KR20090008629A - Air conditioner - Google Patents

Abstract

An air-conditioner is provided that a part of the air discharged besides the main part blade through outlet is guided to the front of the main body. An air-conditioner comprises a case(20) in which the front side is open while being fixed to the wall of building, a bell mouth(30) which is posted at the front side of the case and is prepared so that the ventilation fan(60) be installed, a main body consisting of the front panel(40) combined in the front side of bell mouth and the front grill(50) arranged in the front panel. The inlet for the indoor air being inhaled to the inside of the main body is formed at the front panel of the main body. The filter filtering the foreign material of the air inhaled through inlet is prepared at the inner side of the front panel.

Description

Air Conditioner

1 is an exploded perspective view showing a schematic configuration of an air conditioner according to an embodiment of the present invention.

2 is a cross-sectional view showing the internal structure of an air conditioner according to an embodiment of the present invention.

FIG. 3 is an enlarged view illustrating the discharge port part in FIG. 2.

4 is an enlarged view illustrating a state in which the first and second blades are opened in FIG. 3.

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

10: body, 20: case,

30: Bell mouse, 31: discharge port,

40: front panel, 50: front grill,

60: blower fan, 70: heat exchanger,

80: first blade, 90: second blade,

100: drive device, 110: first gear,

120: second gear, 130: connecting member,

The present invention relates to an air conditioner, and more particularly, to an air conditioner provided with a dual-blade blade that operates independently of a discharge port for discharging air into a room.

In general, an air conditioner is a device for cooling or heating a room by using vaporization heat and liquefaction heat generated when a refrigerant is vaporized or liquefied in a refrigeration cycle in which a compressor, a condenser, an expansion valve, and an evaporator are connected to a refrigerant pipe to form a closed circuit. .

One type of air conditioner includes a compressor and a condenser, and a separate type air conditioner having an outdoor unit installed outdoors and an evaporator and separated into an indoor unit installed indoors.

The above-described separate type air conditioner is divided into a stand type installed on the floor again and a wall type mounted on a wall of the room. An example of a wall type air conditioner, in particular, a frame type air conditioner is disclosed in Korea Patent Laid-Open. 10-2007-0000896.

Such a frame type air conditioner is provided with a case, an inlet for sucking air into the front of the case, and a discharge hole for discharging air heat-exchanged from the heat exchanger inside the case to the inside of the case. The discharge grill is installed to guide the flow of air through the discharge port.

However, in the conventional air conditioner, the discharge of air through the discharge port is mainly made in both sides of the main body by rotating one discharge grille, so that the discharge airflow is insignificant in front of the main body, thereby reducing the haptic cooling power felt by the user.

In addition, in order to overcome the disadvantages of the side discharge method, when additionally installing a blade for guiding a portion of the air discharged to the discharge port to the front of the main body to install a separate drive motor for driving the newly added blade of the product There was a problem of rising production costs.

The present invention is to solve such a problem, an object of the present invention is to provide an air conditioner having an auxiliary blade to guide a portion of the air discharged through the discharge port in addition to the main blade to the front of the main body.

Another object of the present invention is to provide an air conditioner in which a main blade and an auxiliary blade are operated by one drive motor.

An air conditioner according to the present invention for achieving the above object, the main blade is provided with at least one discharge port, the first blade rotatably installed in the discharge port, and the second blade rotatably installed inside the first blade and And a driving device for driving the first and second blades such that the rotation angle of the second blade is smaller than the first blade.

The driving device may include a driving motor generating a rotational force, a second gear connected to the rotation shaft of the driving motor and the first blade, rotating in engagement with the first gear and the first gear, and connected to the rotation shaft of the second blade. Include.

The driving device further includes a connecting member coupled between the first gear and the rotation axis of the second gear so that the second gear idle movement about the rotation axis of the first gear.

The rotational speed of the second gear is characterized in that a predetermined reduction ratio is set between the first gear and the second gear so that the rotational speed is reduced compared to the rotational speed of the first gear.

       The drive motor is characterized in that the step motor capable of forward and reverse rotation.

Coupling holes are respectively provided at the centers of the rotation shafts of the first gear and the second gear, and the connecting member has an end thereof coupled to the coupling hole.

The second blade is characterized in that the area of the guide surface for guiding the air discharge is smaller than the first blade.

The air conditioner according to the present invention includes a main body provided with at least one discharge port, a first blade rotatably installed at the discharge port, a second blade rotatably installed inside the first blade, and the first blade is provided. Driving the opening and closing of the discharge port and causing the second blade to rotate in a direction opposite to the first blade during the opening operation of the first blade, and at the same time, the rotation axis of the second blade forms a circular trajectory. It includes a drive device for circular motion in the same direction as the rotation direction.

The driving device may include a driving motor generating a rotational force, a second gear connected to the rotation shaft of the driving motor and the first blade, rotating in engagement with the first gear and the first gear, and connected to the rotation shaft of the second blade. And a connecting member coupled between the first gear and the rotational axis of the second gear such that the second gear revolves about the rotational axis of the first gear.

The rotational speed of the second gear is characterized in that a predetermined reduction ratio is set between the first gear and the second gear so that the rotational speed is reduced compared to the rotational speed of the first gear.

The drive motor is a step motor capable of forward and reverse rotation, the coupling hole is provided in the center of the rotation axis of the first gear and the second gear, respectively, characterized in that the end of the connecting member is coupled to the coupling hole, The second blade is characterized in that the area of the guide surface for guiding the air discharge is smaller than the first blade.

Hereinafter, an air conditioner according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing a schematic configuration of an air conditioner according to an embodiment of the present invention, Figure 2 is a cross-sectional view showing the internal structure of the air conditioner according to an embodiment of the present invention.

1 and 2, an air conditioner according to an embodiment of the present invention is a frame type air conditioner, which is fixed to a wall of a building and whose front side is open, and the open case 20. It is disposed on the front surface of the bell mouse 30 and the blower fan 60 to be installed, the front panel 40 coupled to the front of the bell mouse 30 and the front panel 40 is disposed on the front It includes a main body 10 made of a front grill 50 that is opened and closed from the front panel 40.

The front panel 40 of the main body 10 as described above is formed with a suction port 41 for sucking the indoor air into the interior of the main body 10, the suction port 41 is formed inside the front panel 40. A filter (not shown) is provided for filtering foreign matters from the air sucked through.

The heat exchanger 70 is provided inside the main body 10, that is, between the front panel 40 and the case 20. Such a heat exchanger 70 is formed long in the transverse direction to heat exchange the air sucked through the inlet (41).

A blower is provided between the heat exchanger 70 and the case 20 to discharge the air heat exchanged through the heat exchanger 70 through each discharge port 21. Such a blower includes a blower fan 60 installed in the case 20 and a driving motor (not shown) connected to the blower fan 60 to drive the blower fan 60.

The bell mouth 30 of the main body 10 is provided with a discharge port 31 for discharging the heat-exchanged air into the room. At this time, the discharge port 31 is formed long in both sides of the case 20 in the longitudinal direction of the case 20.

A first blade 80 and a second blade 90 for guiding the discharged air are rotatably installed in the discharge port 31, and at one end of the first blade 80 and the second blade 90, In order to drive the first blade 80 and the second blade 90, a driving device 100 including a driving motor 110, a first gear 120, and a second gear 130 is provided.

FIG. 3 is an enlarged view illustrating the discharge port part in FIG. 2.

Referring to FIG. 3, the discharge hole 31 is provided with the above-described first blade 80 and the second blade 90, and a driving device for driving the first blade 80 and the second blade 90. 100 is provided.

The drive device 100 includes a drive motor 110 for generating a rotational force, the drive motor 100 is provided as a step motor to enable forward and reverse rotation, and the first blade (80) on the rotation axis of the drive motor 100 The first blade 80 and the first gear 120 rotate at the same time when the rotation shaft and the first gear 120 is connected to operate the drive motor 110.

In addition, the second gear 130 is meshed with the first gear 120 to rotate and receive power, thereby driving the second blade 90. In this case, a connection member 140 coupled between the two rotation shafts 120a and 130a of the first gear 120 and the second gear 130 to act as a binding force is installed.

Coupling holes 120b and 130b are provided in the rotation shafts 120a and 130a of the first gear 120 and the second gear 130, respectively, and both ends of the connecting member 140 are in the axial direction of the rotation shaft. It is bent along and connected between the rotating shaft (120a) (130a) in a way that the bent both ends of the connecting member 140 is inserted into the coupling holes (120b, 130b).

4 is an enlarged view illustrating a state in which the first and second blades are opened in FIG. 3.

Referring to FIG. 4, when the driving motor 110 is operated to open the discharge port 31, the first blade 80 rotates counterclockwise to open the discharge port 31, and at the same time, the first gear 120. Rotate counterclockwise. If the first gear 120 is a driving gear, the second gear 130 is a driven gear of the first gear 120 and rotates in a clockwise direction opposite to the rotation direction of the first gear 120 to form the second blade 90. ) Rotates opposite to the rotation direction of the first blade 80.

At this time, the second gear 130 is engaged with the first gear 120 by the connecting member 140 installed between the rotational shaft (120a, 130a) of the first gear 120 and the second gear (130). At the same time, orbital movement around the first gear (120).

That is, the distance between the rotation shafts 120a and 130a is maintained by the connection member 140, and the center of the rotation shaft 130a of the second gear 130 is the distance from the rotation shaft 120a of the first gear 120. It moves in a counterclockwise direction, forming a circular trajectory of radius.

Both sides of the upper and lower sides of the bell mouse 30 for supporting the first and second blades 80 and 90 to guide the movement of the rotation shaft 130a of the second gear 130 to form a circular trajectory. An arc-shaped guide rail 30a may be provided.

The second blade 90 has a rotational direction opposite to that of the first blade 80, but the rotating shaft 130a forms a circular trajectory as described above and is counterclockwise in the same manner as the rotational direction of the first blade 80. As the first blade 80 is opened, the overall operation of the second blade 90 rotates in the direction of opening the discharge ports 31 together, but the rotation angle is smaller than that of the first blade 80. The discharge airflow is guided forward compared to the first blade 80.

At this time, since the second blade 90 is located inside the first blade 80, the discharge of air is primarily guided by the second blade 90, and the remaining discharge that is not guided by the second blade 90 is discharged. Air is guided through the first blade 80. Accordingly, the amount of air to be guided forward is determined according to the area occupied by the second blade 90 in the discharge port 31. The first blade 80 covers the entire discharge port 31 to cover the discharge port 31. The length and / or width of the second blade 90 is smaller than that of the first blade 80 so that the area of the guide surface is smaller than that of the first blade 80. It is preferably formed.

In addition, the rotational speed of the first blade 80 is determined according to the rotation speed of the drive motor 110, but the rotational speed of the second blade 90 is based on the gear ratio between the first gear 120 and the second gear 130. The second blade 90 mainly guides the discharge air to the front of the main body 10, and should always be located inside the first blade 80 while maintaining a predetermined distance from the first blade 80. Preferably, the gear ratio of the second gear 130 is set to decelerately rotate relative to the first gear 120.

As shown in FIG. 3, the operation of closing the discharge port 31 by the first blade 80 as shown in FIG. 3 in the state in which the first blade 80 and the second blade 90 are opened is performed by the above-described opening operation. In reverse order, first, when the driving motor 110 is controlled by the controller (not shown) so that reverse rotation that is opposite to the operation occurs, the first gear 120 and the second gear 130 are clockwise and The first blade 80 closes the discharge port 31 and rotates counterclockwise, and the second blade 90 is accommodated in the main body 10 inside the first blade 80.

As described above, in the air conditioner according to the present invention, a second blade having a small rotation angle is installed inside the first blade for opening and closing the discharge port, thereby guiding a part of the air discharged through the discharge port toward the front of the main body to diversify the discharge direction. Through the cooling and heating the room quickly and the user has the effect of improving the cooling and heating power.

In addition, since the first blade and the second blade are driven by a drive device including a drive motor and a gear for transmitting power, there is no need to install an additional drive motor, thereby reducing the production cost of the product.

Claims (13)

A main body provided with at least one discharge port, a first blade rotatably installed at the discharge port, a second blade rotatably installed inside the first blade, and driving the first and second blades, wherein the second blade is driven; An air conditioner comprising a drive device to make the rotation angle of the blade smaller than the first blade. The rotating shaft of claim 1, wherein the driving device is connected to a driving motor generating a rotational force, the driving motor and a rotating shaft of the first blade, and engaged with the first gear and the first gear, and the rotating shaft of the second blade. An air conditioner comprising a second gear connected to the. The air conditioner of claim 2, wherein the driving device further comprises a connecting member coupled between the first and second gear shafts so that the second gear revolves about the rotation shaft of the first gear. .  The air conditioner of claim 2, wherein a predetermined reduction ratio is set between the first gear and the second gear such that the rotation speed of the second gear is reduced compared to the rotation speed of the first gear.       The air conditioner of claim 2, wherein the driving motor is a step motor capable of forward and reverse rotation. The air conditioner of claim 3, wherein a coupling hole is provided at a center of a rotation shaft of the first gear and the second gear, and an end of the connection member is coupled to the coupling hole. The air conditioner of claim 1, wherein an area of a guide surface for guiding air discharge is smaller than that of the first blade. A main body provided with at least one discharge port, a first blade rotatably installed at the discharge port, a second blade rotatably installed inside the first blade, and the first blade is driven to open and close the discharge port, and During the opening operation of the first blade, the second blade rotates in the opposite direction to the first blade, and at the same time, the rotation axis of the second blade forms a circular trajectory and is circular in the same direction as the rotation direction of the first blade. An air conditioner comprising a drive to make. According to claim 8, The drive device is a drive motor for generating a rotational force, the drive motor and the rotating shaft of the first blade is connected to the first gear, the first gear and the first gear rotates in rotation and the rotating shaft of the second blade And a connection member coupled between the first gear and the rotation shaft of the second gear such that the second gear is connected to the second gear, and the second gear revolves about the rotation axis of the first gear.  The air conditioner according to claim 10, wherein a predetermined reduction ratio is set between the first gear and the second gear so that the rotation speed of the second gear is reduced compared to the rotation speed of the first gear.       10. The air conditioner of claim 9, wherein the drive motor is a step motor capable of forward and reverse rotation. 10. The air conditioner of claim 9, wherein coupling holes are provided at centers of the rotation shafts of the first gear and the second gear, respectively, and ends of the connection members are coupled to the coupling holes. The air conditioner of claim 8, wherein an area of a guide surface for guiding air discharge is smaller than that of the first blade.

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