KR101396407B1 - Air conditioner - Google Patents

Abstract

The present invention relates to a cabinet; A front panel movably installed on a front surface of the cabinet; An airflow guide panel provided on a side surface of the front panel and having an inclined portion for guiding an airflow; A discharge port formed between the cabinet and the airflow guide panel when the front panel moves; And an inner wing provided on the inclined portion of the airflow guide panel to adjust the direction of the airflow discharged through the discharge port.

In the present invention, the inner wings provided on both side surfaces of the front panel are operated to form a virtual round wall surface to minimize the hindrance to design elegance and to adjust the direction of the airflow through the inner wing, And the inner wings provided on both side surfaces of the front panel can be selectively operated so that the direction of the airflow can be adjusted to the left and right.

Description

Air conditioner

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly, to an air conditioner for adjusting a direction of an air flow discharged into a room.

Generally, an air conditioner is a device that cools indoor air by cooling, heating or purifying the indoor air using the movement of heat generated by the evaporation and condensation process of the refrigerant, and discharging the indoor air to the room.

The air conditioner is provided with a suction port for sucking air into a cabinet forming an outer appearance and a discharge port for discharging air. Inside the cabinet of the air conditioner, a heat exchanger for air conditioning and a blower for blowing air are provided.

Such an air conditioner is divided into a wall-mounted type fixedly installed on a wall surface, a ceiling-mounted type installed on an indoor ceiling, and a stand-type installed on an indoor floor according to installation positions.

The inlet and outlet of the air conditioner are provided at appropriate positions in consideration of the design and installation position of the air conditioner. Most of the ventilation openings of the stand type air conditioner are provided on the front surface of the cabinet and the suction opening is provided on the side surface of the cabinet.

Recently, however, a stand type air conditioner having a discharge port and a suction port on the side of a cabinet has been popularized in order to improve the appearance of the stand type air conditioner and to improve the cooling / heating performance by discharging air in various directions .

1 is a stand-type air conditioner provided with a discharge port and a suction port on a side surface of a cabinet, and is a plan sectional view of a portion provided with a discharge port of the air conditioner.

1, the stand-type air conditioner includes a cabinet 2 having discharge ports 1 formed on both sides thereof, an indoor heat exchanger 3 for cooling indoor air, a blower 4 for forced circulation of indoor air, . An inner wing 5 is rotatably installed in the discharge port 1 so as to adjust the direction of the airflow. A front panel 6 for finishing the front surface of the air conditioner is provided on the front surface of the cabinet 2, Respectively.

However, since the conventional air conditioner hinders the design and the beauty due to the exposure of the inner wing, the inner wing is located in the center of the air outlet, and the operation range of the inner wing is limited. Therefore, Since the inner wing is positioned in the center of the discharge port and the friction with the air is increased, there is a problem of increasing noise during air discharge.

Also, when the cooled air is discharged to the room, the conventional air conditioner directly touches the side surface of the front panel positioned at the front of the discharge port, so that the condensed water is formed on the front panel due to the temperature difference between the front panel and the discharged air .

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide an air conditioner which has little appearance change when the air conditioner is inoperable and operates, And an air conditioner that reduces friction between the inner wing and the discharge air stream to reduce noise.

Another object of the present invention is to provide an air conditioner which can change the direction of the discharge airflow in various forms and prevent condensation on the front panel.

According to an aspect of the present invention, A front panel movably installed on a front surface of the cabinet; An airflow guide panel provided on a side surface of the front panel and having an inclined portion for guiding an airflow; A discharge port formed between the cabinet and the airflow guide panel when the front panel moves; And an inner wing provided on the inclined portion of the airflow guide panel to adjust the direction of the airflow discharged through the discharge port.

Further, the airflow guiding panel includes an opening provided in the inclined portion, and the inner wing is provided in the opening portion.

Further, the airflow guide panel includes a bent portion extending from the inclined portion to the side end portion of the front panel.

The inclined portion is provided on a separating panel detachably mounted on the airflow guide panel, and the separating panel includes an opening provided in the inclined portion, and the inner wing is mounted on the opening portion.

And the inner wing protrudes from the inclined portion of the airflow guide panel when the airflow is discharged to the front of the front panel.

And when the airflow is discharged to the side of the front panel, the inner wings extend in the same direction as the inclined portion of the airflow guide panel.

The inner wings are respectively provided on both side surfaces of the front panel, and the direction of the airflow is selectively and selectively controlled in accordance with the operation mode selected by the user.

And the inclined portion of the airflow guide panel is inclined toward the front side from the rear side of the front panel.

As described above, according to the present invention, since the suction port and the discharge port are not exposed to the outside from the front surface of the air conditioner, the appearance change according to the operation of the air conditioner is small, You can give.

In addition, the inner wings on both sides of the front panel are operated to create a virtual round wall, minimizing hindrance to design aesthetics, and adjusting the direction of airflow through the inner wing to create a center-mode and wide- wide-mode, and the inner wings provided on both sides of the front panel can be selectively operated to adjust the direction of the airflow to be different from left to right.

In addition, since the inner wing is provided on both sides of the front panel to minimize the friction between the inner wing and the air flow, the discharge noise is minimized and the space of the air outlet is changed according to the operation of the inner wing, It is possible to remarkably reduce the dew formed on the side surface.

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

FIG. 2 is a perspective view of an air conditioner according to the present invention. The air conditioner includes a cabinet 11 having a front face opened, a frame 12 provided on both sides of the cabinet 11 to guide the airflow discharged from the cabinet 11, 11 and a rear suction port 13 for sucking outside air.

The internal space of the cabinet 11 is divided into a lower blower installation chamber and an upper heat exchanger installation chamber. The blower installation room is provided with a blower 31 for sucking outside air and blowing the sucked air and a fan housing 32 for guiding the air sucked through the blower 31 to the heat exchanger installation chamber, And a heat exchanger (33) for heat exchange with air guided through the housing (32).

The air conditioner further includes a front panel 21 installed on the front surface of the cabinet 11 and movable back and forth depending on the operation of the air conditioner.

Both side surfaces of the front panel 21 are provided with an airflow guide panel 22 for adjusting the direction of the discharged airflow. This front panel 21 will be described with reference to Fig.

3 is a perspective view of a front panel 21 provided in an air conditioner according to the present invention. In both upper side surfaces 22 of the front panel 21, a discharge direction of air heat-exchanged in a cabinet 11 heat- And a suction panel 28 is provided on both lower side surfaces of the front panel 21 with a side suction port 26 through which external air is sucked.

The airflow guiding panel 22 enters the cabinet 11 when the front panel 21 moves to the closed position and is exposed to the side of the air conditioner when the front panel 21 moves to the open position.

At this time, when the front panel 21 is moved to the open position, the airflow guiding panel 22 is exposed to the outside, and an air discharge opening 28 for discharging air between the frame 12 of the cabinet 11 and the airflow guide panel 22 Is formed. On the other hand, when the front panel 21 is moved to the closed position, the airflow guide panel 22 is inserted into the cabinet 11, and the discharge port 28 is not formed.

The side suction ports 26 of the suction panel 27 provided on both lower side surfaces of the front panel 21 also enter the inside of the cabinet 11 when the front panel 21 is moved to the closed position, When the front panel 21 is moved to the open position without being exposed to the outside, the suction panel 27 is exposed to the side and the side suction port 26 is exposed to the outside.

Therefore, the airflow guide panel 22, the side air inlet port 26, and the air outlet port 28 are not exposed to the outside regardless of whether the front panel 21 is in the closed position or the open position.

At this time, the front panel 21 is moved in the front-rear direction by at least two panel moving devices (not shown) forming a pair. That is, the pair of panel moving devices are installed in the blower installation room of the cabinet 11 to support the lower part of the front panel 21, and the other pair of panel moving devices are installed in the heat exchanger installation room of the cabinet 11 Thereby supporting the upper portion of the front panel 21. The panel moving device for supporting the upper and lower portions of the front panel 21 is configured such that the front panel 21 completely covers the front surface of the cabinet 11, And moves to the open position in multiple stages in accordance with the open position of the front panel 21.

FIG. 5A is an enlarged view of the airflow guide panel provided on the upper side of the front panel according to one embodiment, FIG. 5B is an enlarged view of the airflow guide panel provided on the upper side of the front panel according to another embodiment, FIG. 6 is an enlarged view of a separation panel mounted on the airflow guide panel according to another embodiment shown in FIG. 5B.

4, when the upper part of the front panel 21 is cut in the direction A-A ', airflow guide panels 22 are provided on both sides of the front panel 21, An inner wing 23 is provided on one side of the inner wing. One surface of the inner wing (23) has a shape that is continuous with one surface of the airflow guide panel (22).

As shown in FIG. 5A, the airflow guide panel 22 has a triangular shape. More specifically, the airflow guide panel 22 includes a horizontal portion 22a formed parallel to and adjacent to both rear ends of the front panel 21, a vertical portion 22b formed by bending the horizontal portion 22a, An inclined portion 22c connecting the horizontal portion 22a and the vertical portion 22b and a bent portion 22d connecting the side end portions of the front panel 21 where the horizontal portion 22a and the inclined portion 22c meet ). The inner wing (23) also includes a motor (24) for rotating the inner wing (23) on one side.

An inclined portion 22c of the airflow guide panel 22 is formed with an opening 22e and the opening 22e is provided with an inner wing 23 for adjusting the direction of the airflow discharged. At this time, one surface of the inner wing 23 is on the same surface as the inclined portion 22c of the airflow guide panel 22.

That is, if the inner wing 23 does not operate, the opened wing portion 22c forms a unified surface due to the inner wing 23. At this time, the inclined portion 22c of the airflow guide panel 22 is inclined toward the front side of the front panel 21 from the rear center of the front panel 21. [ The airflow guide panel 22 is formed in a streamlined shape so as to smoothly guide the discharged air.

Thus, when the inner wing 23 is not operating, the air that has been heat-exchanged in the heat exchanger installation chamber is diffused and discharged in the lateral direction of the cabinet 11 on the inclined portion 22c of the airflow guide panel 22.

On the other hand, when the inner wing 23 is operated, the inclined portion 22c of the airflow guide panel 22 is protruded due to the inner wing 23. The shape of the discharge port 28 is changed by the inner wing 23 protruding from the inclined portion 22c and the discharge position and direction of the airflow are changed in accordance with the change of the discharge port 28. [

At this time, the airflow discharged from the discharge port 28 is discharged on one surface of the inner wing 23 and deflected toward the bent portion 22d by a coanda effect. Thus, when the inner wing 23 operates, the heat-exchanged air in the heat exchanger installation chamber is concentrated and discharged in the front direction of the cabinet 11. [

That is, when the inner wing 23 is operated, the airflow discharged from the discharge port 28 is discharged on one surface of the inner wing 23 without being discharged in a direction toward one surface of the inner wing 23, The airflow is deflected toward the bent portion 22d of the guide panel 22 so that the airflow can be discharged in the front direction of the cabinet 11 connected to the bent portion 22d.

As shown in FIG. 5B, the airflow guide panel 22 according to another embodiment is detachably installed with a separation panel 25 including an inclined portion 25a and an inner wing 23. By providing the separation panel 25 in this manner, the inner wing 23 can be easily installed on the airflow guide panel 22 and can be easily separated from the airflow guide panel 22 when the inner wing 23 fails.

The airflow guide panel 22 includes a horizontal portion 22a formed parallel to and adjacent to both rear ends of the front panel 21, a vertical portion 22b formed by bending the horizontal portion 22a, And a bent portion 22d connecting the side end portion of the front panel 21 where the horizontal portion 22a and the opening portion 22f meet.

Two surfaces of the separating panel 25 are formed into a triangular shape except for the surface constituting the inclined portion 25a. The two surfaces of the inclined portion 25a are inserted into the opening 22f of the airflow guide panel 22, And is attached to the horizontal portion 22a and the vertical portion 22b of the guide panel 22 in contact therewith. At this time, the inclined portion 25a is provided with an opening portion 25b, and the inner wing 22 is mounted on the opening portion 25b. Further, a motor 24 for rotating the inner wing 23 is connected to one side of the inner wing 23.

The separation panel 25 on which the inner wing 23 and the motor 24 are mounted is installed in the airflow guide panel 22 as shown in FIG.

At this time, since the separation panel 25 is mounted on the airflow guide panel 22 by fastening means (not shown), the inner wing 23 can be easily installed, and when the inner wing 23 and the motor 24 fail, It is easy to inspect and repair the failure of the inner wing 23 and the motor 24 since the separation panel 25 can be separated and checked without inconvenience of separating the panel 21.

In the airflow guide panel 22 provided with the separation panel 25, one side of the inner wing 23 is on the same plane as the slope 25a of the separation panel 25.

That is, if the inner wing 23 is not operated, the opened inclined portion 25a forms a unified surface due to the inner wing 23. At this time, the inclined portion 25a of the separating panel 25 is inclined toward the front side surface of the front panel 21 from the rear center of the front panel 21. [ Thus, when the inner wing 23 is not operating, the air that has been heat-exchanged in the heat exchanger installation chamber is diffused and discharged in the lateral direction of the cabinet 11 on the inclined portion 25a of the separation panel 25.

On the other hand, when the inner wing 23 is operated, the inclined portion 25a of the separation panel 25 is protruded due to the inner wing 23. The shape of the discharge port 28 is changed by the inner wing 23 protruding from the inclined portion 25a and the discharge position and direction of the airflow are changed in accordance with the change of the discharge port 28. [

At this time, the airflow discharged from the discharge port 28 is discharged on one surface of the inner wing 23 and deflected toward the bent portion 22d by a coanda effect. Thus, when the inner wing 23 operates, the heat-exchanged air in the heat exchanger installation chamber is concentrated and discharged in the front direction of the cabinet 11. [

Since the inner wing 23 is located on one side of the airflow guiding panel 22 for changing the shape of the discharge port 28 without being positioned as an obstructing element of the airflow, noise due to friction with the discharge airflow can be reduced have.

Also, by changing the shape of the discharge port according to the operation of the inner wing 23, it is possible to change the flow rate of the discharge airflow, thereby reducing the occurrence of dew condensation of the front panel 21 and the airflow guide panel 22.

The inner wing 23 provided on the airflow guide panel 22 on both the front panel 21 operates according to any mode selected by the user from the wide mode, the center mode, the light focus mode, or the left focus mode.

The operation of such an air conditioner will be described with reference to Fig.

When the air conditioner is not operated and the front panel 21 is in the closed position, the side air inlet 26 and the air outlet 28 are not exposed to the outside, and both airflow guide panels 22 of the front panel 21 are also in the cabinet 11) It is located inside and is not exposed to the outside.

When the operation command is given to the air conditioner, the panel moving device operates to move the front panel 21 to the front of the cabinet 11. At this time, the front panel 21 advances toward the front of the cabinet 11, The discharge port 35 is exposed to the outside on both upper side surfaces between the front panel 11 and the front panel 21 and the side suction port 26 is exposed to the outside on both lower sides of the front panel 21.

When the operation command and the operation mode are applied to the air conditioner, the heat exchanger 33 and the blower 31 are operated. At this time, external air flows into the blower installation chamber through the rear suction port 13 of the cabinet 11 and the side suction port 26 of the front panel 21. The air introduced into the blower installation chamber flows to the installation chamber of the heat exchanger according to the driving of the blower 31. The air introduced into the installation space of the heat exchanger is heat-exchanged while passing through the heat exchanger 33, Flow. When the air in the heat exchanger installation chamber flows through the heat exchanger (33), the airflow guide panel (22) and the frame (12) guide the discharge airflow.

The airflow discharged through the discharge port 28 between the cabinet 11 and the front panel 21 is discharged in the front direction and the lateral direction of the front panel 21 according to the operation mode selected by the user. The operation according to the selected operation mode will now be described with reference to FIGS. 7 to 12. FIG. And a structure in which the inner wing 23 is provided in the airflow guide panel 22 will be described as an example.

FIG. 7 shows the operation of the inner wing and the direction of the air flow according to the center-mode selection.

In the center mode, all the inner wings 23 provided on both side surfaces of the front panel 21 are rotated, and one surface of the airflow guide panel 22 is protruded by the operation of each inner wing 23 .

At this time, the airflow discharged from the discharge port 28 is discharged on one side of the protruding inner wing 23 and deflected toward the bent portion 22d by a coanda effect. Thus, when the inner wing 23 operates, the heat-exchanged air in the heat exchanger installation chamber is concentrated and discharged in the front direction of the cabinet 11. [

In this center mode, the airflow is concentrated and discharged in the front direction of the cabinet 11 by the coanda effect, as shown in FIG.

FIG. 9 shows the operation of the inner wing and the direction of the air flow according to the selection of the wide mode.

All the inner wings 23 provided on both side surfaces of the front panel 21 are not operated at the time of the wide mode so that one surface of the inner wing 23 is flush with the inclined portion 22c of the airflow guide panel 22 Lt; / RTI >

At this time, the inclined portion 22c of the airflow guide panel 22 is inclined toward the front side of the front panel 21 from the rear center of the front panel 21. [ Thus, when the inner wing 23 is not operated, the air that has been heat-exchanged in the heat exchanger installation chamber is diffused and discharged in both lateral directions of the cabinet 11 on the inclined portion 22c of the airflow guiding panel 22. [

In such a wide mode, it can be seen from FIG. 10 that the airflow is concentrated and discharged in the front direction of the cabinet 11.

FIG. 11 shows the operation of the inner wing and the direction of the airflow according to the selection of the left-focus mode.

In the left focus mode, the inner wing 23 provided on the right side of the front panel 21 rotates and one side of the right air flow guide panel 22 protrudes by the operation of the right inner wing 23. At this time, the airflow discharged from the right discharge port 28 is discharged on one surface of the protruding inner wing 23 and deflected toward the bent portion 22d by a coanda effect. The right side of the cabinet 11 is discharged with the airflow concentrated in the front direction.

The inner wing 23 provided on the left side of the front panel 21 does not operate so that the inclined portion 22c of the left airflow guiding panel 22 is guided by the inner wing 23 from the rear center of the front panel 21 to the front And is inclined toward the front side surface of the panel 21. Thus, since the air that has been heat-exchanged in the heat exchanger installation chamber is discharged through the inclined portion 22c of the left airflow guide panel 22 on the left side of the cabinet 11, the airflow on the left side of the cabinet 11 is diffused in the lateral direction And is discharged.

FIG. 12 shows the operation of the inner wing and the direction of the airflow according to the right-focus mode selection.

The inner wing 23 provided on the right side of the front panel 21 does not move during the light focus mode so that the inclined portion 22c of the right airflow guide panel 22 is guided by the inner wing 23 to the front panel 21, Of the front panel (21). Thus, since the heat-exchanged air in the heat exchanger installation chamber on the right side of the cabinet 11 is discharged on the inclined portion 22c of the right airflow guide panel 22, the airflow on the right side of the front panel 21 And is discharged.

At the same time, the inner wing 23 provided on the left side of the front panel 21 rotates, and one side of the right airflow guide panel 22 is protruded by the operation of the left inner wing 23. At this time, the airflow discharged from the left discharge port 28 is discharged on one surface of the protruding inner wing 23 and deflected toward the bent portion 22d by a coanda effect. Thus, the left side of the cabinet 11 is discharged with the airflow concentrated in the front direction.

1 is a plan view of a conventional air conditioner.

2 is a perspective view of an air conditioner according to an embodiment of the present invention.

3 is a perspective view of a front panel according to an embodiment of the present invention.

4 is a cross-sectional view of a front panel according to an embodiment of the present invention.

5A is an enlarged view of an airflow guide panel according to an embodiment of the present invention.

5B is an enlarged view of an airflow guide panel according to another embodiment of the present invention.

6 is an enlarged view of a separation panel mounted on an airflow guide panel according to an embodiment of the present invention.

7 is an operational block diagram of the air conditioner according to the embodiment of the present invention.

8 is a flow chart of an air conditioner in a center mode operation according to an embodiment of the present invention.

9 is a diagram illustrating the operation of the air conditioner according to the wide mode of the present invention.

10 is a flow chart of an air conditioner in a wide mode operation according to an embodiment of the present invention.

11 is a diagram illustrating the operation of the air conditioner according to the embodiment of the present invention.

12 is a diagram illustrating the operation of the air conditioner according to the light focus mode according to the embodiment of the present invention.

Description of the Related Art [0002]

11: cabinet 12: frame

13: rear inlet 21: front panel

22: Airflow guide panel 23: Inner wing

24: motor 25: separation panel

26: Side inlet 27: Suction panel

28:

Claims (8)

cabinet; A front panel movably installed on a front surface of the cabinet; An airflow guide panel provided on a side surface of the front panel and having an inclined portion for guiding an airflow; A discharge port formed between the cabinet and the airflow guide panel when the front panel moves; And an inner wing provided on an inclined portion of the airflow guiding panel to adjust the direction of the airflow discharged through the discharge port. The method according to claim 1, Wherein the airflow guiding panel includes an opening provided in the inclined portion, Wherein the inner wing is provided in the opening. The method according to claim 1, Wherein the airflow guide panel includes a bent portion extending from the inclined portion to a side end portion of the front panel. The method according to claim 1, Wherein the inclined portion is provided on a separating panel detachably mounted on the airflow guide panel, Wherein the separation panel includes an opening provided in the inclined portion, Wherein the inner wing is mounted to the opening. The method according to claim 1, Wherein the inner wing protrudes from an inclined portion of the airflow guide panel when the airflow is discharged to the front of the front panel. The method according to claim 1, Wherein when the air flow is discharged to the side of the front panel, the inner wing extends in the same direction as the inclined portion of the airflow guide panel. The method according to claim 1, Wherein the inner wing is provided on both side surfaces of the front panel and selectively adjusts the direction of the airflow depending on the operation mode selected by the user. The method according to claim 1, Wherein an inclined portion of the airflow guide panel is inclined from a rear side to a front side of the front panel.

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