal or synthetic resin.

The stirring member 60 may have a structure including a rod-shaped stirring body 61 and an annular protrusion 62 surrounding the outer circumferential surface at the center of the stirring body 61.

The stirring body 61 forms a rod shape of a short length, and an annular protrusion 62 is installed in the center of the stirring body 61 to contact the upper surface of the bottom sealing member 50.

Accordingly, the stirring body 61 is in contact with the bottom sealing member 50 by the annular protrusion 62, so that the contact area is small and friction loss is small, and rotation can be made easily by induction of the stirring actuator 70. .

When the annular protrusion 62 is in contact with the stirring body 61 lying down in the center of the upper surface of the bottom sealing member 50, the rotating body 71 of the stirring actuator 70 rotates and the stirring member 60 by magnetic force Causes the rotation of.

On the upper surface of the bottom sealing member 50, a support protrusion 53 protruding upward at a plurality of positions is installed along the outer circumference of the stirring member 60 located in the center and rotating, and a cooling body such as a frozen water bottle The movement of the stirring member 60 is prevented by the cooling body 82 because the 82 is raised and supported, and an area in which the stirring member 60 can rotate is secured by the supporting protrusion 53 Do not receive.

The stirring actuator 70 is accommodated and installed inside the landing housing 73, and the flange portion 73a of the landing housing 73 having a container shape is bolted to the flange portion 54 of the bottom sealing member 50 As a result, the coupling can be made at the lower end of the columnar body 10 via the bottom sealing member 50, and the columnar body 10 is maintained in an erect state while the landing housing 73 is landed on the floor. .

The stirring member 60 may be configured by changing as shown in FIG. 4.

That is, the stirring member 60 is coupled to the inclined blades 65 having inclined surfaces 65a on both sides of the central body 64 on which the rotating shaft hole 64a is formed, and at the ends of the inclined blades 65, respectively, magnets at the bottom 67 is combined.

In addition, the rotation shaft pin 66 is inserted into the rotation shaft hole 64a, and the rotation shaft pin 66 is helically coupled to the shaft coupling protrusion 68 installed on the upper surface of the bottom sealing member 50.

Accordingly, the central body 64 and the inclined blade 65 can freely rotate around the rotation shaft pin 66 coupled to the upper surface of the bottom sealing member 50.

The stirring driver 70 needs to be harmonized by adjusting the speed of the rotating body 71 using a reducer in consideration that the stirring member 60 rotates at a low rotational speed in water with high resistance.

For the use of the cooler of the present embodiment configured as described above, first, the blowing fan 30 and the cover 40 are separated from the cylindrical body 10, and a cooling body 82 such as a frozen mineral water bottle is put into the water 81 After filling, the cover 40 is covered and the blowing fan 30 is coupled.

Thereafter, when the landing housing 73 lands on the floor and the blower fan 30 and the stirring drive 70 are operated in a state in which the cylindrical body 10 is erected, the external air flows from the lower side of the plurality of air flow paths 12a. It flows between the heat exchanger blades 12 and rises, passes through the air guide path 35 of the blower fan 30 and discharges cold air through the outlet 34.

At this time, in the air flow path (12a), while the air flows, heat is taken away by the heat exchanger blade (12) to cool it, and the heat exchange blade (12) and the cylindrical part (11) are cooled by the cooling body (82). ) To cool down.

At the bottom of the cylindrical part 11, the stirring member 60 continuously rotates and agitates the water 81, so that the water 81 between the cooling body 82 and the inner surface of the cylindrical part 11 flows and heat exchange is continued. Make it work smoothly.

According to the above-described configuration and operation, in the cooling fan according to the present embodiment, air flows between the heat exchange blades 12 of the columnar body 10 to perform heat exchange in a large contact area, and the cooling body 82 and the columnar shape The body 10 is also heat-exchanged by the water 81 that is in contact with the whole body while continuously flowing therebetween, so that the heat exchange between the incoming outdoor air and the cooling body 82 can be made smoothly and effectively, thereby cooling efficiency of air. Can be further improved.

On the other hand, Figure 5 is a cross-sectional view showing a cooler in accordance with another embodiment of the present invention, a drip tray member 90 is additionally installed.

Referring to FIG. 5, in this embodiment, a container-shaped landing housing 73 that is coupled to the lower end of the columnar body 10 and lands on the floor, thereby erecting the columnar body 10 and accommodating the stirring actuator 70 Is installed, and is installed in an annular shape to surround the landing housing 73, and a drip tray member 90 for receiving condensed water falling from the heat exchange blade 12 is installed.

The drip tray member 90 of the present embodiment serves to receive and receive the condensate falling from the heat exchange blade 12, and to increase the landing area of the landing housing 73 to make the upright state of the columnar body 10 more stable. It also plays a role.

6, the drip tray member 90 is coupled to each other by a hinge shaft 93 installed on one side and a hinge shaft 93 at one end, and contacts each other at the other end to form a complete annular shape, respectively. A pair of arc-shaped buckets (91, 92) having (95, 96) and magnetic force attaching and detaching members (94a, 94b) installed at the other ends of the pair of arc-shaped buckets (91, 92) to bond to each other by magnetic force And, it includes a support protrusion 97 protruding from the inner side of the pair of arc-shaped buckets (91, 92).

The drip tray member 90 is divided into a pair of arc-shaped water tanks 91 and 92, and a pair of arc-shaped water tanks 91 and 92 are coupled by the hinge shaft 93 to be centered on the hinge shaft 93. Can be opened or gathered.

The support protrusions 97 that protrude are installed on the inner side surfaces of the pair of arc water tanks 91 and 92, respectively, so that the coupling is inserted into the support groove 77 installed corresponding to the side surface of the landing housing 73.

In addition, magnetically detachable members 94a and 94b are installed at the ends of the other end opposite to the hinge shaft 93 in the pair of arc water containers 91 and 92 so that the pair of arc water containers 91 and 92 It can be bonded with or opened by external force.

The magnetic detachment members 94a and 94b may be magnets and magnets, or magnets and ferromagnetic plates.

As shown in Figure 5, after receiving the condensed water from the heat exchange blade 12 in a state in which the drip tray member 90 is coupled to the outer circumferential surface of the landing housing 73, if it is necessary to empty the condensed water from the drip tray member 90, the user As shown in Figure 7, by applying a force to the portion where the magnetic force attachment and detachment member (94a, 94b) is located, a pair of arc-shaped water tanks (91, 92) can be opened around the hinge shaft (93) to separate the drip tray member (90). The condensed water can be discharged.

This action does not require lifting of the cylindrical body 10 while the cooler continues to operate, so the condensed water contained in the drip tray grooves (95, 96) does not overflow to the surroundings by shaking, and only the drip tray member (90) is easily separated Make it easy to discard.

In addition, in the water receiving member 90 of this embodiment, the support protrusion 97 is coupled to the support groove 77 formed on the side of the landing housing 73 when the water receiving member 90 is coupled to the landing housing 73. Done.

Accordingly, the support protrusion 97 is inserted into the support groove 77 so that the water receiving member 90 in a landed state can support the inclination of the landing housing 73.

This prevents the columnar body 10 from falling over and stabilizes an upright installation state because the water receiving member 90 supports the widening landing area even if the cylindrical body 10 of the cooler is about to be inclined.

Meanwhile, FIGS. 8 and 9 illustrate the configuration of a cooler according to another embodiment of the present invention, and show a structure in which an outlet 34 for discharging air is installed on the upper side.

That is, the air discharged by the fan blades 31 is discharged to the side through the outlet 34 on the side to directly supply cool air to the user, thereby increasing the use efficiency.

Although preferred embodiments of the present invention have been described above, the above embodiments are only one embodiment within the scope of the technical idea of the present invention, and for those skilled in the art, within the technical scope of the present invention Of course, other modified implementations are possible.

10; Columnar body 11; Cylinder
11a; Inner space 12; Heat exchanger blade
12a; Air flow path 20; Cylindrical cover
30; Blower fan 31; Fan wings
32; Fan motor 33; display
34; Outlet 35; Air guideway
40; Cover 41; Stumbling jaw
42; O-ring 50; Bottom sealing member
52; O-ring 53; Fulcrum
54; Flange portion 60; Stirring member
61; Stirring body 62; Annular projection
64; Central body 64a; Rotary shaft ball
65; Inclined wing 65a; incline
66; Rotary shaft pin 67; magnet
68; Shaft coupling protrusion 70; Stirring actuator
71; Rotor 72; motor
73; Landing housing 73a; Flange part
77; Support groove 81; water
82; Cooling body 90; Drip tray member
91,92; Arc-shaped bucket 93; Hinge shaft
94a, 94b; Magnetic detachable member 95,96; Gutter groove
97; Support process 98; Air intake passage

Claims (5)

A cylindrical body in which a plurality of heat exchange blades 12 are formed along the circumference of the outer circumference of the cylindrical part 11 and the cylindrical part 11 for accommodating the water 81 and the cooling body 82 in the inner space 11a ( 10) Wow,
The columnar body 10 is inserted inside to cover the circumference of the heat exchange blades 12 along the outer ends of the plurality of heat exchange blades 12, so that the air flow path between the heat exchange blades 12 ( A cylindrical cover 20 for allowing air to flow in the longitudinal direction of the cylindrical portion 11 in 12a),
A blowing fan 30 coupled to the upper end of the columnar body 10 and suctioning and discharging air from the air flow path 12a;
A bottom sealing member 50 coupled to the lower end of the cylindrical portion 11 and having an upper surface forming a bottom surface of the inner space 11a of the cylindrical portion 11;
A stirring member 60 installed on the bottom sealing member 50 to stir the water 81 accommodated in the inner space 11a of the cylindrical portion 11;
A cooling air machine, characterized in that it comprises a stirring actuator (70) installed below the bottom sealing member (50) to stir and operate the stirring member (60). The method of claim 1,
The stirring member 60 includes a magnet or ferromagnetic material,
The stirring driver 70 includes a rotating body 71 including a magnet or ferromagnetic material to apply a magnetic force or repulsive force to the stirring member 60, and a motor 72 for rotating the rotating body 71 By including,
A cooling air machine, characterized in that the stirring member 60 moves by receiving an attractive force or repulsive force by the rotation of the rotating body 71 to agitate the water 81 The method of claim 2,
The stirring member 60 includes a rod-shaped stirring body 61 and an annular protrusion 62 surrounding an outer circumferential surface at the center of the stirring body 61,
A cooling fan, characterized in that rotation of the rotating body 71 in a state where the annular protrusion 62 is in contact with the upper surface of the bottom sealing member 50 and the stirring body 61 is lying down The method of claim 3,
On the upper surface of the bottom sealing member 50, a support protrusion 53 protruding upwardly at a plurality of positions is installed along the outer periphery of the stirring member 60 that rotates at the center thereof, and the cooling body 82 ),
The blowing fan 30,
An air guide path 35 for guiding air rising from the air flow path 12a along the circumference of the cover 40 and the cover 40 coupled to the upper end of the cylindrical portion 11 ) Is formed, and a fan motor 32 and a fan blade 31 rotated by the fan motor 32 are installed on the upper side of the cover 40 to raise air from the air guide path 35, A cooler fan, characterized in that a display (33) for displaying the temperature at the center of the upper surface and an outlet (34) formed along the periphery of the display (33) to discharge air rising from the fan blade (31) is installed. The method of claim 1,
As to erect the columnar body 10 by being coupled to the lower end of the columnar body 10 and landing on the floor, a container-shaped landing housing 73 accommodating the stirring actuator 70,
It is installed in an annular shape so as to surround the landing housing 73 and includes a drip tray member 90 for receiving condensed water falling from the heat exchange blade 12,
In the drip tray member 90,
A hinge shaft 93 installed on one side,
A pair of arc-shaped water tanks 91 and 92 each having a drip receiving groove 95 and 96, which are coupled to each other by the hinge shaft 93 at one end and contact each other at the other end to form a complete annular shape,
Magnetic force attachment and detachment members 94a and 94b respectively installed at the other ends of the pair of arc-shaped water tanks 91 and 92 to bond to each other by magnetic force,
It includes a support protrusion 97 protruding from the inner side of the pair of arc-shaped buckets (91, 92),
A cooling fan, characterized in that a support groove (77) coupled with the support protrusion (97) is formed on a side of the landing housing (73)

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