KR101539391B1 - Outdoor unit of air conditioner - Google Patents

Abstract

According to the present invention, an outdoor unit of an air conditioner comprises: a printed circuit board where a heat-emitting element is installed; an electrical box where the printed circuit board is installed and an opened portion is formed; a heat dissipation plate positioned to be penetrated by the opened portion and coming in contact with the heat-emitting element; a refrigerant tube coming in contact with the heat dissipation plate and where a refrigerant passes. The heat dissipation plate has an inclined upper surface, which is formed in the upper portion, inclined toward the lower portion of the outside of the electrical box to minimize the number of components and minimize penetration of foreign substances to the electrical box.

Description

[0001] The present invention relates to an outdoor unit of an air conditioner,

The present invention relates to an outdoor unit of an air conditioner, and more particularly to an outdoor unit of an air conditioner in which a heating element provided on a printed circuit board is cooled by a refrigerant.

Generally, an air conditioner is a device that processes intake air to maintain indoor air in a pleasant condition and supplies it to a building or a room. There are a window type and a split type (seperate type or split type).

The integrated air conditioner integrates the functions of cooling and heat dissipation, and is directly installed by drilling a hole in a house wall or by hanging a device on a window.

The separate type air conditioner includes an indoor unit including an indoor heat exchanger, an outdoor unit including a compressor and an outdoor heat exchanger, and a refrigerant pipe connecting the indoor unit and the outdoor unit.

The outdoor unit of the air conditioner may include an outdoor air blower for blowing outdoor air to the outdoor heat exchanger. The outdoor unit of the air conditioner may include a printed circuit board for controlling various components such as a compressor and an outdoor blower, and the printed circuit board may be installed in the electric box.

The outdoor unit of the air conditioner can dissipate outdoor air into the electric box and dissipate heat inside the electric box, and various electric parts inside the electric box can be normally operated without overheating.

KR 10-1166387 B1 (July 23, 2012)

Since the air conditioner according to the prior art cools the inside of the electric box in an air-cooled manner, there is a problem in that it is not easy to efficiently manage the temperature according to the temperature change of the outdoor air, and an air conditioner that does not include a separator for separating the heat- It is not easy to install an electric field box and a mechanism for heat dissipation of the electric field box, and there is a complicated structure for preventing penetration of rainwater or the like.

According to an aspect of the present invention, there is provided an outdoor unit of an air conditioner including: a printed circuit board having a heating element; An electric box having the printed circuit board and an opening formed therein; A heat sink disposed to penetrate the opening and in contact with the heating element; And a refrigerant tube which is in contact with the heat radiating plate and through which the refrigerant passes. The heat radiating plate is formed at an upper portion thereof with a sloped upper surface inclined in a direction toward an outer lower portion of the electric box.

The inclined upper surface may be an acute angle with a horizontal plane.

The electric field box may include an upper protrusion protruding toward the inside of the electric field box so as to face the inclined upper surface.

The heat dissipation plate may be formed with a sloped lower surface inclined in a direction toward a lower outer side of the electrical component box.

The inclined bottom may be an acute angle with a horizontal plane.

The electric box may include a lower protrusion protruding toward the inside of the electric box, facing the inclined lower surface.

The inclined upper surface and the inclined lower surface can respectively face the openings.

An outdoor unit of an air conditioner according to the present invention includes a printed circuit board on which a heat generating element is installed; An electric box having the printed circuit board and an opening formed therein; A heat sink disposed to penetrate the opening and in contact with the heating element; And a coolant tube which is in contact with the heat radiating plate and through which the coolant passes. At least one of the electric box and the heat radiating plate is provided with a foreign matter guiding part for guiding a foreign substance toward the outside of the electric box.

The foreign matter guiding portion may include a sloped upper surface that is inclined in a direction toward a lower outer side of the electric box, on an upper portion of the heat sink.

The foreign matter guiding portion may further include an upper protrusion protruding toward the inside of the electrical component box from the electric component box and facing the inclined upper surface.

  The foreign matter guiding portion may include an inclined lower surface at a lower portion of the heat dissipation plate and inclined in a direction toward an outer lower portion of the electric box.

The foreign substance guiding unit may further include a lower protrusion protruding toward the inside of the electric box from the electric box and facing the inclined surface.

The present invention is advantageous in that at least one of the heat sink and the electric box can be waterproofed so that it is not necessary to block the waterproof material between the heat sink and the electric box, There is an advantage that penetration can be minimized.

Further, there is an advantage that the waterproof ability can be improved by a simple structure in which the heat sink is formed with an inclined surface.

In addition, there is an advantage that the electric box itself can perform a waterproof function while the electric box is com- tacted.

1 is a perspective view illustrating an outdoor unit of an air conditioner according to an embodiment of the present invention,
2 is an exploded perspective view of an outdoor unit of an air conditioner according to an embodiment of the present invention,
FIG. 3 is a perspective view of the outdoor unit of the air conditioner according to the present invention when the heat dissipation module and the electric box are separated. FIG.
4 is a vertical sectional view of a main part of an outdoor unit of an air conditioner according to the present invention.

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

2 is an exploded perspective view of an outdoor unit of an air conditioner according to an embodiment of the present invention. FIG. 3 is a side view of the air conditioner according to the present invention. FIG. 4 is a vertical sectional view of a main part of an outdoor unit of an air conditioner according to the present invention. FIG.

The outdoor unit of the air conditioner may include an outdoor unit body 2, a compressor 4, an outdoor heat exchanger 6, and an outdoor air blower 8. [ The outdoor unit of the air conditioner can be connected to the indoor unit of the air conditioner, the liquid pipe and the engine, and the refrigerant can be heat-exchanged with the indoor air while passing through the indoor heat exchanger provided in the indoor unit of the air conditioner. The air conditioner may include an expansion mechanism for expanding the refrigerant to at least one of the outdoor unit and the indoor unit, and the expansion mechanism may include an electronic expansion valve.

The outdoor unit body 2 may be formed with an air inlet I through which outdoor air is sucked into the outdoor unit body 2. The outdoor unit body 2 may be formed with an air outlet O through which the heat-exchanged air with the outdoor heat exchanger 6 is discharged to the outside of the outdoor unit body 2. The outdoor unit body 2 can form the appearance of the outdoor unit.

The outdoor unit body 2 includes a base 11, cabinet bodies 12, 13 and 14 provided on the base 11, and a top cover 15 provided on the cabinet bodies 12, 13 and 14 . The outdoor unit body 2 may further include an outdoor unit cover 16 (17) for opening and closing the inside of the outdoor unit. The outdoor unit body (2) may further include a frame (18).

The cabinets 12, 13 and 14 may be provided with air inlets I and the cabinets 12, 13 and 14 may be intake bodies through which the outdoor air passes to be sucked into the outdoor units. have. The outdoor unit body (2) can be formed with a plurality of air intake openings (I). It is possible that a plurality of cabinet bodies 12, 13 and 14 are combined. The cabinet bodies 12, 13 and 14 include a left body 12 formed with a left outdoor air intake port, a rear body 13 formed with a rear outdoor air intake port, and a right body 14 formed with a right outdoor air intake port . The rear body 13 may be integrally formed with at least one of the left body 12 and the right body 14 and may be fastened with a fastening member such as a screw. The cabinet bodies 12, 13 and 14 may be formed with a suction grill portion having an air inlet I formed at a portion facing the heat exchanger 6. The cabinet bodies 12, 13, and 14 may be formed as a plate portion facing the outdoor air blower 8.

The top cover 15 may be formed with an air outlet O and the top cover 15 may be a discharge body through which outdoor air passes to be discharged out of the outdoor unit. The top cover 15 may be installed horizontally on the upper part of the cabinets 12, 13 and 14. The top cover 15 can form an upper surface appearance of the outdoor unit. The outdoor air blower 8 may be installed in the top cover 15. [

The outdoor unit covers 16 and 17 can be fastened to the base 11 and at least one of the cabinet bodies 12, 13 and 14 and the frame 18, and the outdoor unit covers 16 and 17 can be fastened to the outdoor unit The service person can separate and mount it during service. The outdoor unit covers (16) and (17) can be fastened by a fastening member such as a screw. The outdoor unit covers 16 and 17 can be composed of one member and can be composed of a plurality of members. The outdoor unit covers 16 and 17 may be provided so that a single or a plurality of the outdoor unit covers 16 and 17 are shielded between the left body 12 and the right body 14. The outdoor unit covers (16) and (17) can form the front exterior of the outdoor unit. At least one of the outdoor unit covers 16 and 17 may be arranged to cover the front of the electric component box 40 described later. The outdoor unit covers 16 and 17 may be a service cover 16 in which at least one of the outdoor unit covers 16 and 17 covers the front of the electric component box 40. [ The operator can remove the service cover 16 during service of the electrical component box 40 and then take the electrical component box 40 out of the outdoor unit. The electrical component box 40 can be taken out to the outside of the outdoor unit through the space between the left and right bodies 12 and 14 in a state where the service cover 16 is detached.

The frame 18 can support the outdoor unit body 2, and at least one of the configurations of the outdoor unit can be mounted. The frame 18 may include a vertical frame disposed perpendicular to the outdoor unit. The frame 18 may include a horizontal frame disposed horizontally in the outdoor unit. A plurality of frames 18 may be provided, and at least one of the plurality of frames 18 may be positioned between a lower portion of the outdoor air blower 8 and a rear surface of the outdoor unit covers 16, 17. The frame 18 may include left and right frames 18A formed long in the lateral direction. The left and right frames 18A can be positioned between the left body 12 and the right body 14. A plurality of left and right frames 18A can be provided between the rear body 13 and the outdoor unit covers 16, The frame 18 may include front and rear frames 18B that are elongated in the front-rear direction. The front and rear frames 18B can be connected to the left and right frames 18A. The front and rear frames 18B can connect a plurality of right and left frames. A plurality of front and rear frames 18B may be provided between the right and left frames 18A.

The compressor (4) can compress the refrigerant. In this case, the refrigerant compressed in the compressor 4 sequentially passes through the outdoor heat exchanger 6, the expansion mechanism, and the indoor heat exchanger (not shown), and is then supplied to the compressor 4 Can be introduced. The air conditioner may be a heat pump type air conditioner. In this case, the refrigerant compressed by the compressor 4 is supplied to the outdoor heat exchanger 6, the expansion mechanism (not shown), and the indoor heat exchanger (not shown) The refrigerant can be introduced into the compressor 4 through the indoor heat exchanger, the expansion mechanism (not shown), and the outdoor heat exchanger 6 in the heating operation. The compressor (4) can be installed in the outdoor unit body (2). The compressor (4) may be installed above the base (11) of the outdoor unit body (2). The compressor (4) can be installed in the lower part of the inside of the outdoor unit. The compressor (4) can be exposed to the outside when the outdoor unit covers (16) and (17) are separated. The compressor 4 can be exposed through the space between the left body 12 and the right body 14 when the outdoor unit cover 17 located below the outdoor unit covers 16 and 17 is separated. A plurality of compressors (4) may be installed in the outdoor unit body (2). The compressor (4) may be a capacity variable compressor in which at least one variable speed is variable by an operation frequency variable, and may be an inverter compressor.

The outdoor heat exchanger (6) can heat-exchange outdoor air with the refrigerant. The outdoor heat exchanger (6) can be installed in the outdoor unit body (2). The outdoor heat exchanger (6) may be installed above the base (11) of the outdoor unit body (2). The outdoor heat exchanger (6) may be formed at least once in a bent shape. The outdoor heat exchanger 6 may be installed in a space formed by the cabinet bodies 12, 13 and 14. The outdoor heat exchanger may be connected to the left heat exchanging unit facing the left body 12 and the rear heat exchanging unit facing the rear body 13 on the right side heat exchanging unit facing the right side body 14. [ The outdoor heat exchanger 6 may be provided with a left heat exchanger facing the left body 12 and a rear heat exchanger facing the rear body 13, 1 heat exchanger, and a second heat exchanger having a right heat exchanger facing the right body 14 and a rear heat exchanger facing the rear body 13.

The outdoor blower 8 can flow outdoor air. The outdoor blower 8 can be installed in the outdoor unit body 2 and can discharge the outdoor air to the outside of the outdoor unit after flowing the outdoor air to the outdoor heat exchanger 6. The outdoor blower (8) can be installed on the outdoor unit body (2). The outdoor blower (8) can be installed in the top cover (15) of the outdoor unit body (2). The outdoor blower 8 can suck the air in the lower portion thereof and discharge it in the upward direction. The outdoor air blower 8 may include a shroud 8A for guiding the discharge of outdoor air, a motor 8C and a blower 8D connected to the rotary shaft of the motor 8C and rotated. The outdoor air blower 8 can be mounted on the frame 18 via the motor 8C and can be mounted through a separate motor mount 8B. The motor 8C can be installed in the motor mount 8B and the motor mount 8B can be fastened to at least one of the shroud 8A, the top cover 15 and the frame 18. [ The shroud 8A can be fastened to and mounted to at least one of the top cover 15 and the frame 18. [ A plurality of outdoor blowers (8) can be installed in the outdoor unit body (2). The outdoor air blower 8 can be partially arranged so as to protrude upward from the top cover 15. The outdoor unit of the air conditioner may further include a discharge grill (19). The discharge grill 19 can be installed in the outdoor blower 8 or the top cover 15 to protect the outdoor blower 8.

The outdoor unit of the air conditioner may include a controller (C) for controlling the air conditioner. The controller (C) can be provided with a single number of outdoor units of the air conditioner, and a plurality of such units can be provided. The controller C is installed in the outdoor unit of the air conditioner and can control various electric components such as the compressor 4 and the outdoor blower 8. [ The controller C can communicate with the indoor unit of the air conditioner and can control various electric parts such as an indoor blower (not shown) installed in the indoor unit of the air conditioner. The controller C may include at least one electrical component that controls various electrical components installed in the air conditioner and at least one electrical component may include at least one printed circuit board with at least one electrical component installed have. At least one electric element may include at least one heating element 28 that generates heat during operation of the air conditioner.

The outdoor unit of the air conditioner includes a printed circuit board (30) provided with a heat generating element (28); An electric field box 40 on which the printed circuit board 30 is installed; And a heat dissipation module 50 through which the refrigerant passes and is in contact with the heat generating element 28. The heat dissipation module (50) includes a heat dissipation plate (52) in contact with the heat generating element (28); And a refrigerant tube 54 in contact with the heat sink 52 and through which the refrigerant passes.

The heating element 28 may be installed on the printed circuit board 30 so as not to contact the rear plate 42 of the electrical component box 40. The heat generating element 28 may be installed on the printed circuit board 30 such that all or a part thereof protrudes rearward.

The printed circuit board 30 may include an inverter-driven printed circuit board for varying the operating frequency of the motor that drives the compressor 4. The printed circuit board 30 may be an inverter driver for controlling the inverter compressor. The inverter-driven printed circuit board may be provided with a heating element 28 having a large heating value such as an intelligent power module (IPM). The printed circuit board 30 may be formed to be larger than the heat generating element 28.

The electrical component box 40 protects various electrical components including the heating element 28 and the printed circuit board 30. [ The electric field box 40 can be mounted on the outdoor unit body 2. [ The electrical component box 40 can be mounted to the outdoor unit body 2 with a fastening member such as a screw and can be separated from the outdoor unit body 2 at the time of service. The electric component box 40 can be fastened with a fastening member such as a screw with at least one of the left body 12 and the right body 14 and the service covers 16 and 17 and the frame 18 and the outdoor blower 8 have. At least a part of the electrical component box 40 may be installed in front of the outdoor blower 8. The electric field box 40 may be formed so that one surface thereof is open. The electrical component box 40 may be formed in a box shape whose one surface is opened, and a printed circuit board 30 may be installed in a space formed therein. The electrical component box 40 can be opened on the side facing the outdoor unit cover 16 (17). The electric field box 40 may include a thick plate 42 and a rim 44 formed on the thick plate 42. A space may be formed inside the frame 44 and a printed circuit board 30 may be installed inside the frame 44. [ The printed circuit board 30 may be installed on the back plate 42 of the electrical component box 40. A spacer 46 for separating the printed circuit board 30 from the thick plate 42 of the electrical component box 40 may be disposed between the printed circuit board 30 and the electrical component box 40. [ The electrical component box 40 may have an opening 47 in which the heat sink 52 is located. The opening 47 may be a heat sink insert hole into which a part of the heat sink 52 is inserted. The opening 47 may be a heat dissipating tube through-hole through which the heat dissipating plate 52 penetrates. The opening 47 may be formed larger than the heat sink 52. The opening 47 may be larger than the heat sink 52 on the thick plate 42 of the electrical component box 40.

The heat dissipation module 50 may be connected to the refrigeration cycle circuit including the compressor 4, the outdoor heat exchanger 6, the expansion mechanism, and the indoor heat ventilation. The heat dissipation module 50 may be connected to the low temperature portion of the high temperature portion and the low temperature portion of the refrigeration cycle circuit. Part of the low temperature refrigerant of the refrigeration cycle circuit may flow to the heat dissipation module 50 and pass through the heat dissipation module 50, The heat of the heat generating element 28 can be absorbed while passing through the heat exchanger 50. The heat dissipation module 50 may be a refrigerant cooling module in which at least a portion of the heat dissipation module 50 is in contact with the heat generating element 28 to absorb the heat of the heat generating element 28 in a conductive manner and the coolant cools the heat generating element 28 .

 The heat sink 52 may be in contact with the heat generating element 28 while being positioned to penetrate through the opening 47. [

The heat radiating plate 52 may be formed with a refrigerant tube receiving portion 53 in which the refrigerant tube 54 is received. The refrigerant tube receiving portion 53 may be formed long in the longitudinal direction of the refrigerant tube 54.

The heat sink 52 can face one surface 55 of the heat generating element 28 and the other surface 56 can be exposed to the outside of the electric box 40. [ The heat radiating plate 52 may be formed such that the refrigerant tube receiving portion 53 is embedded in the other surface 56 exposed to the outside of the electric box 40. A part of the heat sink 52 including the one surface 55 contacting the heating element 28 with respect to the opening 47 can be positioned inside the electric box 40 and the other surface 55 56 may be located outside of the electrical box 40. In this case,

The heat sink 52 may be installed in contact with the heat generating element 28. The heat sink 52 may be in contact with the heat generating element 28 and may be combined with the heat generating element 28. The heat sink 52 may be coupled to the heat generating element 28 by a fastening member 80 such as a screw, a bolt, and a nut. The heat generating element 28 may have a fastening hole 29 for fastening the fastening member 60 and a fastening hole 57 for fastening the fastening member 60 to the heat dissipating plate 52. The fastening member 80 can be fastened to the fastening hole 57 of the heat sink 52 after passing through the fastening hole 29 of the heat generating element 28 and the fastening hole 57 of the heat sink 52 can be fastened And may be fastened to the fastening hole 29 formed in the heat generating element 28. The outdoor unit of the air conditioner can be mounted on the outdoor unit body 2 in a state where the heat dissipating plate 52 is coupled with the refrigerant tube 54. [ The heat generating element 28 can be brought into contact with the heat sink 52 and the fastening member 80 can be brought into contact with the fastening hole 29 of the heat generating element 28 Can be fastened to the fastening hole (57) of the heat sink (52).

One end of the refrigerant tube 54 may be connected to the low temperature portion of the refrigeration cycle circuit. The other end of the refrigerant tube 54 may be connected to the low temperature portion of the refrigeration cycle circuit. The refrigerant tube 54 may be connected to the refrigerant pipe between the outdoor heat exchanger 6 and the expansion mechanism or may be connected to the refrigerant pipe between the expansion mechanism and the indoor heat exchanger.

The refrigerant tube 54 may be in contact with the heat sink 52. The refrigerant tube 54 may include a heat sink contact portion contacting the heat sink 52 and a heat sink noncontact portion not in contact with the heat sink 52. The refrigerant tube 54 may be positioned at a rear portion of the electrical component box 40 with a peripheral portion of a portion of the refrigerant tube 54 inserted into the refrigerant tube receiving portion 53 and inserted into the refrigerant tube receiving portion 53. The non-contact portion of the heat sink can be bent at least once and can be connected to the low temperature portion of the refrigeration cycle circuit.

The heat dissipation module 50 can contact one heat dissipation plate 52 and one heat dissipation plate 52 can be in contact with different parts of the refrigerant tube 54. [ The plurality of heat sinks 52 may be spaced apart from each other in the longitudinal direction of the refrigerant tube 54. The plurality of heat sinks 52 may have different sizes. The plurality of heat sinks 52 may have the same height and different widths. The plurality of heat sinks 52 may include a first heat sink contacting the one side of the refrigerant tube 54 and a second heat sink spaced apart from the first heat sink and contacting the other side of the refrigerant tube 54. The second heat sink can be larger than the first heat sink.

At least one of the electric box 40 and the heat sink 52 may be provided with a foreign matter guiding portion for guiding foreign matter such as water A or B to the outside of the electric box 40. [ The foreign substance guiding portion can guide foreign substances such as water and dust falling in the gravity direction to the outside of the electric box 40. [ The outdoor unit of the air conditioner may have a gap between the opening 47 of the electrical component box 40 and the heat sink 42. The gap between the opening 47 and the heat sink 42 is preferably as narrow as possible. However, if the width is too narrow, the insertion of the heat sink 52 may not be easy, It is preferable that a gap having an appropriate width be formed. The foreign matter A or B such as water flows along the outer wall surface 42A or the heat sink 52 of the electrical component box 40 and can be introduced into these gaps. The foreign matter such as water can be minimally penetrated into the inside of the electric box 40 through the gap between the opening 47 and the heat sink 42.

The foreign matter guiding portion can guide the foreign matter introduced into the gap between the opening 47 and the heat sink 42 in the oblique direction E having the horizontal plane H and the acute angle D. The foreign substance guiding portion may include a sloped upper surface 58 that is inclined in a direction toward the outer lower side of the electric box 40 at the upper portion of the heat sink 52. The heat radiating plate 52 may be formed with an upper inclined upper surface 58 inclined in a direction toward the lower outer side of the electric box 40.

The oblique upper surface 58 may be a horizontal plane H and an acute angle D. The inclined upper surface 58 may face the opening 47. [ The inclined upper surface 48 can face the upper end 47A of the opening 47. [

The foreign matter A such as water can flow down along the outer wall surface 42A of the electrical component box 40 and can be discharged from the upper surface 42A of the electrical component box 40 on the upper side of the inclined upper surface 58 of the heat sink 52 Can be dropped onto the oblique upper surface (58) of the heat sink (52).

The foreign matter dropped on the inclined upper surface 58 of the heat sink 52 can flow toward the lower outer side of the electric box 40 along the inclined upper surface 58 by gravity and the upper end 47a of the opening 47, The foreign matter penetrating into the inside of the electric box 40 through the gap of the upper surface 58 can be minimized.

The foreign matter guiding portion may further include an upper protruding portion 48 protruding toward the inside of the electric box 40 facing the inclined upper surface 58. The electrical component box 40 may include an upper protruding portion 48 protruding toward the inside of the electrical component box 40 facing the inclined upper surface 58.

The upper projection 48 may be formed to be parallel to the inclined upper surface 58. The upper protruding portion 48 may protrude from the thick plate 42 of the electrical component box 40 toward the printed circuit board 30. The upper protrusion 48 may be positioned between the back plate 42 of the electrical component box 40 and the printed circuit board 30. [ The upper protrusion 48 may protrude to a length that does not contact the printed circuit board 30. [

An upper foreign matter inducing passage P1 may be formed between the inclined upper surface 58 and the upper projecting portion 48 to guide foreign matter in a direction toward an outer lower side of the electric box 40. [ I'm

Foreign substances such as water dropped from the outer wall surface 42A of the electrical component box 40 to the inclined upper surface 58 can be partially blown upward in the inclined upper surface 58. [ The foreign matter splattering in the upward direction of the inclined upper surface 58 may partially go toward the inside upper part of the electric box 40. Such foreign matter does not flow in the upward direction of the upper projecting portion 48 against the upper projecting portion 48. [

The foreign matter striking the upper projection 48 can be partially flowed in the direction toward the outer lower side of the electric box 40 along the lower face of the upper projection 48 and the rest fall down in the gravity direction from the upper projection 48 It may fall in the inclined upper surface 58 and then flow in the direction toward the lower outer side of the electric box 40 along the inclined upper surface 58. [

The foreign matter guiding portion may include an inclined lower surface 59 inclined in a direction toward a lower outer side of the electric box 40 on the lower surface of the heat sink 62. The heat radiating plate 52 may be formed with an inclined lower surface 59 which is inclined in a direction toward a lower outer side of the electric box 40.

The inclined surface 59 may be a horizontal plane H and an acute angle D. The inclined surface 59 can face the opening 47. The inclined lower surface 59 can face the lower end 47B of the opening 47. [

The foreign matter B such as water can be dropped to the lower side of the heat sink 62 along the side surface 56 or the side surface of the heat sink 62 located outside the electric box 40 of the heat sink 62, (59). The foreign matter of the inclined lower surface 59 does not flow toward the inside of the electrical component box 40 along the inclined surface 59 and flows downward to the lower end 59A located outside the electrical component box 40 among the inclined surface 59 Or may be dropped by gravity into a lower protruding portion 49 which will be described later. The foreign matter flowing down to the lower end 59A of the inclined lower surface 59 may fall in the gravity direction at the lower end 59A of the inclined lower surface 59. [

The foreign matter guiding portion may further include a lower protruding portion 49 protruding toward the inside of the electric box 40 facing the inclined lower surface 59. The electrical component box 40 may include a lower protruding portion 49 protruding toward the inside of the electrical component box 40 facing the inclined surface 59.

The lower projecting portion 49 may be formed to be parallel to the inclined lower surface 59. The lower protruding portion 49 may protrude from the back plate 42 of the electrical component box 40 toward the heat generating element 28. The lower protruding portion 49 may be positioned between the thick plate 42 of the electric box 40 and the printed circuit board 30. The lower protruding portion 49 may protrude to a length that does not contact the printed circuit board 30 and the heat generating element 28. Between the inclined lower surface 59 and the lower projection 49, a lower foreign body induction passage P2 may be formed to guide foreign matter in a direction toward the outer lower side of the electric box 40. [

The foreign matter A or B such as water can flow down along the outer wall surface 42A or the heat sink 52 of the electrical component box 40 and fall down to the lower protruding portion 49. [

The foreign object dropped by the lower projection 49 can flow toward the lower outer side of the electric box 40 along the lower projection 49 by gravity and the lower end 47B of the opening 47 and the inclined lower surface 59 The foreign matter penetrating into the inside of the electric field box 40 through the gap can be minimized.

2: outdoor unit body 4: compressor
6: outdoor heat exchanger 8: outdoor blower
28: heating element 30: printed circuit board
40: electric field box 48: upper protrusion
49: lower protrusion 50: heat dissipation module
52: heat sink 54: refrigerant tube
58: inclined upper surface 59: inclined
P1: Upper foreign matter induction passage P2: Lower foreign matter induction passage

Claims (12)

A printed circuit board provided with a heat generating element;
An electric box having the printed circuit board and an opening formed therein;
A heat sink disposed to penetrate the opening and in contact with the heating element;
And a refrigerant tube in contact with the heat sink and through which the refrigerant passes,
Wherein the heat radiating plate has a sloped upper surface inclined in a direction toward a lower outer side of the electric box. The method according to claim 1,
Wherein the electric box includes an upper protrusion protruding toward the inside of the electric box, facing the upper surface of the electric box. The method according to claim 1,
Wherein the inclined upper surface is an acute angle with a horizontal plane. The method according to claim 1,
Wherein the heat radiating plate has an inclined lower surface inclined in a direction toward an outer lower portion of the electric box. 5. The method of claim 4,
Wherein the electrical component box includes a lower protrusion protruding toward the inside of the electrical component box so as to face the inclined lower surface. 5. The method of claim 4,
Wherein the inclined lower surface is an acute angle with a horizontal plane. 5. The method of claim 4,
And the inclined upper surface and the inclined lower surface face the openings, respectively. A printed circuit board provided with a heat generating element;
An electric box having the printed circuit board and an opening formed therein;
A heat sink disposed to penetrate the opening and in contact with the heating element;
And a refrigerant tube in contact with the heat sink and through which the refrigerant passes,
Wherein at least one of the electric box and the heat sink has a foreign matter guiding portion for guiding a foreign matter toward the outside of the electric box. 9. The method of claim 8,
Wherein the foreign substance guiding portion includes a sloped upper surface inclined in a direction toward a lower outer side of the electrical component box at an upper portion of the heat dissipation plate. 10. The method of claim 9,
Wherein the foreign substance guiding portion further comprises an upper protrusion protruding from the electric box toward the inside of the electric box and facing the inclined upper surface. 10. The method of claim 9,
Wherein the foreign matter guiding portion includes an inclined lower surface that is inclined in a direction toward a lower outer side of the electric box at a lower portion of the heat radiating plate. 12. The method of claim 11,
Wherein the foreign matter guiding portion further includes a lower projection protruding toward the inside of the electric box and facing the inclined lower surface of the electric box.

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