KR100725744B1 - Air conditioner - Google Patents

Abstract

An air conditioner is provided to prevent direct contact of chilled air with a front panel by improved outlet blades, thereby preventing the generation of condensed water on the front panel. An air conditioner includes first outlet blade units(30) mounted at an outlet rotatively for opening or closing the outlet, and second outlet blade units(40) rotatively mounted in front of the first outlet blades for controlling direction of discharged wind together with the first outlet blades. The second outlet blade units have wind control blades(41) for the wind direction control, and blocking blades(42) positioned in the wind direction control blades for preventing chilled air guided in the wind direction control blades from contacting a front panel(23) directly, wherein the blocking blades are formed of insulating materials.

Description

Air Conditioner {AIR CONDITIONER}

1 is a cross-sectional view showing a conventional air conditioner having a discharge port formed on the side of the main body.

Figure 2 is a perspective view showing the appearance of the air conditioner according to the present invention.

Figure 3 is a perspective view showing the configuration of the panel assembly and the discharge blades coupled to the panel assembly in the air conditioner according to the present invention.

4 is a plan view showing the discharge blade is coupled to the panel assembly.

5 is a view for explaining the operation of the air conditioner according to the present invention.

      * Description of symbols on the main parts of the drawings *

      10: main body 15: discharge port

      20 panel assembly 23 front panel

      23a: side of the front panel 30: first discharge blade

      40: second discharge blade 41: wind direction control blade

      42: blocking wings

      BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly, to an air conditioner that is improved to prevent condensed water from forming on a structure around a discharge port by cold air discharged from the discharge port.

      In general, the air conditioner is a device for controlling the temperature or humidity of the air by using the movement of heat generated during the evaporation and condensation of the refrigerant. The air conditioner is provided with a discharge port for discharging the air after the heat exchange process back to the room, the discharge port is formed on the front of the main body in the conventional stand-type air conditioner. However, in recent years, in order to improve the appearance of the air conditioner and to improve the cooling / heating performance by discharging air through various directions, an air conditioner having a discharge port is provided on the side of the main body in general.

      1 is a plan sectional view showing a conventional air conditioner in which a discharge port is formed on a side of a main body. As shown in FIG. 1, the conventional boil control unit includes a main body 2 having discharge ports 1 formed at both sides, an indoor heat exchanger 3 for cooling indoor air, and a blower 4 for forced circulation of indoor air. It is configured to include). The discharge blade 5 is rotatably installed in the discharge port 1 so as to adjust the wind direction, while the front panel 6 is installed at the front part of the main body 2 to finish the front appearance of the air conditioner in a beautiful manner. do.

      However, in the conventional air conditioner as described above, when the air cooled through the indoor heat exchanger 3 is discharged to the room, the cold air directly contacts the side surface 6a of the front panel 6 located in front of the discharge port 1. Therefore, there is a problem that condensed water forms on the front panel 6 due to the temperature difference between the front panel 6 and the discharged cold air. In particular, this problem is further exacerbated when a metal material such as aluminum is used as the front panel 6.

      SUMMARY OF THE INVENTION The present invention has been made to solve such a problem, and an object of the present invention is to provide an air conditioner capable of preventing condensate from forming on the front panel located around the discharge port by cold air discharged from the discharge port.

An air conditioner according to the present invention for achieving the above object is a first air conditioner having a discharge port formed on the side and the front panel located in front of the discharge port, the first air outlet is installed so as to be rotatable in the discharge port And a second discharge blade rotatably installed in front of the first discharge blade so as to adjust the wind direction of the discharge air together with the discharge blade; and the first discharge blade. Wind direction control blades for, and characterized in that it comprises a blocking blade which is located inside the wind direction control wing to prevent the cold air guided to the inside of the wind direction control wing to directly contact the front panel. At this time, the blocking blade is preferably formed of a heat insulating material.

In addition, the air conditioner according to the present invention, the air conditioner having a discharge port formed on the side, and the front panel located in front of the discharge port, the wind direction control blades installed to be rotatable in the discharge port to adjust the direction of the discharge cold air; and A blocking blade formed integrally with the wind direction control vane and covering a side surface of the front panel when the cold air guided by the wind direction control vane is discharged toward the front panel to prevent cold air from directly contacting the front panel; Characterized in that it comprises a.

An outer side of the wind direction control vane may be provided with a discharge blade for controlling the direction of the cold air passing through the outer side of the wind direction control vane while opening and closing the discharge port.

      Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail. Figure 2 is a perspective view showing the appearance of the air conditioner according to the present invention, Figure 3 is a perspective view showing the configuration of the panel assembly and the discharge blades coupled to the panel assembly in the air conditioner according to the present invention, Figure 4 A plan cross-sectional view showing the discharge blade coupled to the panel assembly.

      As shown in FIG. 2, the air conditioner according to the present invention includes a base 11, a cabinet 12, a panel assembly 20, and a lower panel 13 to form an overall appearance of the air conditioner. 10).

      The lower panel 13 and the panel assembly 20 are respectively coupled to the front lower part and the upper part of the cabinet 12 to form the front and side surfaces of the air conditioner. Both sides of the lower panel 13 are formed with inlets 14 for sucking indoor air, and both sides of the panel assembly 20 are provided with discharge holes 15 for discharging the air after heat exchange.

      On the other hand, although not shown in Figure 2, the inside of the main body 10 is provided with a blower for the circulation of indoor air and an indoor heat exchanger for cooling or heating the indoor air.

      As shown in FIGS. 3 and 4, the panel assembly 20 includes a first panel 21 and a second panel 22 coupled to the first panel 21 in front of the first panel 21. The front panel 23 is coupled to the second panel 22 in front of the second panel 22 to form a front appearance of the air conditioner together with the lower panel 13.

      Openings 21a are provided at both sides of the first panel 21, and both sides of the second panel 22 are open, and discharge holes 15 are formed at both sides of the panel assembly 20. The front panel 23 is disposed in front of the discharge port 15, and both sides 23a of the front panel 23 are adjacent to the discharge port 15 formed at both sides of the panel assembly 20.

      The discharge port 15 is provided with a first discharge blade 30 which forms a side appearance of the air conditioner in the closed state, rotates in the open state, and adjusts the wind direction of the discharged air. In addition, the second discharge blade 40 is rotatably installed at the front inner side of the first discharge blade 30 so as to adjust the wind direction of the discharged air together with the first discharge blade 30. The wind direction can be adjusted in various forms by appropriately combining the rotational operations of the first discharge blade 30 and the second discharge blade 40.

      In particular, the second discharge blade 40 installed adjacent to the front panel 23 has a wind direction control wing 41 for adjusting the wind direction, a blocking wing 42 located inside the wind direction control wing 41, It is configured to include a support 43 for connecting and supporting the wind direction control blade 41 and the blocking blade 42. The blocking blade 42 is positioned between the wind direction control blade 41 and the front panel 23 when the second discharge blade 40 is rotated forward to cover the side 23a of the front panel 23. Therefore, since the cold air guided to the inside of the wind direction control blade 41 does not directly contact the side surface 23a of the front panel 23, the cold air reaches the side surface 23a of the front panel 23 to prevent dew from forming. can do. At this time, if the blocking blade 42 is formed of a heat insulating material, it is possible to more reliably prevent heat transfer through the blocking blade 42 can maximize the condensation prevention effect as described above.

      3, two step motors 51 for driving the first discharge blade 30 and the second discharge blade 40 on the upper side of the first discharge blade 30 and the second discharge blade 40, respectively. 52) is installed. To this end, motor mounting grooves 53 and 54 for mounting the step motors 51 and 52 are provided at both sides of the upper surface 21b of the first panel 21 and both sides of the upper surface 22b of the second panel 22. The motor mounting grooves 53 and 54 are covered by one cover 55 to finish the exterior.

The rotating shaft 31 provided at the upper end of the first discharge blade 30 is connected to the step motor 51 through the upper surface 21b of the first panel 21 and is connected to the upper end of the second discharge blade 40. The provided rotary shaft 44 penetrates through the upper surface 22b of the second panel 22 and is connected to the step motor 52.

In addition, a hinge shaft (not shown) provided at the lower end of the first discharge blade 30 and a hinge axis (not shown) provided at the lower end of the second discharge blade 40 are provided at the bottom surface 21c of the first panel 21. It is coupled to two hinge grooves 21d and 21e, respectively.

      Hereinafter, the operation of the air conditioner according to the gist of the present invention will be described with reference to FIGS. 1 and 5. 5 is a view for explaining the operation of the air conditioner according to the present invention.

      When power is supplied to the air conditioner to operate the blower inside the main body 10, indoor air is sucked into the main body 10 through the inlet 14, and the air sucked into the main body 10 is exchanged with the indoor heat. Cooled while passing through the air is discharged into the room through the discharge port (15). At this time, the air discharged to the room is controlled in the wind direction by the first discharge blade 30 and the second discharge blade 40 installed in the panel assembly 20.

      When the second discharge blade 40 is positioned as shown in the left side of FIG. 5A, the discharge cold air is discharged by the wind direction control blade 41 and the blocking blade 42 in the outward direction at an angle. In such a case, cold air is also communicated between the blocking blade 42 and the front panel 23 so that cold air may directly contact the side surface 23a of the front panel 23, but the discharge direction of the cold air itself is the front panel. Cold air hardly touches the front panel 23 because the side surface 23a of 23 is biased outward.

      In addition, when the second discharge blade 40 is positioned as shown in the right side of FIG. 5A, the discharge cold air is discharged toward the front side, but the blocking blade 42 blocks the side surface 23a of the front panel 23 so that the cold air is prevented from the front panel ( Since it does not directly contact 23, dew is prevented from forming on the front panel 23.

      On the other hand, when the operation of the air conditioner is finished, as shown in FIG. 5B, the second discharge blade 40 is first rotated to the inside of the discharge port 15, and then the first discharge blade 30 is rotated to the inside to discharge the discharge port 15. Will be closed.

      As described above, the present invention has an effect that can prevent the condensed water formed on the front panel by having a discharge blade improved to prevent the cold air discharged to the front directly contact the front panel.

Claims (5)

In the air conditioner having a discharge port formed on the side, and the front panel located in front of the discharge port, A first discharge blade rotatably installed at the discharge port to open and close the discharge port; and a second discharge blade rotatably installed at the front of the first discharge blade to control the wind direction of the discharge air together with the first discharge blade; Including a blade; The second discharging blade has a wind direction control wing for adjusting the wind direction, and a blocking wing located inside the wind direction control wing to prevent cold air guided into the wind direction control wing from directly contacting the front panel. Air conditioner comprising a. The method of claim 1, The air conditioner, characterized in that the blocking blade is formed of a heat insulating material. In the air conditioner having a discharge port formed on the side, and the front panel located in front of the discharge port, A wind direction control vane installed at the discharge port to be rotatable to adjust a direction of discharge cold air; and A blocking blade formed integrally with the wind direction control vane and covering the side surface of the front panel when the cold air guided by the wind direction control vane is discharged toward the front panel to prevent cold air from directly contacting the front panel; Air conditioner comprising a. The method of claim 3, And an ejection blade rotatably installed at an outer side of the wind direction control vane to control the direction of cold air passing through the outer side of the wind direction control vane. The method of claim 3, The air conditioner, characterized in that the blocking blade is formed of a heat insulating material.

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