KR20140018445A - Indoor unit of air conditioner - Google Patents

Abstract

Disclosed is an indoor unit of an air conditioner, wherein the indoor unit has the improved structure of a discharge air flow path allowing cold air to uniformly reach all indoor areas. The indoor unit of an air conditioner comprises: a housing including a front panel and a rear panel coupled to the rear side thereof; at least one outlet exposed to the front side of the front panel; a mixed flow fan placed at the rear side of the outlet and discharging air to the outlet; a discharge guiding part formed to protrude along the periphery of the outlet and between the outlet and the front side of the front panel in order to guide the air discharged from the outlet forwards.

Description

[0001] INDOOR UNIT OF AIR CONDITIONER [0002]

The present invention relates to an indoor unit of an air conditioner, and more particularly, to an air conditioner having an improved discharge flow path structure.

Generally, an air conditioner is equipped with a compressor, a condenser, an evaporator, a blower fan, and the like, which removes dust and the like in the air while adjusting temperature, humidity, airflow, distribution and the like suitable for human activity by using a refrigeration cycle .

The air conditioner may be divided into a separate type air conditioner in which an indoor unit and an outdoor unit are separately installed, and an integrated type air conditioner in which an indoor unit and an outdoor unit are installed together in a single cabinet.

The indoor unit of the separate type air conditioner includes a heat exchanger for heat-exchanging the air sucked into the panel, and a blower fan that sucks the indoor air into the panel and blows the sucked air back into the room.

In general, a blower fan is disposed below the indoor unit of the separate air conditioner, and a heat exchanger and an air discharge port through which air is discharged are disposed above. The air sucked and blown by the blower fan moves to the upper part of the indoor unit, and the air moved to the upper part is discharged to the room via a heat exchanger and an air discharge port.

However, in the indoor unit having such a structure, since the blower fan and the heat exchanger are disposed up and down, respectively, there is a disadvantage in that the space utilization is not efficient.

In addition, since the air passing through the blowing fan must be discharged by moving to the upper part of the indoor unit, the flow path from the lower part of the indoor unit to the upper part is long, and the load on the blowing fan that blows the sucked air is large, which is inefficient in terms of energy utilization. However, there is a limit in increasing the air volume and the wind speed.

In addition, a rotatable louver may be installed at a discharge port or a plurality of discharge ports may be arranged in various directions so that the cold air discharged through the discharge port provided in the indoor unit can be evenly reached throughout the indoor area. However, the method of discharging the cold price through the rotary louver or the plurality of discharge ports may be a factor of increasing the production cost and power consumption of the product.

One aspect of the present invention provides an indoor unit of an air conditioner having an improved structure of a discharge air passage so that cold air can be reached evenly over the entire area of the room.

The indoor unit of the air conditioner according to the spirit of the present invention, a housing comprising a front panel and a rear panel coupled to the rear of the front panel; and at least one discharge port exposed to the front of the front panel; and the discharge port A circulating fan disposed at a rear side of the discharge port to discharge air to the discharge port, and a discharge guide projecting between the discharge port and the front surface of the front panel along a circumference of the discharge port to guide the air discharged from the discharge port to the front; It may include a.

And a flow path forming tube for forming a flow path of air so that the air sucked by the crossflow fan flows to the discharge port, wherein the discharge guide portion extends from the flow path forming pipe and protrudes toward the front of the front panel. And, it may include a second inclined surface formed between the front end of the discharge guide portion and the front surface of the front panel.

The discharge guide portion may further include a bent portion formed to have a predetermined radius of curvature between the first slope and the second slope.

The first inclined surface may extend inclined with respect to the axial direction of the swirling fan.

At least one inlet formed in the rear panel at a position corresponding to the outlet, and disposed in front of the inlet, and absorbing heat from air introduced through the inlet, or into air introduced through the plurality of inlets; At least one heat exchanger for transferring heat may be further included.

In the indoor unit of the air conditioner of the present invention, since the inlet port, the heat exchanger, the circulating fan, and the discharge port are arranged in a line, the air flow path structure is simplified, so that the operation efficiency of the indoor unit can be increased, and the size of the indoor unit can be reduced.

In particular, since the part of the cold air discharged when the cold air is discharged through the discharge port is directed toward the front of the indoor unit by the discharge guide portion, the cold air can be reached evenly over the entire area of the room.

1 is a view showing the indoor unit of the air conditioner according to an embodiment of the present invention.
Fig. 2 is a front view of the indoor unit shown in Fig. 1. Fig.
3 is a view showing a state in which the front panel of the indoor unit shown in FIG. 1 is separated.
4 is an exploded perspective view of a part of the indoor unit shown in FIG. 1.
5 is a cross-sectional view of the indoor unit shown in FIG. 1.
FIG. 6 is an enlarged view of a portion 'A' of FIG. 5.

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

FIG. 1 is a view showing an indoor unit of an air conditioner according to an embodiment of the present invention. FIG. 2 is a front view of the indoor unit shown in FIG. 1. FIG. And FIG. 4 is an exploded perspective view of a part of the indoor unit shown in FIG. 1, FIG. 5 is a cross-sectional view of the indoor unit shown in FIG. 1, and FIG. 6 is an enlarged view of a portion 'A' of FIG. 5.

As shown in FIGS. 1 to 6, the indoor unit 100 of the air conditioner includes a housing 110 forming an exterior of the indoor unit 100, and a plurality of crossflows disposed inside the housing 110. The fan unit 120, the at least one heat exchanger 130 disposed at the rear of the plurality of crossflow fan units 120 inside the housing 110, and the rear surface of the housing 110. It is configured to include a plurality of suction ports 140.

The housing 110 includes a front panel 112 through which the discharge port 121a of the swirl fan unit 120 is exposed to the front, and a rear panel 114 coupled to the rear of the front panel 112.

The swirl fan unit 120 includes a diffuser provided at the discharge port 121a, a drive motor 122 coupled to the rear of the diffuser, a swirl fan 123 rotatably coupled to the drive motor 122, and a rear surface of the grill. It is coupled to the bell mouth 124 to form a flow path (124a) for moving the air in the process of the air sucked by the swirling fan 123 is discharged to the discharge port (121a).

The driving motor 122 is coupled to the rear surface of the disc plate 121b so as to rotate the turntable fan 123 such that the rotational axis 122a thereof is disposed in a direction toward the rear panel 114. [

The swirling fan 123 is disposed between the grill and the heat exchanger 130 to suck the air exchanged heat in the heat exchanger 130 to be discharged through the discharge port 121a, and the rotation shaft of the driving motor 122 is provided. Hub 123a coupled to 122a and a plurality of wings 123b coupled to the outer circumferential surface of the hub 123a.

The diameter of the hub 123a is provided to gradually decrease in the direction toward which the rotation shaft 122a of the drive motor 122 faces, that is, toward the rear panel 114, and thus the outer circumferential surface of the hub 123a is inclined.

At least three of the wings 123b are equally spaced along the outer circumferential surface of the hub 123a. The blade 123b forms a pressure gradient in the forward and backward directions of the extruder fan 123 in the process of rotating together with the hub 123a to form a constant air flow.

The heat exchanger 130 is disposed between the main fan unit 120 and the inlet 140 to absorb heat from the air introduced through the inlet 140 or to transfer the heat to the air introduced through the inlet 140. The heat exchanger 130 includes a tube 132 and a header 134 coupled at the upper and lower sides of the tube 132.

The number of heat exchangers 130 disposed in the indoor unit 100 may be one or plural. That is, the same number of heat exchangers 130 as the number of the plurality of the slave fan units 120 may be disposed behind the slave fan unit 120 to correspond to the plurality of slave fan units 120, One heat exchanger 130 having a size corresponding to both of the extruded fan unit 120 may be disposed. Further, the heat exchanging capacity of the heat exchanger 130 need not be all the same. That is, one of the plurality of heat exchangers 130 having a relatively small heat exchange capacity may be disposed behind the corresponding one of the two or more fan fans 120, and the other one having a relatively large heat exchange capacity may include two or more fan fans 120 It is also possible to arrange it on the rear side of the unit 120.

The suction port 140 is provided on the rear panel 114 disposed at the rear of the heat exchanger 130 to guide the air outside the indoor unit 100 into the indoor unit 100.

As with the heat exchanger 130, the number of the suction ports 140 provided on the rear panel 114 may be one or more. The number of intake ports 140 equal to the number of the plurality of the slave fan units 120 may be provided on the rear panel 114 so as to correspond to the plurality of the slave fan units 120, One inlet 140 may be provided on the rear panel 114, all of which have a size corresponding to both of them.

Bell mouse is formed in a circular shape surrounding the drift fan 123, the flow path forming tube 124a to form a flow path of air so that the air sucked by the drift fan 123 flows to the discharge port 121a, and the flow path It is connected to the rear of the forming pipe (124a) includes a fixing plate (124b) for fixing the duct 124 in the housing (110).

The flow path forming tube 124a may be formed to be inclined to the side so that the suction air may be inclined toward the discharge port 121a by the swirling fan 123 together with the hub 123a.

The diffuser 121 has a circular disk plate 121b, a discharge port 121a formed in a ring shape along the outer circumferential surface of the disk plate 121b, a guide vane 121d provided at the discharge port 121a, and a discharge port ( And a discharge guide portion 121c formed along the circumference of 121a.

The diffuser 121 is disposed in front of the current fan 123 so that air passing through the current fan 123 can be discharged to the front of the front panel 112 through the discharge port 121a.

The diffuser 121 includes a guide vane 121d for preventing the swirl fan 123 from being exposed through the discharge port 121a, and the guide vane 121d may be formed of a radial wing.

The discharge port 121a is formed in a ring shape by the disk plate 121b and the flow path forming tube 124a, and the discharge guide part 121c is provided along the outer circumferential direction of the discharge port 121a.

By adjusting the distance between the disc plate 121b and the discharge guide portion 121c to reduce or increase the radial width of the discharge port 121a, the wind direction and the air volume of the air discharged through the discharge port 121a may be adjusted. The wind direction and the air volume of the air discharged through the discharge port 121a may be adjusted by adjusting the diameter of the plate 121b.

The discharge guide portion 121c protrudes between the discharge port 121a and the front surface of the front panel 112 and extends from the front end of the flow path forming tube 124a of the bell mouse 124 to the front panel 112 side. It is bent and formed.

 The discharge guide portion 121c extends from the flow path forming tube 124a to protrude forward of the front panel 112, the front end of the discharge guide portion 121c, and the front panel 112. It may include a second inclined surface 121f formed between the front surface, and a bent portion 121g formed between the first sloped surface 121e and the second sloped surface 121f.

The flow path forming tube 124a is formed to be inclined with respect to the axial direction of the vortex fan 123 to enlarge toward the front, and likewise to be inclined with respect to the axial direction of the vortex fan 123 so as to extend toward the front. Can be formed.

The second inclined surface 121f is an inclined surface connecting between the front end of the first inclined surface 121e and the front surface of the front panel 112. The indoor unit 100 forms a predetermined inclination angle with the front end of the first inclined surface 121e. It may be formed to be inclined in the direction between the side and the rear of the.

A bent portion 121g is formed between the first inclined plane 121e and the second inclined plane 121f to be bent at a predetermined radius of curvature to form a curved surface between the first inclined plane 121e and the second inclined plane 121f. Connect.

The discharge guide portion 121c protrudes forward from the front surface of the front panel 112 to guide the airflow discharged from the discharge port 121a toward the front side. The indoor unit 100 of the air conditioner according to the present invention is to discharge the air using the drift fan 123, the air flow discharged from the discharge port (121a) due to the characteristics of the drift fan 123 is the shaft of the drift fan 123 It is ejected in the direction of diffusion toward the front with respect to the? The diffusion type airflow has an advantageous surface for discharging air at a wide angle, but may be disadvantageous for discharging a large amount of air in front of the indoor unit 100, and the discharge guide portion 121c is disposed from the front of the front panel 112. Protruding forward to guide the air flow discharged from the discharge port (121a) to the front so that a lot of air can be discharged in front of the indoor unit (112).

The present invention is not limited to the embodiments described above, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit of the present invention. Accordingly, modifications or variations are intended to fall within the scope of the appended claims.

100: indoor unit 110: housing
112: front panel 114: rear panel
120: Mixer fan unit 121: Diffuser
121a: discharge port 121c: discharge guide portion
122: drive motor 123: swirl fan
124: duct 130: heat exchanger
140: inlet

Claims (5)

A housing including a front panel and a rear panel coupled to the rear of the front panel;
At least one discharge port exposed to the front of the front panel;
A four-flow fan disposed at the rear of the discharge port to discharge air to the discharge port;
And a discharge guide part protruding between the discharge port and the front surface of the front panel to guide the air discharged from the discharge port to the front. The method of claim 1,
Further comprising a flow path forming tube for forming a flow path of air so that the air sucked by the crossflow fan flows to the discharge port,
The discharge guide unit is an indoor unit of an air conditioner including a first inclined surface extending from the flow path forming tube protruding forward of the front panel and a second inclined surface formed between the front end of the discharge guide portion and the front surface of the front panel. . The leaf of claim 2, wherein the leaf
And the discharge guide part further comprises a bent portion formed to have a predetermined radius of curvature between the first inclined surface and the second inclined surface. 3. The method of claim 2,
And the first inclined surface extends inclined with respect to the axial direction of the swirl fan. The method of claim 1,
At least one suction port formed in the rear panel at a position corresponding to the discharge port,
And at least one heat exchanger disposed in front of the intake port to absorb heat from the air introduced through the intake port or to transfer heat to the air introduced through the plurality of intake ports.

Images