KR20070078547A - Indoor unit of air conditioner - Google Patents

Abstract

An indoor unit of an air conditioner is provided to prevent condensed water generated in a heat exchanger from being moved to a connection pipe by forming a partition wall partitioning the heat exchanger and the connection pipe in an orifice of the indoor unit. An indoor unit of an air conditioner comprises a heat exchanger(50), a connection pipe(52), an orifice(80) and a partition wall(84). The connection pipe is connected to the heat exchanger. The orifice is adhered to the heat exchanger. The partition wall is formed in the orifice, and protruded between the heat exchanger and the connection pipe. The connection pipe is located in a side part of the heat exchanger. The partition wall is formed in up and down directions of the orifice.

Description

Indoor unit of air conditioner

1 is an exploded perspective view showing an air conditioner according to the present invention

Figure 2 is a front view showing a front panel of the air conditioner according to the present invention

Figure 3 is a front view showing a cabinet of the air conditioner according to the present invention

Figure 4 is a perspective view of the air guide assembled to the cabinet according to the invention

5 is a perspective view showing a drain pan according to the present invention

6 is a perspective view showing an orifice according to the present invention

7 is a perspective view of the heat exchanger and the orifice assembled according to the present invention

Figure 8 is a front view showing the interior of the cabinet according to the invention

9 is an exploded perspective view showing an air conditioner according to the prior art

<Explanation of symbols on main parts of the drawings>

10 cabinet 11 assembly cover

12: base 14: blower

15: suction port 16: discharge port

18: Air guide 20: Front panel

21: Front Grill 24: Service Cover

30: frame panel 40: discharge unit

50: heat exchanger 52: connection piping

60: filter 80: orifice

81: opening 82: body

84: bulkhead 84a: bend

86: frame 100: drain pan

102 housing 104 rib

106: discharge tube

The present invention relates to an indoor unit of an air conditioner, and more particularly, to an indoor unit of an air conditioner in which a heat exchanger and a connection pipe connected to the heat exchanger are partitioned by partition walls formed in an orifice body to prevent the outflow of condensate.

In general, air conditioners are installed for the purpose of cooling / heating the room or purifying the air with a radiator, air conditioner, purifier, etc., to create a more comfortable indoor environment for humans. An air conditioner with a built-in turbo fan to minimize the thickness of the cabinet has been developed.

9 is an exploded perspective view showing an air conditioner according to the prior art.

As shown in FIG. 9, a conventional air conditioner is provided with a rectangular cabinet 1 having a thin front and a thin thickness, a blower 2 installed inside the cabinet 1, and a front of the blower 2. A heat exchanger (3), a front panel (4) formed in front of the heat exchanger (3), and an air inlet (4a) through which air is sucked, and installed between the cabinet (1) and the front panel (4). Orifice (5) and the front panel 4 is formed so as to be rotated by a predetermined angle to the front grill (6) for opening and closing the inlet (4a) is configured.

On the other hand, between the front panel 4 and the orifice (5) is provided with a filter (7) for filtering the air sucked through the inlet (4a), the upper part of the orifice (5) to control the control The box 8 is installed.

Here, the blower (2) is not only minimizes the thickness of the cabinet (1) but also the turbo fan (2a) to allow the air sucked through the inlet (4a) to be discharged in the circumferential direction, and the turbo fan ( It consists of the motor 2b which rotates 2a).

The orifice 5 is installed between the heat exchanger 3 and the blower 2 to guide the air sucked through the suction port 4a to the blower 2.

In addition, a drain pan 9 is installed below the heat exchanger 3 to store condensed water generated on the surface of the heat exchanger 3, and the condensed water stored in the drain pan 9 is the drain pan 9. It is discharged to the outside through a separate hose (not shown) connected to.

Here, the heat exchanger (3) is provided with a connection pipe (3a) for circulating the heat exchanger (not shown) and the refrigerant of the outdoor unit, the connection pipe (3a) is installed on the side of the heat exchanger (3) It is bent to the side and formed.

However, the heat exchanger 3 of the air conditioner according to the prior art generates a large amount of condensed water in the heat exchange process with air. There is a problem that does not fall into the drain pan 9, but falls into the cabinet 1 by the connection pipe 3a.

The present invention has been made to solve the above problems, the object is to provide an indoor unit of the air conditioner, the partition is formed in the orifice, the partition is interposed between the heat exchanger and the connection pipe to separate the heat exchanger and the connection pipe. have.

An indoor unit of an air conditioner according to the present invention for solving the above technical problem is a heat exchanger; A connection pipe connected to the heat exchanger; An orifice in close contact with the heat exchanger; And a partition wall formed in the orifice and protruding between the heat exchanger and the connection pipe.

Wherein the connection pipe is located on the side of the heat exchanger, the partition wall is formed long in the up / down direction in the orifice.

In addition, a drain pan for storing the condensed water generated in the heat exchanger is further installed below the heat exchanger, and a lower end of the rib is further formed with a bent portion formed by bending to the drain pan side.

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

1 is an exploded perspective view showing an air conditioner according to the present invention, Figure 2 is a front view showing a front panel of the air conditioner according to the present invention, Figure 3 is a cabinet of the air conditioner according to the present invention is shown 4 is a perspective view of an air guide assembled to a cabinet according to the present invention, FIG. 5 is a perspective view showing a drain pan according to the present invention, and FIG. 6 is a perspective view showing an orifice according to the present invention. 7 is a perspective view of the heat exchanger and the orifice assembled according to the present invention, Figure 8 is a front view showing the interior of the cabinet according to the present invention.

As shown in FIG. 1, the indoor unit of the air conditioner according to the present invention includes a cabinet 10 forming an exterior, a front panel 20 coupled to a front surface of the cabinet 10, and the front panel ( 20 is installed on the front panel 20 is configured to include a frame panel 30 is spaced apart from the predetermined interval.

The front panel 20 has a suction port 15 formed at the center thereof, and the front panel 20 is fastened and fixed to the cabinet 10.

At least one discharge port 16 through which the indoor air sucked through the suction port 15 is discharged is formed in the cabinet 10.

The frame panel 30 is installed in front of the front panel 20, spaced apart from the front panel 20 by a predetermined interval to form a gap, between the front panel 20 and the frame panel 30 Air is moved to the suction port 15 through the formed gap.

On the other hand, the indoor unit is a base 12 installed on the wall surface of the room, a blower 14 is installed on the base 12 to suck / discharge the indoor air, and located in front of the blower 14 and the suction port It comprises an orifice 80 for guiding the blower 14 to the air sucked in (15).

The blower 14 is installed between the base 12 and the orifice 80 to guide all the air sucked through the suction port 15 to the discharge port 16.

In particular, the blower 14 is a centrifugal fan for discharging air introduced from the orifice 80 in the circumferential direction.

Discharge ports 16 for guiding the air discharged from the blower 14 out of the cabinet 10 are formed at both sides of the blower 14, that is, at both sides of the base 12, and discharged at the discharge port 16. The unit 40 is installed to open and close the discharge port 16.

In addition, a discharge unit 40 that is opened and closed by a control unit of the indoor unit is also installed in the discharge port 16 formed below the base 12 to guide discharge air to the room.

In addition, the base 12 is fixed to the interior wall by the bracket 17 installed on the back.

And the air guide 18 for guiding the air discharged from the blower 14 to the discharge port 16 provided on both sides of the base 12, the upper portion of the blower 14, that is, the upper side of the base 12 Is installed.

On the other hand, the upper portion of the orifice 80 is provided with an electric equipment 150 constituting a control unit of the air conditioner.

A heat exchanger 50 for cooling / heating indoor air that is sucked by heat exchange with indoor air is installed in front of the orifice 80, and a drain pan 100 is installed below the heat exchanger 50 to exchange the heat. Condensate generated in the device 50 is stored and discharged.

The heat exchanger 50 is fixed to the front panel 20 or the orifice 80, the heat exchanger 50 is connected to one side of the heat exchanger 50 to be connected to the refrigerant pipe (not shown) installed from the outside (52) ) Is installed.

The front panel 20 is located in front of the heat exchanger 50 and is coupled to the base 12, and the discharge port 16 is formed by the combination of the front panel 20 and the base 12. The discharge unit 40 is installed in the discharge port 16.

In addition, the cabinet 10 has a pipe cover 11 is installed in the corner, the pipe cover 11 is assembled to the corner of the base 12 to form a part of the appearance of the indoor unit.

Here, the pipe cover 11 is formed in a plurality of four corners in the cabinet 10, in this embodiment is installed in two lower corners, the external refrigerant pipe through the pipe cover 11 is the cabinet (10) Guided inside.

1 and 2, the front panel 20 is a service for shielding a part of the inside of the cabinet 10 located at the suction port 15 formed at the center and below the suction port 15. It includes a cover 24, the service cover 24 forms a part of the appearance of the front panel (20).

Here, the service cover 24 is detachably installed in the front panel 20. In this embodiment, the service cover 24 is fastened to the front panel 20 by bolts (not shown) or screws (not shown).

In particular, the service cover 24 is assembled to the front panel 20, is located in front of the connection pipe 52 of the lower heat exchanger 50 to shield the connection pipe (52).

And, as shown in Figure 2, the front panel 20, the front grill 21 is formed so that the indoor air flowing through the suction port 15 flows to the orifice 80, the The suction port 15 is installed to shield the front grill 21 so that a filter 60 is installed to filter the indoor air flowing to the orifice 80.

In this case, the front grill 21 extends from the front panel 20 toward the central side of the inlet 15, and the front inlet 20 of the inlet 15 is reduced so as to reduce resistance to air flowing through the inlet 15. It is formed only on the edge part.

In addition, the front grill 21 is formed on the front panel 20, and is formed to protrude a predetermined distance toward the front side of the frame panel 30.

The filter 60 is installed in a structure that is detachable from the front panel 20, in this embodiment is supported by the front grill 21 of the front panel 20 is fitted groove formed in the front panel 20 ( 23) is fitted.

Here, the filter 60 is formed to protrude a predetermined distance forward to correspond to the front grill 21 formed to protrude toward the frame panel 30, in this embodiment the edge of the filter 60 is the suction port 15 It is attached to the edge of, and only the central portion is formed convex forward.

Thus, since the filter 60 is formed to be convex forward, the contact with the heat exchanger 50 positioned on the rear surface of the filter 60 is suppressed, and the area of the filter 60 is convex forward. Is increased.

As shown in FIG. 3 or FIG. 4, the base 12 has guide portions 12a formed on an upper side thereof, and air guides 18 are provided on both sides of the guide portions 12a, respectively.

The air guide 18 is inserted into and fixed between the guide part 12a and the rib 12b forming the discharge hole 16, and the lower end of the air guide 18 and the guide part 12a. The bottom of is formed into a continuous curved surface.

Thus, the air discharged from the blower 14 is guided to each discharge port 16 by the guide portion 12a and the air guide 18.

Meanwhile, as illustrated in FIG. 5, the drain pan 100 includes a housing 102, a rib 104 formed in the housing 102, and a housing 102 formed in the housing 102. It is configured to include a discharge tube 106 for discharging the condensed water to the outside.

Here, the housing 102 is formed in a rectangular box shape with an upper opening, and the heat exchanger 50 of FIG. 1 is inserted into the housing 102 and seated therein.

In particular, the upper end of the front wall 102a of the housing 102 is formed higher than the upper end of the rear wall 102b to reduce the resistance generated in the air passing through the heat exchanger 50.

The ribs 104 are formed inside the housing 102, are formed upright in the up / down direction, and a plurality of ribs 104 are formed to support the lower ends of the heat exchangers 50.

And the rib 104 is formed in a thin plate shape, is formed long in the left / right direction, so as to make long contact with the bottom surface of the heat exchanger 50 is installed in the left / right direction.

In particular, the rib 104 is formed to guide the condensed water to the discharge tube 106 side.

The plurality of ribs 104 are arranged in a zigzag shape so that the condensed water stored in the housing 102 is smoothly moved toward the discharge tube 106 formed at the side thereof.

In addition, the height of the rib 104 is formed lower than the upper end of the front wall 102a or the rear wall 102b of the housing 102 so that the front wall 102a or the rear wall 102b faces the heat exchanger 50 or Support the back.

The discharge tube 106 is formed through the housing 102, and a condensate hose (not shown) is connected to an end of the discharge tube 106 formed outside the housing 102 so that the discharge tube 106 is disposed inside the housing 102. Guide condensate outdoors.

The heat exchanger 50, as shown in Fig. 7 or 8, the heat exchanger 50 is composed of a pipe 56 to which the refrigerant is moved and the cooling fins 57 formed on the outer side of the pipe. And, the cooling fin is formed upright to the front / rear to minimize the resistance of the air moving to the orifice 80 in the inlet, the rib 104 is formed long in the left / right direction to the cooling fin Intersect with and support the heat exchanger (50).

In addition, the connection pipe 52 is installed in the pipe 56 of the heat exchanger 50, and in this embodiment, the connection pipe 52 is located at the side of the heat exchanger 50.

As shown in FIGS. 1 and 6 to 8, the orifice 80 has an opening 81 formed with an opening 81 so that air sucked through the inlet 15 is moved to the blower 14. The body 82 is formed with a barrier rib 84 protruding toward the heat exchanger 50 positioned in front of the body 82, and a support frame 86 on which the electric component part 150 is seated.

Here, the air exchanged with the cooling fins 57 of the heat exchanger 50 is introduced into the opening 81, and the heat exchanger 50 is supported by being contacted with the frame 86 of the orifice 80. It is fixed to the orifice 80 through brackets 53 provided on both sides of the heat exchanger 50.

Here, the bracket 53 is fastened and fixed to the rear side of the heat exchanger 50, the lower end of the bracket 53 is fitted into the receiving groove 83 formed on the lower side of the bottom of the orifice 80 is fixed, The upper end of the bracket 53 is fastened to the boss (85) formed in the orifice (80).

In particular, the bracket 53 is formed long in the up / down direction so as to be in close contact with the ribs 87 formed in the orifice 80 so that the air flowing by the blower 14 is passed through the bracket 53 and the orifice ( 80) to prevent flow between. Thus, the bracket 53 is formed by bending to the rear side in the present embodiment.

In addition, the partition wall 84 is formed on the right side of the orifice 80, and is formed long in the up / down direction between the heat exchanger 50 and the connection pipe 52 when the heat exchanger 50 is fixed. Located in the compartment to separate the cooling fins 57 or piping 56 and the connection pipe 52 of the heat exchanger (50).

The electrical component 150 is fixed to the body 82 after being seated on the frame 86 formed on the upper side of the orifice 80.

Meanwhile, fixing ribs 89 for fixing the wires connected to the electrical component parts 150 are integrally formed on the opposite side of the partition wall 84 from the orifice 80, and the fixing ribs 89 are the orifices. In 80, a plurality is formed in the up / down direction.

In addition, a terminal block 200 in which a plurality of terminals are installed is installed in the middle portion of the fixing rib 89 in which the wire is installed, and the terminal block 200 is fastened and fixed to the orifice 80.

In particular, the terminal block 200 is connected to the electrical equipment unit 150 and the electrical equipment (not shown) of the outdoor unit by a wire, the terminal 202 according to the number of devices to control and the sensor transmitted / received, etc. Is increased.

Thus, the orifice 80 is formed with a groove 201 opened at the side so that the terminal block 200 having a large number of terminals 202 is formed, and the terminal block 200 has the groove 201. It is installed over).

Hereinafter, the heat exchanger installation process of the indoor unit according to the present invention will be described in more detail with reference to FIG. 7 or FIG. 8.

First, in order to fix the heat exchanger 50 to the orifice 80, the assembler inserts and inserts the lower end of the bracket 53 fixed to the heat exchanger 50 into the receiving groove 83 of the orifice 80. The upper end of the bracket 53 is in close contact with the boss 85 and then fixed through the fastening member.

Here, the bracket 53 is installed on both sides of the rear surface of the heat exchanger 50, and the bracket 53 is in close contact with the frame 86 formed at both sides of the frame 86.

On the other hand, the connection pipe 52 connected to the pipe 56 of the heat exchanger 50 is located on the right side of the partition 84 in the process of being in close contact with the orifice 80, the cooling fin 57 and the pipe A heat exchanger 50 consisting of 56 is located on the left side of the partition 84.

Therefore, the connection pipe 52 positioned on the right side of the partition wall 84 is blocked by the partition wall 84 and does not come into contact with the heat exchanger 50 even when an impact is applied during the assembly or installation process.

After the heat exchanger 50 is installed, the electric component 150 is mounted on the upper end of the frame 86 and fixed to the orifice 80.

Next, the discharge process of the condensate during operation of the indoor unit will be described with reference to FIGS. 1, 5, or 7.

First, when an indoor unit is operated to exchange heat between refrigerant and indoor air in the heat exchanger 50, condensate is generated on the surface of the heat exchanger 50 due to a temperature difference between the temperature of the heat exchanger 50 and the indoor air. .

The condensed water generated on the surface of the heat exchanger 50 is moved to and stored in the drain pan 100 positioned below the surface of the heat exchanger 50.

The condensed water stored in the drain pan 100 is discharged to the outside through the discharge tube 106 formed in the housing 102.

Here, the rib 104 supports the lower end of the heat exchanger 50, and thus the lower end of the heat exchanger 50 and the lower end of the housing 102 are spaced apart by the ribs 104 by a predetermined interval. Therefore, the condensed water stored in the housing 102 is not in contact with the lower end of the heat exchanger 50.

In particular, the heat exchanger 50 is composed of a pipe 56 to which the refrigerant is moved and a cooling fin 57 formed on the outer side of the pipe, wherein the cooling fin is air and moved from the suction port to the orifice 80. The ribs 104 are formed upright in the front / rear direction to minimize the storage of the ribs. The ribs 104 are elongated in the left / right direction to cross the cooling fins to support the heat exchanger 50.

And the rib 104 is formed in the left / right direction so as not to generate a resistance to the condensed water moved to the discharge tube 106 in the housing 102, the condensed water stored in the housing 104 is discharged It is moved to the pipe 106 side and discharged.

In addition, the lower surface of the housing 102 is formed to be inclined so that condensed water can be collected toward the discharge tube 106.

On the other hand, even if condensed water is formed in the pipe 56 of the heat exchanger 50 or the condensed water flows down, the condensed water formed in the heat exchanger 50 is separated by the partition wall 84, and the connection pipe 52 It does not flow to the side) and falls to the drain pan 100 below.

In particular, the bent portion 84a formed below the barrier rib 84 is bent toward the drain pan 100 to drop the condensed water formed on the barrier rib 84 into the drain pan 100.

Therefore, the partition wall 84 prevents condensate generated in the heat exchanger 50 from falling into the cabinet 10 through the connection pipe 52, and the condensed water dropped into the partition wall 84 is bent. It is dropped to the drain pan 100 by the portion 84a.

On the other hand, although not shown, the partition wall may be formed to protrude toward the heat exchanger from the rear surface of the front panel.

Although the air conditioner according to the present invention has been described with reference to the drawings exemplified as above, the present invention is not limited to the embodiments and drawings described herein, but through various combinations within the scope of the technical idea of the present invention. Application is possible by those skilled in the art.

In the orifice of the indoor unit of the air conditioner according to the present invention, since the partition wall defining the heat exchanger and the connection pipe is formed, the condensate generated in the heat exchanger is not moved to the connection pipe side.

In addition, since the air conditioner indoor unit according to the present invention is connected to the heat exchanger by the connecting pipe is partitioned with the heat exchanger, the connection pipe is supported by the partition wall even if an impact is applied to the connection pipe is effective in suppressing warpage. .

In addition, since the indoor unit of the air conditioner according to the present invention is formed by bending the lower portion of the partition wall toward the drain pan, condensed water formed in the partition wall is guided to the drain pan.

Claims (3)

Heat exchanger, A connection pipe connected to the heat exchanger; An orifice in close contact with the heat exchanger; The indoor unit of the air conditioner, characterized in that it comprises a partition formed on the orifice protruding between the heat exchanger and the connecting pipe. The method according to claim 1, The connecting pipe is located at the side of the heat exchanger, The partition wall is an indoor unit of the air conditioner, characterized in that formed long in the up / down direction in the orifice. The method according to claim 1, A drain fan is further installed below the heat exchanger to store the condensed water generated in the heat exchanger. The lower end of the rib is an indoor unit of the air conditioner, characterized in that the bent portion is formed further bent toward the drain pan side.

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