KR101349311B1 - Air conditioner - Google Patents

Abstract

The air conditioner of the present invention includes a casing having an air inlet, a left air outlet is formed in the left side, a right air outlet is formed in the right side, an upper air outlet is formed in the upper side, the opening is formed in the front; A heat exchange unit disposed inside the casing; A space part panel disposed in the opening, the front part being opened, and the rear part being blocked, and having a space part formed therein, wherein the space part panel is formed with a lower air outlet through which air exchanged with the heat exchange unit flows into the space part, There is an advantage that the front appearance of the air conditioner can be made concise by making the inside of the lower air outlet not visible from the outside while three-dimensionally discharging air in the four directions of the upper side and the front side.

Description

Air Conditioner

The present invention relates to an air conditioner, and more particularly, to an air conditioner capable of three-dimensionally discharging air heat exchanged by a heat exchange unit.

Generally, the air conditioner is installed for the purpose of cooling and heating the room by using a heater, a cooler, a purifier, etc., or purifying the air, thereby creating a more comfortable indoor environment for humans.

The air conditioner is provided with an air intake port through which air in the room is sucked and an air discharge port through which air coordinated inside the air conditioner is discharged, and when a plurality of air discharge ports are formed in the air conditioner, air discharged through the plurality of air discharge ports is formed. Air conditioning the room in three dimensions.

KR 10-0381160 B1 (2003.04.23)

The air conditioner according to the prior art can discharge the indoor air in three dimensions through the front, left and right and top and four sides, but the inside and the heat exchanger can be seen through the front discharge port, the appearance may be dirty There is a problem.

Air conditioner according to the present invention for solving the above problems is formed air inlet, left air outlet is formed in the left side, right air outlet is formed in the right side, the upper air outlet is formed in the upper side, A casing in which an opening is formed in the portion; A space panel disposed in the opening and having a lower air outlet; An upper fan which sucks air into the air intake port and discharges the air to the left air outlet port, the right air outlet port, and the upper air outlet port; A lower fan which sucks air into the air inlet port and discharges the air to the left air outlet port, the right air outlet port, and the lower air outlet port; It includes a control unit for controlling the upper fan and the lower fan.

The control unit drives the upper fan in the concentrated discharge mode, and stops the lower fan.

The control unit drives the upper fan and the lower fan in the three-dimensional discharge mode.

The air conditioner according to the present invention has a casing formed with an air inlet, a left air outlet is formed in the left side, a right air outlet is formed in the right side, an upper air outlet is formed in the upper side, the opening is formed in the front and ; A space part panel disposed in the opening and having a lower air discharge port having a space part having an open front surface and a recessed shape; An upper fan which sucks air into the air intake port and discharges the air to the left air outlet port, the right air outlet port, and the upper air outlet port; A lower fan which sucks air into the air inlet port and discharges the air to the left air outlet port, the right air outlet port, and the lower air outlet port; An upper discharge guide which opens and closes the upper air discharge port and guides the air discharged to the upper air discharge port; A space part discharge guide for guiding the air discharged toward the space part toward the front of the space part; And a control unit controlling the upper fan, the lower fan, the upper discharge guide, and the space discharge guide.

The control unit drives the upper fan in the concentrated discharge mode, stops the lower fan, and operates the upper discharge guide and the space discharge guide in the rising mode.

A left door that opens and closes the left air discharge port; And a right door that opens and closes the right air outlet, and the control unit operates the left door and the right door in a closed mode in the concentrated discharge mode.

The controller drives the upper fan and the lower fan in the three-dimensional discharge mode, operates the upper discharge guide in the rising mode, and operates the space discharge guide in the falling mode.

A left door that opens and closes the left air discharge port; And a right door that opens and closes the right air outlet, and the control unit operates the left door and the right door in the open mode in the three-dimensional discharge mode.

According to the present invention, the inner side of the lower air discharge port can be made invisible from the outside while the air is three-dimensionally discharged in four directions of the left, right, upper and front of the casing, so that the front appearance of the air conditioner can be seen concisely. There is an advantage that discharge is possible.

In addition, the air discharged through the upper air discharge port and the air discharged through the lower air discharge port and the space portion does not mix in a position close to the air conditioner has the advantage that the air conditioner can more three-dimensional air conditioning the room.

In addition, there is an advantage that the space portion can protect the wind direction control vane while forming the receiving space of the wind direction control vane.

In addition, the discharge of the air through the lower air discharge port and the space portion can be visualized by the visualization panel, there is an advantage that the user can easily confirm the discharge of air through the lower air discharge port and the space portion.

In addition, there is an advantage that can be variously adjusted the wind direction of the air while guiding the air flowing toward the space in front of the air conditioner.

In addition, the wind direction can be adjusted in the front direction of the space portion and the front downward direction of the space portion by simple control of rotating the wind direction control vane, and there is an advantage of protecting the lower air discharge port.

 In addition, there is an advantage that the space portion can function as an accommodating portion for storing various articles during operation of the air conditioner.

In addition, there is an advantage that the air conditioner can selectively perform the three-dimensional discharge mode for discharging the air in four directions of left, right, upper, front and the concentrated discharge mode for discharging the air in one direction of the upper side.

1 is a perspective view of the three-dimensional discharge of the air conditioner according to the embodiment of the present invention,
Figure 2 is a front view of the three-dimensional discharge of the air conditioner according to the embodiment of the present invention,
Figure 3 is a longitudinal cross-sectional view of the three-dimensional discharge of the air conditioner according to the present invention,
4 is a perspective view of the concentrated air discharge of one embodiment of the air conditioner according to the present invention;
Figure 5 is a longitudinal cross-sectional view during the concentrated discharge of an embodiment of the air conditioner according to the present invention,
6 is a perspective view of the air conditioner according to one embodiment of the present invention at a standstill;
7 is an exploded perspective view of an embodiment of an air conditioner according to the present invention;
8 is an exploded perspective view showing a blower unit of an embodiment of an air conditioner according to the present invention;
9 is a control block diagram of an embodiment of an air conditioner according to the present invention.

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

1 is a perspective view of a three-dimensional discharge of an air conditioner according to the present invention, Figure 2 is a front view of a three-dimensional discharge of an air conditioner according to the present invention, Figure 3 is an air conditioner according to the present invention Example of the three-dimensional discharge when the longitudinal cross-sectional view, Figure 4 is a perspective view of the concentrated air discharge of one embodiment of the air conditioner according to the present invention, Figure 5 is a longitudinal cross-sectional view of the concentrated air discharge of one embodiment of the air conditioner according to the present invention, Figure 6 7 is an exploded perspective view of an embodiment of an air conditioner according to the present invention, and FIG. 8 is a blower unit of an embodiment of the air conditioner according to the present invention. 9 is an exploded perspective view, and FIG. 9 is a control block diagram of an embodiment of an air conditioner according to the present invention.

 The air conditioner according to the present embodiment includes a casing 2, a heat exchange unit 4, and a space panel 6.

The casing 2 forms the appearance of the air conditioner.

The casing 2 is provided with an air inlet 10 through which air in the room is sucked into the casing 2.

The casing 2 is provided with air discharge ports 12, 14, 16 through which air exchanged with the heat exchange unit 4 is discharged.

The casing 2 may have an air inlet 10 formed at a rear portion thereof.

The casing 2 has a left air outlet 12 formed at its left side, a right air outlet 14 formed at its right side, and an upper air outlet 16 formed at its upper side.

The casing 2 has an opening 18 formed in the front portion thereof. The opening 18 is a gap in which the space panel 6 may be disposed, and may be formed to be the same as the space panel 6 or larger than the space panel 6. The opening 18 may have a portion opened between the upper end and the lower end of the front portion of the casing 2.

The casing 2 may include a base 20, a cabinet 22 disposed above the base 20, and a front panel 24 disposed in front of the cabinet 22.

An air inlet 10 may be formed in the cabinet 22, and the air conditioner may suck air located at the rear of the casing 2.

The cabinet 22 may include a rear plate, a left side plate bent at the left side of the rear plate, and a right side plate bent at the right side of the rear plate, and the air inlet 10 may be formed to allow air to pass through the rear plate in the front-rear direction. Can be.

In the cabinet 22, at least one filter 23 may be disposed on the rear plate to purify the air sucked toward the air inlet 10, and the suction grill 23 ′ may be disposed on the rear plate to protect the filter 23. Can be.

The front panel 24 may have a left air outlet 12 formed at a left side thereof, and a right air outlet 14 may be formed at a right side thereof.

The front panel 24 may include a front plate, a left side plate bent at the left side of the front plate, and a right side plate bent at the right side of the front plate, and the left air outlet 12 may be formed at the left side plate, and the right side The air discharge port 14 may be formed on the right side plate.

The front panel 24 can be bent the left plate and the right plate perpendicular to the front plate, it is possible to bend the left plate and the right plate inclined with respect to the front plate.

The front panel 24 may have a rear surface of the front plate forming an air flow path, and the air heat-exchanged in the heat exchange unit 4 may be discharged and guided while being guided by the front surface of the front panel 24.

In the casing 2, an upper air outlet 16 may be formed on at least one of the cabinet 22 and the front panel 24, and an upper air outlet may be formed between the cabinet 22 and the front panel 24. It is possible for 16 to be formed.

 The casing 2 may further include a front lower panel 26 disposed in front of the base 20 and a front upper panel 28 disposed in front of the cabinet 22.

The casing 2 may have an opening 18 formed between the front lower panel 26 and the front upper panel 28.

When the casing 2 does not include the front top panel 28, an opening 18 may be formed between one of the front bottom panel 26 and the base 20 and the front panel 24.

When the casing 2 does not include the front lower panel 26, an opening 18 may be formed between one of the front upper panel 28 and the front panel 24 and the base 20.

When the casing 2 does not include the front lower panel 26 and the front upper panel 28, an opening 18 may be formed between the front panel 24 and the base 20.

The front lower panel 26 may be formed to have a height lower than that of the base 20, and may be installed to rotate or slide in front of the base 20.

The front top panel 28 may be installed to rotate or slide in front of the front panel 24.

The heat exchange unit 4 is disposed inside the casing 2.

The heat exchange unit 4 may be located in front of the air inlet 10, and may be installed to be perpendicular to a position between the left and right plates of the cabinet 22.

The space panel 6 is disposed in the opening 18 and forms part of the front side appearance of the air conditioner.

In the air conditioner, the front top panel 26, the space panel 6, and the front lower panel 28 may be arranged in the up and down order, and the space panel 6 may include the front top panel 26 and the front bottom panel ( It may be exposed to the outside in the position between 28).

The space panel 6 has a space S of which a front surface is open and recessed.

 The space panel 6 has a lower air discharge port 30 through which air exchanged with the heat exchange unit 4 flows into the space S.

Inside the casing 2, air is sucked into the air inlet 10 and passed through the heat exchange unit 4, and then the left air outlet 12, the right air outlet 14, the upper air outlet 16, and the lower air outlet Blowing unit 32 for discharging to 30 may be installed.

 The blower unit 32 includes an upper fan 33 that sucks air into the air inlet 10 and discharges the air to the left air outlet 12, the right air outlet 14, and the upper air outlet 16; A lower fan 34 may be provided to suck air into the air inlet 10 and discharge the air to the left air outlet 14, the right air outlet 16, and the lower air outlet 30.

The upper fan 33 may be driven when the air is discharged to at least one of the left air outlet 12, the right air outlet 14, and the upper air outlet 16, and the left air outlet 12 and the right air outlet ( 14) and the upper air discharge port 16 can be stopped when the air is not discharged.

The upper fan 33 is connected to the upper motor 33A installed on the front panel 24 so that the upper fan 33 is located in front of the heat exchange unit 4, and the rotary shaft is connected to the upper motor 33A, and sucks the rear air in the circumferential direction. It may be composed of an upper turbo fan 33B for blowing.

The lower fan 34 may be driven when the air is discharged to at least one of the left air outlet 14, the right air outlet 16, and the lower air outlet 30, and the left air outlet 14 and the right air outlet ( 16) and the lower air discharge port 30 can be stopped when the air is not discharged.

The lower fan 34 is a lower motor 34A installed at the front panel 24 so as to be positioned in front of the lower part of the heat exchange unit 4, and a lower shaft connected to the lower motor and sucking air from the rear to blow the air in the circumferential direction. It may consist of a turbo fan 34B.

In the casing 2, a partition guide 35 may be disposed to partition the flow path of the upper fan 33 and the flow path of the lower fan 34 and guide air. The partition guide 35 guides the air whose upper surface is flowed by the upper fan 33 and the lower surface which guides the air flowing by the lower fan 34.

The lower guide 36 may be disposed in the casing 2 to guide the air flowing toward the lower air discharge port 30. The lower guide 36 may be formed in the front panel 24. The lower guide 34 has a lower left guide 36A formed on the left side of the front panel 24, and a lower right guide formed on the right side of the front panel 24 and spaced apart from the left lower guide 36A in left and right directions ( 36B).

Between the left lower guide 36A and the right lower guide 36B, a passage 36C is formed through which air blown from the lower fan 34 passes to be discharged to the lower air discharge port 30.

The orifice which guides the air which passed the upper part of the heat exchange unit 4 to the upper fan 33 inside the casing 2, and guides the air which passed the lower part of the heat exchange unit 4 to the lower fan 34 inside. 37 may be installed.

The orifice 37 has an upper guide hole 38 formed at the rear of the upper fan 33 and a lower guide hole 39 formed at the rear of the lower fan 34.

 The casing 2 may have a left air outlet 12 extending vertically to the left of the front portion of the casing 2. The right air outlet 14 is formed to extend vertically to the right of the front portion of the casing 2. Can be.

The upper air outlet 16 has a height at an upper end thereof higher than an upper end of the left air outlet 12 and an upper end of the right air outlet 14.

  The lower air outlet 30 has a height that is lower than the lower end of the left air outlet 12 and the lower end of the right air outlet 14.

  The space panel 6 includes a front cover 60 in which the front and rear surfaces thereof are opened, the left and right surfaces and the bottom surface are blocked, and the lower air discharge port 30 is formed on the upper surface.

 The space panel 6 further includes a visualization panel 62 that blocks the rear surface of the front cover 60.

The visualization panel 62 may function as a decorative panel seen through the space S when viewed from the front of the air conditioner.

The visualization panel 62 may include a lighting device 64 having a light source that brightens the inside of the space S, and may include a rear cover 66 covering the lighting device 64.

The visualization panel 62 may include a display such as an LCD panel that allows a user to check various information when the user views the space S. FIG.

The visualization panel 62 may emphasize or visualize the discharge of the air through the lower air discharge port 30 when the air is discharged through the lower air discharge port 30, and the user may visualize the bright display panel 62. Operation of the air conditioner and the discharge of the air through the lower air discharge port 30 can be easily confirmed.

 The air conditioner further includes a space part discharge guide 70 for guiding the air discharged toward the space S in the casing 2 toward the front of the space S.

 The space discharge guide 70 operates the air direction control vane 72 through which the air discharged to the lower air discharge port 30 is guided, and the air direction control vane 72 to protrude into the space S. It further includes a wind direction control vane driving mechanism (74) for operating above the portion (S).

The space discharge guide 90 may be disposed such that the wind direction control vane 72 is rotated up and down to the inside of the space S and the upper side of the space S, and the wind direction control vane driving mechanism 74 is wind direction controlled. It is possible to rotate the vane 72 in the vertical direction.

The space discharge guide 90 may be disposed such that the wind direction control vane 72 is elevated to the upper side of the space portion S and the inside of the space S, and the wind direction control vane driving mechanism 74 is the wind direction control vane ( It is possible to elevate 72) in the vertical direction.

The space discharge guide 90 is disposed such that the wind direction control vane 72 is lifted and rotated to the upper side of the space S and the inside of the space S, and the wind direction control vane driving mechanism 74 is the wind direction control vane ( It is possible to elevate and rotate 72).

 The wind direction control vane 72 may be disposed to be rotated about a horizontal axis on the upper side of the space S, and hereinafter, the wind direction control vane 72 will be described with an example of rotating around the horizontal axis.

The wind direction adjusting vane 72 may be rotatably installed between the left lower guide 36A and the right lower guide 36B.

The wind direction control vane 72 may have a support shaft rotatably supported on one of the left lower guide 36A and the right lower guide 36B on one side of the left and right, and the wind direction control vane driving mechanism on the other side of the left and right. A connecting shaft connected to the 74 may be formed.

The wind direction control vane driving mechanism 74 includes a vane rotating motor installed inside the casing 2 to rotate the wind direction control vane 72.

The vane rotary motor is capable of directly rotating the wind direction control vane 72 by rotating the shaft directly connected to the connecting shaft of the wind direction control vane 72, and rotating the wind direction control vane 72 through a power transmission member such as a gear or a link. It is possible to rotate the wind direction control vane 72 through the power transmission member is connected to the connecting shaft.

The vane rotating motor may be installed at one of the lower left guide 36A and the lower right guide 36B.

The wind direction control vane 72 may block the lower air discharge port 30 at the upper position of the space S when the horizontal direction vane 72 is positioned horizontally or close to the horizontal, and the foreign matter or the like may be disposed through the lower air discharge port 30. ) Can be prevented from entering the inside of.

The wind direction control vane 72 does not guide air discharged vertically from the inside of the casing 2 toward the space S when it is inclined, without guiding it to the inner bottom of the space S; The discharge can be guided in the forward direction.

 That is, the air discharged from the inside of the casing 2 to the lower air discharge port 30 is converted to the forward direction by the wind direction control vane 72, and the air conditioner is located in front of the space S or in the space. Air can be discharged in the front downward direction of the portion S.

When the wind direction control vane 72 is inclined to be inclined to be horizontal, the air discharged to the lower air discharge port 30 may be discharged and guided in the front direction of the space S.

If the wind direction control vane 72 is inclined to be inclined close to the vertical, the air discharged to the lower air discharge port 30 may be discharge guided to the front lower direction of the space (S).

The wind direction control vane 72 may prevent the air discharged in the vertical direction in the downward direction from the inside of the casing 2 when flowing vertically to flow toward the visualization panel 62.

As shown in FIG. 2, the space S is formed to have a length L1 longer than the length L2 of the wind direction control vane 72.

  As shown in FIG. 5, the space S is formed to have a width D1 longer than the width D2 of the wind direction control vane 72.

 5, the height H is formed higher than the width D2 of the wind direction control vane 72.

Space portion (S) is preferably formed to a size that can accommodate a remote control or various items, even if the wind direction control vane 72 protrudes into the interior of the space (S) and the wind direction control vane 72 and the space portion It is desirable to be formed in the size which has a space | interval between inner bottom surfaces of (S).

 The air conditioner further includes an upper discharge guide 80 that opens and closes the upper air discharge port 16 and guides the air discharged to the upper air discharge port 16.

The air conditioner may include an upper discharge guide driving mechanism 84 for elevating the upper discharge guide 80.

The upper discharge guide 80 may be disposed to be elevated or rotated on the upper part of the casing 2, and may be configured to guide air blown upward in the casing 2 in the front direction of the upper discharge guide 80. do. Hereinafter, the upper discharge guide 80 will be described as being placed on the upper portion of the casing (2).

The upper discharge guide 80 has a lower surface open and a front air discharge port 82 formed at a front surface thereof, and a guide is formed in the front thereof in a forward direction in the air flow direction. After switching to the discharge through the front air outlet (82).

When the upper discharge guide 80 is lowered, the front air discharge port 82 moves to the inside of the casing 2, and the upper discharge guide 80 may shield the upper air discharge port 16 and the front discharge port 82. The front air discharge port 82 may be opened while being moved to a height higher than the casing 2 of the front air discharge port 82.

The upper discharge guide drive mechanism 84 includes a rack provided vertically in one of the casing 2 and the upper discharge guide 80, a pinion engaged with the rack, and a casing 2 and the upper discharge guide 80. It may include a motor installed in the other and rotating the pinion.

The upper discharge guide driving mechanism 84 may raise and lower the upper discharge guide 80 while the pinion is rotated when the motor is driven, and either one of the pinion and the rack is raised or lowered when the pinion is rotated.

The casing 2 may expose the left side of the front panel 24 to the outside and the right side of the front panel 24 to the outside.

The casing 2 covers the left side surface of the front panel 24 and the left side panel 86 on which the left side air discharge hole 85 is formed, which communicates with the left side air outlet 12, and the right side side of the front panel 24. It is possible to further include a right side panel 88 on which a left side air discharge hole 87 communicating with the air outlet port 14 is formed.

The air conditioner further includes a left door 90 that opens and closes the left air outlet 12, and a right door 100 that opens and closes the right air outlet 14.

The air conditioner may further include a left door driving mechanism 92 for operating the left door 90 and a right door driving mechanism 102 for operating the right door 100.

In the air conditioner, when the left side of the front panel 24 and the right side of the front panel 24 are exposed to the outside, the left door driving mechanism 92 is installed on the left side of the front panel 24 and the left door 90 is provided. It is possible to rotate or move the left door 90 by being connected to the right door driving mechanism 102 is installed on the right side of the front panel 24 and connected to the right door 100 to the right door 100 It is possible to rotate or to move.

When the air conditioner includes a left panel 86 and a right panel 88, the left door driving mechanism 92 is installed on the left panel 86 and connected to the left door 90 to connect the left door 90. It is possible to rotate or move, and the right door driving mechanism 102 is installed on the right panel 88 and connected to the right door 100 to rotate or move the right door 100.

The left door drive mechanism 92 may include a left link connected to the left door 90 and a left motor installed at the left side of the casing 2 to rotate or move the left link.

The left door drive mechanism 92 may be operated in a position where the left door 90 covers the left air outlet 12 while being blocked or in a position where the left door 90 opens while exposing the left air outlet 12. Can be.

The right door driving mechanism 102 may be installed to be symmetrical with the left door driving mechanism 92, and may be installed on a right link connected to the right door 100 and a right side of the casing 2 to rotate or move the right link. May include a right motor.

The right door driving mechanism 102 may be operated in a position where the right door 100 covers the right air outlet 14 while being blocked, or in a position where the right door 100 opens while exposing the right air outlet 14. Can be.

The air conditioner includes a left wind direction control member 94 for adjusting the wind direction of the air discharged through the left air outlet 12, and a right wind direction control member 104 for adjusting the direction of the air discharged through the right air outlet 14. ) May be included.

The left wind direction control member 94 may be rotated by a left wind direction control motor which is installed on the left side of the casing 2 and whose rotational axis is connected to the left wind direction control member 94, and the right wind direction control member 104 has a casing ( It is installed on the right side of 2) and can be rotated by the right wind direction control motor that is connected to the rotary shaft to the right wind direction control member 104.

The left wind direction control motor may be operated in conjunction with the left door drive mechanism 92. When the left door drive mechanism 92 operates the left door 90 to the left air outlet 12 in a closed position, the left wind direction control member If the left wind direction control member 94 is rotated so that 94 does not interfere with the left door 90, and the left door drive mechanism 92 operates the left door 90 to the left air outlet 12 open position, It rotates to adjust the wind direction of the air discharged to the left air discharge port 12.

The right wind direction control motor may be operated in conjunction with the right door driving mechanism 102, and when the right door driving mechanism 102 operates the right door 100 to the right air outlet 14 in a closed position, the right wind direction adjusting member If the right wind direction control member 104 is rotated so that the 104 does not interfere with the right door 100, and the right door drive mechanism 102 operates the right door 100 to the right air outlet 14 open position, It rotates to adjust the wind direction of the air discharged to the right air discharge port (14).

As shown in FIG. 9, the air conditioner includes an input unit 108 through which a user can input driving, an upper fan 33, a lower fan 34, a space discharge guide 70, and an upper discharge guide 80. ) And a control unit 110 for controlling the left door 90 and the right door 100.

The input unit 108 may be provided on at least one of the front lower panel 26 and the front upper panel 28 and may be configured as a control panel operated by a user, and may be configured as a remote manipulator for remotely operating an air conditioner. .

The input unit 108 may input a cooling operation, a clean operation, and a dehumidification operation. The control unit 110 may input one of the cooling operation, the clean operation, and the dehumidification operation through the input unit 108. ), The lower fan 34, the space discharge guide 70, the upper discharge guide 80, the left door 90, and the right door 100 may be driven in the three-dimensional discharge mode.

The input unit 108 may input a distant concentrated discharge mode (hereinafter, referred to as a concentrated discharge mode), and the controller 110 may input the concentrated discharge mode through the input unit 108 to the upper fan 33 and the lower fan 34. And the space discharge guide 70, the upper discharge guide 80, the left door 90, and the right door 100 can be driven in the concentrated discharge mode.

The input unit 108 may be input together with or separately from the input of one mode of the cooling operation, clean operation and dehumidification operation and the concentrated discharge mode, the control unit 110 is any one of the cooling operation, clean operation and dehumidification operation. When the mode is input and the concentrated discharge mode is input, the upper fan 33, the lower fan 34, the space part discharge guide 70, the upper discharge guide 80, the left door 90, and the right door 100 are provided. It is possible to drive the concentrated discharge mode, and if any one of the cooling operation, the clean operation and the dehumidification operation is input and the concentrated discharge mode is not input, the upper fan 33 and the lower fan 34 and the space part discharge guide ( 70, the upper discharge guide 80, the left door 90 and the right door 100 can be driven in the three-dimensional discharge mode.

 The controller 110 operates the upper discharge guide 80 in the ascending mode in the steric discharge mode, operates the space discharge guide 70 in the lower mode, and drives the upper fan 33 and the lower fan 34. The left door 90 and the right door 100 are operated in the open mode.

 The controller 110 operates the upper discharge guide 80 and the space discharge guide 70 in the rising mode in the concentrated discharge mode, drives the upper fan 33, the left door 90 and the right door 100. Is operated in the closed mode and the lower fan 34 is stopped.

The control unit 110 controls the upper discharge guide driving mechanism 84 such that the upper discharge guide driving mechanism 84 raises the upper discharge guide 82 to the upper side of the casing 2 in the three-dimensional discharge mode. The upper discharge guide drive mechanism 84 controls the upper discharge guide drive mechanism 84 to lower the upper discharge guide 82 into the casing 2.

The controller 110 controls the wind direction control vane driving mechanism 74 such that the wind direction control vane driving mechanism 74 lowers the wind direction control vane 72 to the inside of the space S in the three-dimensional discharge mode, and the concentrated discharge mode. The wind direction control vane driving mechanism 74 controls the wind direction control vane driving mechanism 74 to raise the wind direction control vane 72 to the upper side of the space S.

The control unit 110 controls the left door drive mechanism 92 such that the left door drive mechanism 92 rotates or moves the left door 90 to the left air outlet opening position in the three-dimensional discharge mode, and the left door in the concentrated discharge mode. The drive mechanism 92 controls the left door drive mechanism 92 to rotate or move the left door 90 to the left air outlet closed position.

The control unit 110 controls the right door driving mechanism 102 such that the right door driving mechanism 102 rotates or moves the right door 100 to the right air outlet opening position in the three-dimensional discharge mode, and the right door in the concentrated discharge mode. The drive mechanism 102 controls the right door drive mechanism 92 to rotate or move the right door 100 to the right air outlet port closed position.

 The controller 110 drives the upper fan 33 and the lower fan 34 together in the three-dimensional discharge mode, and drives only the upper fan 33 and stops the lower fan 34 in the concentrated discharge mode.

 The control unit 110 may turn on the visualization panel 62 regardless of the operation of the air conditioner, turn off the visualization panel 62 when the air conditioner is stopped, and turn on the visualization panel 62 when the air conditioner is stopped. It is possible to turn on).

The controller 110 may be turned on regardless of whether the air is discharged through the space S during operation, and is turned on when the air is discharged through the space S, and the mito of the air is passed through the space S. It is possible to be released off. That is, the controller 110 may be turned off in the concentrated discharge mode, it may be turned on in the three-dimensional discharge mode.

Hereinafter, the operation of the present invention will be described.

First, when the air conditioner is operated, the air conditioner may be operated in one of the concentrated discharge mode and the three-dimensional discharge mode.

In the three-dimensional discharge mode, the upper fan 33 and the lower fan 34 can be driven, the space discharge guide 70 is driven in the lowering mode, the upper discharge guide 80 is driven in the rising mode, the left door 90 and the right door 100 may be driven in an open mode.

In the lowering mode of the space discharge guide 70, the wind direction control vane driving mechanism 72 rotates the wind direction control vane 70 so that the wind direction control vane 70 protrudes into the space S, and adjusts the wind direction. The vane 70 has its tip lowered into the space S.

In the ascending mode of the upper discharge guide 80, the upper discharge guide 80 is raised above the casing 2, and the upper discharge guide 80 is opened on its entire surface.

In the open mode of the left door 90 and the right door 100, the left door 90 is operated in a position to open and expose the left air outlet 12, the right door 100 is a right air outlet ( And 14) to open and to expose position.

When the upper fan 33 and the lower fan 34 are driven, the air located behind the air inlet 10 of the casing 2 in the indoor air flows forward to pass through the air inlet 10 and the casing 2 ) Is sucked into the interior.

Air sucked into the casing 2 flows into the heat exchange unit 4 between the air intake 10 and the heat exchange unit 4, and exchanges heat with the heat exchange unit 4 while passing through the heat exchange unit 4. . Part of the air heat exchanged with the heat exchange unit 4 is sucked into the upper fan 33 and the other is sucked into the lower fan 34.

The air sucked into the upper fan 33 is dispersed in three directions, the left direction, the right direction, and the upper direction, and blows to the upper and upper air outlets 16 of the upper and right air outlets 14 of the left air outlet 12. do.

The air blown to the upper part of the left air discharge port 12 is discharged through the left part of the casing 2. The air blown to the upper part of the right air discharge port 14 is discharged through the right part of the casing 2. The air blown to the upper air discharge port 16 is switched to the forward direction while being guided by the upper discharge guide 70 and discharged toward the front of the upper discharge guide 70 through the front surface of the upper discharge guide 70. do.

The air sucked into the lower fan 34 is dispersed in three directions, the left direction, the right direction, and the lower direction, and is blown to the lower part of the air discharge port 12, the lower part of the right air discharge port 14, and the lower guide 34. .

Air blown to the lower part of the left air discharge port 12 is discharged through the left part of the casing 2.

Air blown to the lower part of the right air discharge port 14 is discharged through the right part of the casing 2.

The air blown to the lower guide 34 passes through the lower air discharge port 30 and the space S while being guided by the wind direction control vane 72, and then the flow direction thereof is forward by the wind direction control vane 72. Or it switches to the inclination direction toward front lower side.

That is, the air conditioner discharges the air in the room three-dimensionally in the four directions of the left, right, upper side, and front of the casing (2), at this time, the casing (2) through the lower air discharge port 30 and the space (S) The air (A) discharged to the front of the and the air (B) discharged to the front of the upper discharge guide 80 through the upper discharge guide 80 is dispersed in the room without mixing around the casing (2) and then the casing (2) and can be mixed at a long distance, the air conditioner can be more effectively air conditioning the room.

Meanwhile, in the concentrated discharge mode, the upper fan 33 may be driven, the lower fan 34 may be stopped, and the space discharge guide 70 and the upper discharge guide 80 are driven in the rising mode, and the left side The door 90 and the right door 100 may be driven in a sealed mode.

In the ascending mode of the space discharge guide 70, the wind direction control vane driving mechanism 72 has a wind direction such that the wind direction control vane 70 does not protrude into the space S but is located above the space S. The control vane 70 is rotated in the three-dimensional discharging mode, and the wind direction control vane 70 is raised to the upper side of the space S.

In the ascending mode of the upper discharge guide 80, the upper discharge guide 80 is raised above the casing 2, and the upper discharge guide 80 is opened on its entire surface.

In the closed mode of the left door 90 and the right door 100, the left door 90 operates to cover the left air outlet 12 while sealing the left air outlet 12 and the right door 100 is the right side. The air outlet 14 is closed while being operated at a position covering the air outlet 14.

When the upper fan 33 is driven and the lower fan 34 is stopped, the air located behind the air inlet 10 of the casing 2 in the indoor air flows forward to pass through the air inlet 10 and the casing. (2) is sucked into the interior.

Air sucked into the casing 2 flows into the heat exchange unit 4 between the air intake 10 and the heat exchange unit 4, and exchanges heat with the heat exchange unit 4 while passing through the heat exchange unit 4. . All of the air heat-exchanged with the heat exchange unit 4 is sucked into the upper fan 33 and is not sucked into the lower fan 34.

The air sucked into the upper fan 33 is dispersed in three directions, the left direction, the right direction, and the upper direction, and blows to the upper and upper air outlets 16 of the upper and right air outlets 14 of the left air outlet 12. do.

The air blown to the upper portion of the left air discharge port 12 is blocked in the left door 90 and blown upwards, and the air blown to the upper portion of the right air discharge port 14 is blown upward and blocked in the upward direction. do. That is, all the air blown by the upper fan 33 is blown in the upper direction, and the air blown in the upper direction is guided by the upper discharge guide 70 and the flow direction thereof is switched to the forward direction, and then the upper discharge guide. It discharges to the front of the upper discharge guide 70 through the front surface of 70.

That is, in the air conditioner, air in the room is discharged only through the upper side of the casing 2, and at this time, the air discharged through the upper discharge guide 80 has a larger amount of air to the upper discharge guide 80 than in the three-dimensional discharge mode. It is concentrated and discharged farther than in the three-dimensional discharging mode.

2: casing 4: heat exchange unit
6: space panel 10: air inlet
12: left air discharge port 14: right air discharge port
16: upper air outlet 18: opening
30: lower air discharge port 60: front cover
62: visualization panel 70: space discharge guide
72: wind direction control vane 74: wind direction control vane drive mechanism
80: upper discharge guide 90: left door
100: right door 110: control unit

Claims (8)

delete A casing having an air inlet, a left air outlet, a left air outlet, a right air outlet, an upper air outlet, and an opening formed at the front;
A space panel disposed in the opening and having a lower air outlet;
An upper fan which sucks air into the air intake port and discharges the air to the left air outlet port, the right air outlet port, and the upper air outlet port;
A lower fan which sucks air into the air inlet port and discharges the air to the left air outlet port, the right air outlet port, and the lower air outlet port;
It includes a control unit for controlling the upper fan and the lower fan,
The control unit in the concentrated discharge mode
Driving the upper fan,
An air conditioner to stop the lower fan. 3. The method of claim 2,
The control unit in the three-dimensional discharge mode
An air conditioner for driving the upper fan and the lower fan. A casing having an air inlet, a left air outlet, a left air outlet, a right air outlet, an upper air outlet, and an opening formed at the front;
A space part panel disposed in the opening and having a lower air discharge port having a space part having an open front surface and a recessed shape;
An upper fan which sucks air into the air intake port and discharges the air to the left air outlet port, the right air outlet port, and the upper air outlet port;
A lower fan which sucks air into the air inlet port and discharges the air to the left air outlet port, the right air outlet port, and the lower air outlet port;
An upper discharge guide which opens and closes the upper air discharge port and guides the air discharged to the upper air discharge port;
A wind direction control vane through which air discharged to the lower air discharge port is guided;
A wind direction control vane driving mechanism for operating the wind direction control vanes to protrude to the inside of the space portion or to the upper side of the space portion;
And a control unit for controlling the upper fan, the lower fan, the upper discharge guide, and the wind direction control vane driving mechanism. 5. The method of claim 4,
The control unit in the concentrated discharge mode
Driving the upper fan,
Stopping the lower fan,
And an air conditioner for operating the upper discharge guide and the wind direction control vane driving mechanism in an ascending mode. The method of claim 5, wherein
A left door that opens and closes the left air discharge port;
It includes a right door for opening and closing the right air outlet,
The control unit is an air conditioner for operating the left door and the right door in a closed mode in the concentrated discharge mode. The method according to claim 4 or 5,
The control unit in the three-dimensional discharge mode
Driving the upper fan and the lower fan,
Operating the upper discharge guide in an ascending mode,
And an air conditioner for operating the wind vane driving mechanism in a lowering mode. The method of claim 7, wherein
A left door that opens and closes the left air discharge port;
It includes a right door for opening and closing the right air outlet,
The control unit is an air conditioner to operate the left door and the right door in the open mode in the three-dimensional discharge mode.

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