KR100529948B1 - Discharge structure for air conditioner - Google Patents

Abstract

In the air outlet structure of the air conditioner according to the present invention, a sub discharge port for air purification is formed in the upper part of the cabinet, and during cooling and heating, the discharge port unit is raised and operated while the main discharge port is opened. In this way, the purified air is discharged through the sub discharge port in the state where the main discharge port is closed, so that the air conditioner can be operated more efficiently according to the purpose of using the air conditioner.

Description

Discharge structure for air conditioner

The present invention relates to a discharge port structure of an air conditioner, and more particularly, to a discharge hole structure of an air conditioner, which forms a separate air purification discharge port to enable an air purification operation even when the main discharge port unit is not opened.

In general, an air conditioner is a device that cools or heats a room by using a refrigeration cycle of a refrigerant consisting of a compressor, a condenser, an expansion device, and an evaporator to create a more comfortable indoor environment for a user.

4 is a perspective view showing an air conditioner according to the prior art, Figure 5 is an exploded perspective view showing an air conditioner according to the prior art.

The indoor unit of the conventional air conditioner illustrated in FIGS. 4 and 5 includes a base 2, a cabinet 4 disposed above the rear portion of the base 2 and having a front surface open, and a cabinet of the cabinet 4. A front top panel 10 disposed at the top of the front surface and having a front center discharge opening 6 and a front left and right discharge openings 8 formed at the center and on both sides thereof; And the front lower panel 14 and the front left and right suction ports 12 disposed between the centers of the cabinet 4 and forming the front left and right suction ports 12 between the lower part of the cabinet 4 and the front lower part. The left and right suction grille 16 arranged above the base 2 is comprised.

The front upper panel 10 includes a plurality of grills 7 which protect the inside of the front central discharge port 6 and distribute the air discharged through the front central discharge port 6 so as to be spaced apart vertically or horizontally. The vane 9 is rotatably mounted to each of the front left and right air while protecting the front left and right discharge ports 8 and protecting the inside of the left and right discharge ports 8.

As shown in FIG. 5, the indoor unit of the air conditioner sucks air through the front left and right inlets 12, and then supplies air through the front center outlet 6 and the front left and right outlets 8. And a heat exchanger 20 disposed in a space between the front upper panel 10 and the cabinet 4 so that the air blown by the blower 18 is heated / cooled. It is composed.

The blower 18 is mounted to the lower portion of the cabinet 4 so as to be close to the left and right suction ports 12.

A drain pan 22 is mounted below the lower end of the heat exchanger 20 to collect condensed water falling from the heat exchanger 20, and the drain pan 22 has a drain extending to drain the condensed water collected to the outside. The hose 24 is connected.

The dust collecting device 30 is provided at the lower side of the drain pan 22 to purify the air sucked through the front left and right suction ports 12 at the inner positions of the left and right suction grills 16.

In the conventional air conditioner configured as described above, as the blower 18 is driven, the air sucked through the front left and right suction ports 12 is cooled / heated by the heat exchanger 20, and then the front central discharge port ( 6) and through the front left and right discharge ports 8 are discharged toward the upper front of the indoor unit.

At this time, some of the air sucked through the left and right inlet 12 is purified while passing through the dust collecting device 30, and passed through the blower 18 and the heat exchanger 20, the front center outlet 6 and It is discharged into the room through the front left and right discharge ports 8.

However, the air conditioner according to the related art as described above uses the front center discharge port 6 and the front left and right discharge ports 8 even when only the air purification operation is performed, not the air conditioning operation. Due to the characteristics of the air purification operation that does not require a large amount of air circulation during the air purification operation, there is a problem that the operation of the air conditioner is not efficient.

The present invention has been made in order to solve the above problems, by separately forming an air purification discharge port to perform the air purification operation more efficiently by using the air purification discharge port in the state that the main discharge port is not opened during the air purification operation. It is an object to provide an outlet structure of an air conditioner.

Discharge port structure of the air conditioner according to the present invention for realizing the above object, the sub discharge port is formed on at least one surface of the upper peripheral surface, the upper surface is open; It is characterized in that it comprises a discharge port unit is installed so as to move up and down through the open upper surface of the cabinet, a plurality of main discharge port is formed.

The sub discharge ports are formed on left and right sides of the cabinet, and a discharge grill is installed.

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

1 and 2 are a perspective view showing an air conditioner having a discharge port structure according to the present invention, Figure 1 is a state diagram during normal operation during cooling or heating, Figure 2 is a state diagram during the air purification operation, Figure 3 Is an exploded perspective view showing an air conditioner having a discharge port structure according to the present invention.

1 and 2, the air conditioner according to the present invention is disposed on the base 50 and the upper side of the base 50, and air inlets 60a and 60b are formed on the left and right sides, respectively. An outlet unit having an upper surface opened and an elevating position in the cabinet 60 so as to be able to enter and exit through the upper surface of the cabinet 60, and having main discharge ports 70a, 70b, and 70c formed on three surfaces; It comprises 70.

The discharge port unit 70 blocks the upper surface of the cabinet 60 when descending, and the upper surface and the rear surface are blocked so that air discharged to the upper surface of the cabinet 60 is three-dimensionally discharged through the front, left, and right sides. .

That is, the discharge port unit 70 is formed with a front main discharge port 70a, a left main discharge port 70b, and a right main discharge port 70c.

3 is an exploded perspective view showing the internal configuration of the air conditioner according to the present invention described above.

As shown in FIG. 3, the base 50 includes a base installation unit 52 on which the cabinet 60 is mounted and mounted, and a drain pan part 54 formed to receive condensed water falling from the heat exchanger 90 described later. ), And a spacer 56 mounted on the edge of the base installation unit 52 so as to be spaced apart from a wall or other furniture in the room so as to protrude beyond the periphery of the base installation unit 52. .

The drain pan 54 is connected to a drain hose 54a for draining the collected condensate to the outside.

In addition, the cabinet 60 includes a left cabinet 61 having a left air inlet 60a formed at a lower portion thereof, a right cabinet 62 having a right air intake 60b formed at a lower portion thereof, and a left cabinet 61 having a left side formed therein. A front lower panel 63 disposed below the front of the cabinet 62 and a front upper panel 64 disposed above the front of the left cabinet 61 and the right cabinet 62.

The left air intake port 60a and the right air intake port 60b include a left intake grill 61a and a right intake grill 62a, and include a pre-filter unit 66 and a main filter unit so as to purify intake air. 67 are respectively installed.

The left cabinet 61 has a left sub discharge port 61b for air purification separately formed thereon, and a left discharge grill 61c for protecting the inside of the left sub discharge port 61b.

In addition, the right side cabinet 62 has an air purifying right sub discharge port 62b formed on an upper side thereof, and a right discharge grill 62c for protecting the inside of the right sub discharge port 62b.

The front upper panel 64 is equipped with displays 64a and 64b to display operation information of the air conditioner indoor unit, and controls the operation of the air conditioner behind the front upper panel 64. The main PCB 64c and the auxiliary PCB 64d including electrical components for the purpose are disposed vertically between the front side of the left cabinet 61 and the right cabinet 62.

The discharge port unit 70 includes a top cover 72 that forms an outer appearance of the top surface of the air conditioner, a discharge port frame 74 disposed below the top cover 72 and opened on three sides, and the discharge port frame 74. ) And the grille 79 arranged at regular intervals in the vertical direction.

Here, since the grills 79 are disposed over three surfaces of the discharge port unit 70, the front main discharge port 70a, the left main discharge port 70b, and the right main discharge port 70 of the discharge port unit 70 70c) is protected together and the air discharged through each of them is dispersed.

An outlet unit guide 100 for guiding the outlet unit 70 when the outlet unit 70 is elevated is mounted at an upper end of the cabinet 60.

The discharge port unit guide 100 is formed such that the hook portion 102 protrudes outward along the upper circumference so as to be caught on the upper end of the cabinet 60, and a predetermined height to guide the lifting and lowering of the discharge port unit 70. The upper and lower surfaces are opened, and the lower surface is provided with a grating member 104 to secure the straightness of the air blown from the blower 80 to be described later.

In the center of the grid member 104, a discharge unit lifting motor (not shown) is mounted, and on the upper surface of the center of the grid member 104, a male screw 108 that is rotated by the motor is mounted to the discharge unit. 70) will be raised and lowered.

In addition, after the air is sucked through the left air inlet 60a and the right air inlet 60b inside the cabinet 60, the front main outlet 70a and the left side main outlet of the outlet unit 70 ( The blower 80 which discharges through 70b) and the right side main discharge port 70c, and the heat exchanger 90 which heats / cools the air blown by the blower 60 are provided.

The blower 80 is disposed to be positioned above the heat exchanger 90 so as to blow the heat exchanged air through the heat exchanger 90 toward the upper surface of the cabinet 60, and forms a blow passage. Orifice 82, a blower fan 84 located inside the orifice 82, and a blower motor 86 in which a rotating shaft is formed in the blower fan 84.

The heat exchanger 90 may include a left heat exchanger 91 disposed in a 'V' shape in the left and right air inlets 60a and 60b between the left cabinet 61 and the right cabinet 62. On the front and rear surfaces of the left heat exchanger 91 and the right heat exchanger 92 so as to block between the right heat exchanger 92 and the front and rear surfaces of the left heat exchanger 91 and the right heat exchanger 92, respectively. It is composed of a front cover 93 and a rear cover 94 mounted.

Any one of the left heat exchanger 91 and the right heat exchanger 92 is connected to a refrigerant pipe 90a connected to the outdoor unit.

Referring to the operation of the discharge port structure of the air conditioner according to the present invention configured as described above are as follows.

When the air conditioner is operated to operate the air conditioner, the discharge port unit 70 is raised, and the front main discharge port 70a, the left main discharge port 70b and the right main discharge port 70c are opened.

As described above, the discharge port unit 70 is raised and the compressor mounted on the outdoor unit connected to the heat exchanger 90 and the refrigerant pipe 90a is driven to drive the blower motor 86 of the blower 80.

In addition, when the blowing motor 86 is driven, the blowing fan 84 is rotated, and the outside air of the air conditioner connects the left air intake port 60a and the right air intake port 60b of the cabinet 60. It is sucked into the interior of the cabinet 60 through.

Thereafter, the intake air is cooled or heated while passing through the left heat exchange part 91 and the right heat exchange part 92 of the heat exchanger 90, and then blows through the blower 80 to the inside of the cabinet 60. do.

The heat-exchanged air blown to the inner upper part of the cabinet 60 passes through the grid member 104, and the front discharge port 70a, the left side discharge port 70b, and the right side discharge port 70c of the discharge port unit 70. It is dispersed in, and is discharged into the room through the upper side front and left and right sides of the air conditioner to cool or heat the room in three dimensions.

Unlike the above, when the air conditioner is operated only for the purpose of air purification, the discharge port unit 70 does not rise. That is, the front main discharge port 70a, the left main discharge port 70b, and the right main discharge port 70c are in an unopened state.

Therefore, as the blower 80 is operated, the air sucked through the left air intake port 60a and the right air intake port 60b is purified while passing through the pre-filter 66 and the dust collecting filter 67 to blow the blower 80. And the purified air is discharged into the room through the sub discharge ports 61b and 62b formed on the left and right sides of the cabinet 60 via the heat exchangers 91 and 92.

The air outlet structure of the air conditioner according to the present invention configured and operated as described above, the air discharge sub-discharge port is formed in the upper portion of the cabinet, during the air-conditioning, the discharge port unit is raised to operate in the state where the main discharge port is opened, air At the time of purging, since the discharge port unit descends and the main discharge port is closed, the purified air can be discharged through the sub discharge port, so that the air conditioner can be used more efficiently according to the purpose of using the air conditioner.

1 is a perspective view showing an air conditioner having a discharge port structure according to the present invention, a state diagram during normal operation during cooling or heating,

Figure 2 is a perspective view showing an air conditioner having a discharge port structure according to the present invention, a state diagram during the air purification operation,

3 is an exploded perspective view showing an air conditioner having a discharge port structure according to the present invention;

4 is a perspective view showing an air conditioner according to the prior art,

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

<Explanation of symbols for the main parts of the drawings>

50: base 60: cabinet

60a: left air intake 60b: right air intake

61: left cabinet 61b: left sub discharge port

61c: left discharge grill 62: right cabinet

62b: right sub discharge port 62c: right discharge grill

63: front lower panel 64: front upper panel

66: pre-filter 67: main filter

70: discharge port unit 70a: front main discharge port

70b: left main discharge port 70c: right main discharge port

72: top cover 74: discharge port frame

80: blower 90: heat exchanger

100: discharge port unit guide 104: grid member

Claims (4)

A cabinet having a sub discharge port formed on at least one surface of an upper circumferential surface, and having an upper surface open; A discharge port structure of the air conditioner, characterized in that it comprises a discharge port unit which is installed to be able to move up and down through the open upper surface of the cabinet, the plurality of main discharge port is formed. The method of claim 1, The sub discharge port is formed on the left and right sides of the cabinet discharge port structure of the air conditioner. The method according to claim 1 or 2, The cabinet has an outlet structure of the air conditioner, characterized in that the air inlet is formed in the lower position of the sub discharge port. The method according to claim 1 or 2, Discharge port structure of the air conditioner, characterized in that the discharge grill is installed in the sub discharge port of the cabinet.