KR101899659B1 - Air conditioner - Google Patents

Abstract

The present embodiment has a casing having an air inlet formed therein and an air outlet formed on the front thereof; An air conditioning unit disposed inside the casing; An air blower disposed between the air conditioning unit and the air outlet, the air outlet being spaced apart from the air outlet; Left and right air guides arranged to rotate about a vertical central axis and spaced laterally; And a driving mechanism that rotates the left and right air guides. The ejecting portion includes a left plate close to the left air guide and a right plate close to the right air guide. The vertical plate includes a vertical center axis of the left air guide, The width between the shafts is formed to be larger than the width between the left side plate and the right side plate and can be guided to the left and right air guides while minimizing the flow resistance of the air blown by the discharge portions. There is an advantage that the forward convergent airflow and the forward dispersion airflow can be selected with a minimum number of components.

Description

Air conditioner

The present invention relates to an air conditioner, and more particularly, to an air conditioner having a blower.

The air conditioner sucks indoor air and changes the temperature, humidity, cleanliness, and the like, and then discharges the air into the room again.

The air conditioner may include an air conditioning unit such as a heat exchanger that heats or cools the air, and a blower that sucks air in the room and blows air to the heat exchanger.

The air conditioner may be provided with an air inlet for sucking indoor air and an air outlet for discharging the heat exchanged air with the heat exchanger.

When the blower is driven, the air in the room can be sucked into the air conditioner through the air intake port, flowed to the heat exchanger by the blower and heat-exchanged with the heat exchanger, and the air exchanged with the heat exchanger is air- And can be discharged to the outside of the machine.

The air conditioner may further include a plurality of louvers as a wind direction adjusting member capable of switching the discharge direction of the air discharged to the air outlet, and the air blown from the blower may be supplied to one end of the plurality of louvers facing the inside of the air conditioner After being hit, it can be distributed on both sides of the louver, and can be discharged to the outside through a gap between multiple louvers.

KR 10-2009-0038555 A (Released on April 21, 2009) KR 10-2014-0004090 A (published Jan. 10, 2014)

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air conditioner capable of selecting a forward convergent air flow and a forward airflow distribution while minimizing the air flow resistance.

According to an embodiment of the present invention, there is provided an air conditioner comprising: a casing having an air inlet formed therein and having an air outlet formed on the front thereof; An air conditioning unit disposed inside the casing; An air blower disposed between the air conditioning unit and the air outlet, the air outlet being spaced apart from the air outlet; Left and right air guides arranged to rotate about a vertical central axis and spaced laterally; And a driving mechanism that rotates the left and right air guides, and the discharging portion includes a left plate close to the left air guide and a right plate close to the right air guide. The distance between the vertical center axis of the left air guide and the vertical center axis of the right air guide is longer than the width between the left plate and the right plate.

The discharge portion is arranged to face the air discharge port at the rear of the air discharge port, and the width between the left and right discharge plates may be shorter than the width of the air discharge port.

The rear end of the left air guide may be positioned on the left side of the left plate and the rear end of the right air guide may be positioned on the right side of the right plate.

The blower may include a left blowing part at least a part of which overlaps with the left air guide in the front-rear direction, and a right blowing part at least a part of which overlaps with the right air guide in the front-rear direction.

The blower may include a connecting portion connecting the right side plate of the left side convex portion and the left side plate of the right convex portion.

Each of the left and right air guides may include a rotation center portion having a vertical center axis and a nose portion extending from the rotation center portion and decreasing in width in the left and right direction as the distance from the vertical center axis is increased.

The outer surface of the rotation center portion may have a first curved surface whose arc shape is a cross-sectional shape.

The nose portion may include a first plane extending from one end of the first curved surface and facing the other air guide, and a second plane located opposite to the first plane.

The nose portion may include a second curved surface connecting the tip of the first plane and the tip of the second plane.

The second curved surface may be smaller than the first curved surface.

A left outer guide having a first gap formed between a first curved surface of the left air guide and a second plane of the left air guide and a left air guide; And a right outer guide having a second gap formed between the first curved surface of the right air guide and the second plane of the right air guide and the right air guide.

Each of the left outer guide and the right outer guide may include a rear guide portion surrounding the first curved surface and a side guide portion extending from the rear guide portion and facing the second plane.

The left and right air guides may have planar regions, each of which faces each other in the left-right direction.

The driving mechanism may be driven in a first mode in which the left and right air guides are rotated in line with or coincident with the first extension line extending in the plane region and the second extension line extending from the left side plate. The drive mechanism may be driven in a second mode in which the first extension line is inclined at an obtuse angle to the second extension line so as to rotate the left and right air guides.

The driving mechanism can separate the front ends of the left and right air guides in the first mode to the first distance and in the second mode to separate the front ends of the left and right air guides to the second distance larger than the first distance .

Each of the left and right air guides has a planar area in which each of the surfaces facing each other in the left-right direction has a curved surface area connected to the rear end of the planar area.

The driving mechanism may be driven in a first mode in which the left and right air guides are rotated in line with or coincident with the first extension line extending in the plane region and the second extension line extending from the left side plate. The drive mechanism may be driven in a second mode in which the first extension line is inclined at an obtuse angle to the second extension line and the left and right air guides are rotated so that the curved surface areas of the left and right air guides face each other in the left and right direction.

According to the embodiment of the present invention, the flow resistance of the air discharged to the discharge portion can be minimized and guided to the left and right air guides, and the simple structure of the left and right air guides and the minimum number of parts, There is an advantage that airflow can be selected.

Further, there is an advantage that the blower and the left and right air guides can be arranged compactly.

1 is a front view of an air conditioner according to an embodiment of the present invention;
FIG. 2 is an exploded perspective view of an air conditioner according to an embodiment of the present invention, FIG.
FIG. 3 is a cross-sectional view of the air conditioner according to the embodiment of the present invention,
4 is an enlarged sectional view taken along the line A in Fig. 3,
FIG. 5 is a sectional view of the air conditioner according to the embodiment of the present invention,
6 is an enlarged cross-sectional view of part B of Fig.

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

1 is a front view of an air conditioner according to an embodiment of the present invention. FIG. 2 is an exploded perspective view of an air conditioner according to an embodiment of the present invention. FIG. 3 is a cross- Fig. 5 is an enlarged cross-sectional view of the air conditioner according to the embodiment of the present invention, and Fig. 5 is a cross- 6 is an enlarged cross-sectional view of part B in Fig.

The air conditioner of the present embodiment includes a casing 1, an air conditioning unit 2, a blower 3, a left air guide 4, a right air guide 5 and a drive mechanism 6 (7) do.

The casing (1) can form an appearance of the air conditioner. The casing 1 may be provided with an air inlet 11 and an air outlet 12. The air outlet 12 may be formed on the front surface of the casing 1. The air inlet 11 may be formed on the front surface of the casing 1. The air inlet 11 may be formed on the side surface or the back surface of the casing 1. [

The casing 1 may be composed of a combination of a plurality of members. The casing 1 may include a base 13 and an air intake body 14 disposed on the upper side of the base 13. The air intake body 14 may be provided with a suction grill 15. The casing (1) may be provided with a discharge grill (16) disposed in the air discharge opening (12).

The casing 1 is capable of forming the left side, right side and rear side appearance of the casing 1 with the air intake body 14. In this case, the air intake body 14 may include a left side plate 17, a right side plate 18, and a back plate 19 connecting the left side plate 17 and the right side plate 18. At least one of the left side plate 17 and the right side plate 18 can be formed by being bent at the back plate 19 and can be fastened to the back plate 19 with a fastening part such as a screw or a hook.

The air intake body 14 may further include a front left side plate 21 bent at the front end of the left side plate 17 and a front right side plate 22 bent at the front end of the right side plate 18, An air outlet 12 may be formed between the plate 21 and the front right plate 22.

The discharge grill 16 may be disposed between the front left plate 21 and the front right plate 22.

The casing 1 may further include an upper plate 23 disposed on the upper side of the air intake body 14.

The air conditioning unit (2) can be disposed inside the casing (1). The air conditioning unit (2) can air-conditioned the air sucked into the air inlet (11).

The air conditioning unit 2 can change at least one of temperature, humidity and cleanliness of the air.

The air conditioning unit (2) can include a heat exchanger for exchanging heat between the refrigerant and the air. The air conditioning unit 2 is capable of including a purifying filter for purifying the air. The air conditioning unit 2 can be constituted by a heat exchanger for reducing the humidity of the air. The air conditioning unit 2 may be a humidifier means such as a humidifying filter for supplying humidity to the air.

The blower 3 can be positioned between the air conditioning unit 2 and the air outlet 12 in the air flow direction and sucks air in the room through the air inlet 11 and passes through the air conditioning unit 2, (12).

At least a portion of the blower 3 may be positioned behind the air outlet 12. At least a part of the blower 3 may overlap with the air outlet 12 in the longitudinal direction.

The blower 3 may include a housing 31 for guiding air.

The housing 31 may have a suction port 32 through which air is sucked and a discharge port 33 through which air is blown to the outside of the blower 3.

The blower 3 may be disposed between the air conditioning unit 2 and the air discharge opening 12 and the discharge portion 33 may be spaced apart from the air discharge opening 12. [

The blower 3 may be configured to discharge air in the forward direction. The discharge portion 33 may be provided in the front portion of the blower 3. The discharge portion 33 may be spaced apart from the air discharge port 12 in the back and forth direction.

The suction port 32 may be formed on the front surface of the blower 3. The suction port 32 may be formed on at least one of a left side surface, a right side surface, and an upper surface and a lower surface of the blower 3.

The discharging portion 33 includes a left side plate 34 close to the left air guide 4 and a right side plate 35 close to the right air guide 5. The air discharged through the discharge portion 33 flows along the right side surface of the left side plate 34 and the left side surface of the right side plate 35. The left side plate 34 and the right side plate 35 can be spaced apart in the left- And can be discharged in the forward direction of the discharging portion 33 as shown in FIG.

The discharging portion 33 includes an upper plate 36 connecting the upper end of the left plate 34 and an upper end of the right plate 35 and a lower plate 37 connecting the lower end of the left plate 34 and the lower end of the right plate 35, As shown in FIG.

The discharge portion 33 may be formed in a duct shape capable of passing air in the front-rear direction. The discharge portion 33 may be long in the vertical direction and short in the lateral direction. The discharging portion 33 can form a long concentrated flow in the up-and-down direction. The distance between the left side plate 34 and the right side plate 35 may be longer than the distance between the upper plate 36 and the upper plate 37. [ An air discharge passage through which air passes can be formed in the discharge portion 33.

The left side plate 34 of the discharging portion 33 and the right side plate 35 of the discharging portion 33 may be arranged in parallel in the air conditioner. The left side plate 34 of the discharge portion 33 and the right side plate 35 of the discharge portion 33 may be arranged long in the front-rear direction.

The discharging portion 33 may be disposed behind the air discharging port 12 so as to face the air discharging port 12. [ The opening area of the discharge portion 33 may be smaller than the opening area of the air discharge port 12. [ The width L1 between the left side plate 34 of the discharge portion 33 and the right side plate 35 of the discharge portion 33 may be shorter than the width L2 of the air discharge port 12. [

The air blown in the forward direction by the discharge portion 33 can be discharged in the forward direction while the flow direction is not bent perpendicularly, but is straightened in the forward direction or spread in the lateral direction.

The blower 3 may include a fan (38 or blower) such as a cross flow fan or a centrifugal fan. When the blower 3 includes a cross flow fan, the suction port 32 may be provided on the back surface of the blower 3, and the discharge portion 33 may be provided on the front surface of the blower 3.

When the blower 3 includes a centrifugal fan, the suction port 32 may be formed on at least one surface of the left and right surfaces of the blower 3, or may be formed on at least one of the upper surface and the lower surface.

When the fan 38 of the blower 3 is a cross-flow fan, the cross-flow fan can be arranged long in the vertical direction. The cross-flow fan can be arranged to rotate about the vertical center axis.

The blower 3 may include a motor 39 for rotating the fan. When the blower 3 includes a cross flow fan, the motor 39 may be positioned above or below the cross flow fan to rotate the vertical center axis of the cross flow fan.

The blower 3 is capable of including one fan 38 and one motor 39 and is capable of including a plurality of fans 38 and a plurality of motors 39.

The blower 3 may include left and right blowing portions 3A and 3B and the left and right blowing portions 3A and 3B may include a fan 38 and a motor 39 It is possible to include.

The blower 3 can be connected to the left air-rich portion 3A and the right air-rich portion 3B. In this case, the blower 3 may further include a connecting portion 3C connecting the left airbag section 3A and the right airbag section 3B.

The left airbag section 3A and the right airbag section 3B can be spaced in the left and right direction and the connecting section 3C can connect the right side plate of the left airbag section 3A and the left side plate of the right airborn section 3B .

The blower 3 may be configured such that the left airflow 3A and the right airflow 3B are connected in parallel in the air flow direction. In this case, each of the left-side bulge portion 3A and the right-side bulge portion 3B may have a suction port and a discharge portion.

The blower 3 has one housing 31 in which two suction ports 32A and 32B and two discharge portions 33A and 33B are formed, two fans 38 and two motors 29 . In this case, the left air intake port 32A and the left air discharge port 33A may be spaced apart from the left air inflow portion 3A. The right air inflow portion 3B may be formed so that the right air inlet 32B and the right side discharge portion 33B are spaced apart from each other.

The housing 31 may be constituted by a housing assembly composed of a combination of a plurality of members. The housing 31 may include a left housing 31A, a right housing 31B and a center housing 31C disposed between the left housing 31A and the right housing 31B.

The center housing 31C together with the left housing 31A can form the left side airflow portion 3A and can constitute the right side airflow portion 3B together with the right side housing 31B.

The center housing 31C may include a left side plate 31D facing the left housing 31A and a right side plate 31E facing the right side housing 31B.

The center housing 31C may include a left side plate 31D of the center housing 31C and a right side plate 31E of the center housing 31C may have a connecting portion 3C.

The left side plate 31D and the left housing 31A of the center housing 31C can constitute the housing portion of the left inflow portion 3A.

A left space in which the left fan 38A is accommodated can be formed between the left side plate 31D of the center housing 31C and the left housing 31A and the left side air inlet 32A and the left side discharge portion 33A are formed .

The left suction hole 32A of the left side blowing portion 3A may be formed between the rear end of the left side plate 31D of the center housing 31C and the rear end of the left housing 31A.

The left discharge portion 33A of the left discharge portion 3A can be formed by the front portion of the left side plate 31D of the center housing 31C and the front portion of the left housing 31A.

The left fan 38A may be connected to the left motor 39A disposed at the upper portion or the lower portion of the left housing 31A and rotated.

The right side plate 31E and the right side housing 31B of the center housing 31C can constitute the housing portion of the right side airflow inflow portion 3B.

A right space in which the right fan 38B is accommodated can be formed between the right side plate 31E and the right housing 31B of the center housing 31C and the right side inlet 32B and the right side discharge portion 33B are formed .

The right suction hole 32A of the right airflow inflow portion 3B can be formed between the rear end of the right side plate 31E of the center housing 31C and the rear end of the right housing 31B.

The right discharge portion 33B of the right discharge portion 3B can be formed by the front portion of the right side plate 31E of the center housing 31C and the front portion of the right housing 32A.

 The right fan 38B may be connected to the right motor 39B disposed at the upper portion or the lower portion of the right housing 31B and rotated.

When the blower 3 includes the left airflow portion 3A and the right airflow portion 3B, the front portion of the left housing 31A may be the left side plate 34 of the discharge portion 33 and the right side housing 31B May be the right side plate 35 of the discharging portion 33. [0053]

The left and right air guides 4 and 5 may be spaced apart in the left and right direction. Each of the left and right air guides 4 and 5 can be arranged to be rotated about the vertical center axis P1 (P2).

The vertical center axis P1 of the left air guide 4 and the vertical center axis P2 of the right air guide 5 may be spaced in the right and left direction.

 The distance L3 between the vertical center axis P1 of the left air guide 4 and the vertical center axis P2 of the right air guide 5 is equal to the distance L3 between the left side plate 34 and the discharging portion 33 of the discharging portion 33 ) Between the right side plates 35 of the first and second plates 35a, 35b.

The vertical center axis P1 of the left air guide 4 may be positioned on the left side of the left side plate 34 of the discharge portion 33 or on the front left side of the left side plate 34. [

The vertical center axis P2 of the right air guide 5 may be located on the right side of the right side plate 35 of the discharge portion 33 or on the right side of the right side plate 35. [

The rear end of the left air guide 4 is positioned on the left side of the left side plate 34 of the discharge portion 33 and the rear end of the right air guide 4 is positioned on the right side of the right side plate 35 of the discharge portion 33 .

The left and right air guides 4 can collect air toward the front center of the air outlet 12 as the tip of the air guide 4 approaches the front end of the air guide 4, .

The left and right air guides 4 and 5 can be formed in a shape that can make the air conditioner compact.

Each of the left and right air guides 4 and 5 includes a rotation center portion 42 formed with a vertical center axis and a nose portion 42 extending from the rotation center portion 42 and decreasing in width in the left- 43).

The left and right air guides 4 and 5 can be disposed symmetrically in the left and right inside the casing 1. [ Hereinafter, common components of the left and right air guides 4 and 5 will be described using the same reference numerals.

The outer surface of the rotation center portion 42 may have a first curved surface 44 whose cross-sectional shape is arc-shaped.

The nose portion 43 includes a first plane 45 extending from one end of the first curved surface 44 and facing the other air guide and a second plane 46 located on the opposite side of the first plane 45 can do.

Here, the other air guide is the right air guide 5 on the basis of the left air guide 4, and the other air guide is the left air guide 4 on the basis of the right air guide 5.

The first plane 45 may be a surface located on the front side of the discharge portion 33 and directly guiding the air discharged from the discharge portion 33. The air discharged from the discharge portion 33 may form a main air stream guided to the first plane 45.

The first plane 45 of the left air guide 4 can guide the air at the front left position of the discharge portion 33. [

The first plane 45 of the right air guide 5 can guide the air at the front right position of the discharge portion 33. [ The nose portion 43 may include a second curved surface 47 connecting the tip of the first plane 45 and the tip of the second plane 46.

The second curved surface 47 may be smaller than the first curved surface 44.

Each of the left and right air guides 4 and 5 may have a curved surface area R connected to the rear end of the planar area S and each of the surfaces facing each other in the left and right direction has a planar area S.

The curved area R is formed in the curved surface area R so as to cover the gap between the front end of the discharging part 33 and the rear end of the flat area S when the front end of the discharging part 33 is away from the rear end of the flat area S, Can be guided to the planar area S. The air can first flow into the curved region R and then flow along the curved region R and smoothly move from the curved region R to the planar region S. [

The driving mechanisms 6 and 7 can rotate the left and right air guides. The driving mechanisms 6 and 7 can rotate the left air guide 4 and the right air guide 5 together as one driving source.

The driving mechanisms 6 and 7 can include respective driving sources for the left air guide 4 and the right air guide 5. [ The driving mechanism 6 may include a left driving source 6 for rotating the left air guide 4 and a right driving source 7 for rotating the right air guide 5. [

The driving mechanisms 6 and 7 can rotate the left and right air guides 4 and 5 with the left and right widths of the airflow blown from the blower 3 constant. In this case, the air blown from the blower 3 can pass through the air discharge opening 12 in a forward convergent flow so as to be straight in the forward direction without spreading in the lateral direction.

The driving mechanisms 6 and 7 are provided on the left side plate 34 of the discharge portion 33 in such a manner that the first extending line E1 extending in the planar region S and the second extending line E2 extending from the left- , And the right air guide (4) (5).

The driving mechanisms 6 and 7 can separate the front ends of the left and right air guides 4 and 5 in the first mode to the first distance L5.

Here, the first mode may be a mode for forming a forward convergence flow.

The drive mechanisms 6 and 7 are driven in the second mode in which the first extension line E1 is inclined at an obtuse angle F with the second extension line E2 and the left and right air guides 4 and 5 are rotated .

The drive mechanisms 6 and 7 are configured such that the first extension line E1 is inclined at an oblique angle F with the second extension line E2 in the second mode and the curved surface of the left and right air guides 4 and 5 It is also possible to rotate the left and right air guides 4 and 5 so that the region R faces in the left and right direction.

The drive mechanisms 6 and 7 can separate the tip ends of the left and right air guides 4 and 5 at a second distance L6 larger than the first distance L5 in the second mode.

The driving mechanisms 6 and 7 can rotate the left and right air guides 4 and 5 so that the airflow blown from the blower 3 gradually extends in the leftward and rightward directions toward the front direction. In this case, the air blown from the blower 3 can be blown to the air outlet 12 while being spread widely in the left-right direction, and can pass through the air outlet 12 with the forward dispersing air flow.

The air conditioner may further include a left outer guide 8 and a right outer guide 9.

The left outer guide 8 can face the first curved surface 44 of the left air guide 4 and the second plane 46 of the left air guide 4. A first gap G1 may be formed between the left outer guide 8 and the left air guide 4.

The air that has passed through the discharge portion 33 flows into the space between the left air guide 4 and the left outer guide 8 through the space between the front end of the left plate 34 of the discharge portion 33 and the outer surface of the left air guide 4 And this air can flow along the first gap G1 to pass between the second plane 46 of the left air guide 4 and the left outer guide 8, The air can be discharged to the air discharge port 12 through the front surface of the second curved surface 47. The air having passed through the first gap G1 may be combined with the main air stream guided to the first plane 45 of the left air guide 4.

The right outer guide 9 can face the first curved surface 44 of the right air guide 5 and the second plane 46 of the right air guide 5. The right outer guide 8 can be formed with a second gap G2 between the right air guide 5 and the right air guide 5.

The air that has passed through the discharge portion 33 flows between the right air guide 5 and the right outer guide 9 through the space between the front end of the right side plate 35 of the discharge portion 33 and the outer surface of the right air guide 4 And this air can flow along the second gap G2 to pass between the second plane 46 of the right air guide 5 and the right outer guide 9, The air can be discharged to the air discharge port 12 through the front surface of the second curved surface 47. The air having passed through the second gap G2 can be combined with the main airflow guided to the first plane 45 of the right air guide 5. [

That is, all of the air discharged through the discharge portion 33 can be discharged to the air discharge opening 12.

The left outer guide 8 and the right outer guide 9 may be disposed symmetrically in the casing 1 in the left and right directions.

The left outer guide 8 and the right outer guide 9 may have the same structure, and the same constitution will be described with the same reference numerals.

Each of the left outer guide 8 and the right outer guide 9 includes a rear guide portion 81 surrounding the first curved surface 44 and a side guide portion 81 extending from the rear guide portion 81 and facing the second plane 46, And may include a guide portion 82.

Each of the left outer guide 8 and the right outer guide 9 may further include a front guide portion 83 formed at a front portion of the side guide portion 82 and facing the second curved surface 46 in the front- .

A space in which at least a part of the left air guide 4 and at least a part of the right air guide 5 are accommodated and the side is opened may be formed between the rear guide part 81 and the front guide part 83. [

The space Q1 of the left outer guide 8 can be opened on the right side and the space Q2 of the right outer guide 9 can be opened on the left side.

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

At the time of driving the blower 3, the air outside the casing 1 is sucked into the casing 1 through the air inlet 11, and at least one of temperature, humidity, and cleanliness passes through the air conditioning unit 2 Can be changed.

The air conditioned by the air conditioning unit 2 can be introduced into the blower 3 through the suction port 32 of the blower 3 and discharged from the inside of the blower 3 to the discharge portion 33 .

The air discharged to the discharge portion 33 can escape from the front end of the discharge port 33 and the air does not directly hit the rear end of the left air guide 4 and the rear end of the right guide 5, The first plane 45 of the right air guide 5 and the first plane 45 of the right air guide 5 and can be guided along the first plane 45. [

If air exiting the discharging portion 33 directly hits the rear ends of the left and right air guides 4 and 5 at the front position of the discharging portion 33, the flow resistance of the air can be increased by such a collision .

However, as in the present embodiment, when the air escaping from the discharge portion 33 is guided along the first plane 45 while minimizing the direct impact on the rear ends of the left and right air guides 4 and 5, The flow path resistance of the air by the right air guides 4 and 5 can be minimized and the air flow can be controlled while minimizing the flow path loss.

3, the air conditioner can be formed with a rectangular or square air passage between the left and right air guides 4. In this case, the left and right air guides 4, Air having a width shorter than the width of the air outlet 12 in the left-right direction can be concentratedly discharged in the forward direction.

When the first plane 45 facing each other of the left and right air guides 4 and 5 is parallel to each other as shown in Fig. 3, the air escaping from the tip of the discharge portion 33 is guided to the left air guide 4 between the first plane 45 of the right air guide 5 and the first plane 45 of the right air guide 5 in the forward direction of the discharge portion 33.

The air guided to each of the first plane 45 of the left air guide 4 and the first plane 45 of the right air guide 4 is guided through the center of the air outlet 15 to the air conditioner 12 The front airflow that is concentratedly discharged in the forward direction of the front airflow can be formed.

5, the air conditioner may have a trapezoidal air passage formed between the left and right air guides 4 in the left and right dispensing modes, and the first plane 45 of the left air guide 4 The first plane 45 of the right air guide 5 can be gradually moved toward the front direction.

In this case, the air guided to the left and right air guides 4 can be spread in the left and right direction while flowing toward the air outlet 12, .

5, when the first plane 45 facing each other of the left and right air guides 4 and 5 gradually moves away from each other in the forward direction, The air that has exited from the front end of the left air guide 4 can flow while spreading in the lateral direction between the first plane 45 of the left air guide 4 and the first plane 45 of the right air guide 5.

The air blown to the side of the first plane 45 of the left air guide 4 through the side of the left side plate 34 of the discharge portion 33 is guided to the first plane 45 of the left air guide 4 And spread to the left side.

The air blown to the side of the first plane 45 of the right air guide 5 through the side of the right side plate 35 of the discharge portion 33 is guided to the first plane 45 of the right air guide 4 by the Coanda effect, (45) and spread to the right side.

In this case, the air blown in the forward direction by the discharge portion 33 spreads in the left-right direction and can flow toward the air discharge port 12. This air flows through the left, right, and center of the air discharge port 12 It is possible to form the left and right airflow while spreading widely.

The present invention is not limited to the above embodiments and may be applied to a case where a left sealing portion for sealing between the outer surface of the left air guide 4 and the left plate 34 of the discharging portion 33, And the right side plate 35 of the discharging portion 33. The right side sealing portion may be provided at the right side of the discharge portion 33, The left sealing portion can be disposed at the front end of the left side plate 34 of the discharge portion 33 or can be disposed at the first curved surface 44 and the first plane 45 of the left air guide 4. The right sealing portion can be disposed at the front end of the right side plate 35 of the discharge portion 33 or at the first curved surface 44 and the first plane 45 of the right air guide 5. The left sealing portion and the right sealing portion may be composed of a sealing member made of an elastic material such as rubber or may be composed of a coating layer such as Teflon.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments.

The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

1: casing 2: air conditioning unit
3: blower 4: left air guide
5: right air guide 6, 7: driving mechanism
8: left outer guide 9: right outer guide

Claims (16)

A casing having an air inlet formed therein and having an air outlet formed on the front thereof;
An air conditioning unit disposed inside the casing;
A blower disposed between the air conditioning unit and the air outlet, the air outlet being spaced apart from the air outlet;
Left and right air guides arranged to rotate about a vertical central axis and spaced laterally;
And a driving mechanism for rotating the air guide,
A left outer guide which surrounds the rear end of the left air guide from the outside of the discharge portion,
And a right outer guide which surrounds the rear end of the right air guide from the outside of the discharge portion,
Wherein the discharging portion includes a left plate close to the left air guide and a right plate close to the right air guide,
The distance between the vertical center axis of the left air guide and the vertical center axis of the right air guide is longer than the width between the left and right side plates,
The rear end of the left air guide is located on the left side of the left side plate,
And the rear end of the right air guide is positioned on the right side of the right side plate. The method according to claim 1,
Wherein the discharge portion is arranged to face the air discharge port at the rear of the air discharge port,
Wherein a width between the left and right side plates is shorter than a width of the air outlet. delete The method according to claim 1,
The blower
At least a part of which is overlapped with the left air guide in the longitudinal direction,
And a right air blowing portion at least partially overlapping with the right air guide in the front-rear direction. 5. The method of claim 4,
Wherein the blower includes a connecting portion connecting a right side plate of the left side airbag portion and a left side plate of the right airbag portion. The method according to claim 1,
Each of the left and right air guides
A rotation center portion in which the vertical center axis is formed,
And a nose portion extending from the rotation center portion and having a width in the left and right direction as the distance from the vertical center axis decreases. The method according to claim 6,
Wherein an outer surface of the rotation center portion has a first curved surface whose arc shape is a cross-sectional shape
The nose portion
A first plane extending from one end of the first curved surface and facing the other air guide,
And a second plane located opposite the first plane. 8. The method of claim 7,
And the nose portion includes a second curved surface connecting the tip of the first plane and the tip of the second plane. 9. The method of claim 8,
And the second curved surface is smaller than the first curved surface. 8. The method of claim 7,
The left outer guide faces the first curved surface of the left air guide and the second plane of the left air guide.
A first gap is formed between the left outer guide and the left air guide,
The right outer guide faces the first curved surface of the right air guide and the second plane of the right air guide,
And a second gap is formed between the right outer guide and the right air guide. 11. The method of claim 10,
Wherein each of the left outer guide and the right outer guide includes a rear guide portion surrounding the first curved surface and a side guide portion extending from the rear guide portion and facing the second flat surface. The method according to claim 1,
Wherein the left and right air guides each have planar areas facing each other in the left-right direction. 13. The method of claim 12,
The drive mechanism
Is driven in a first mode for rotating the left and right air guides in line or in line with a first extension line extending in the planar area and a second extension line extending from the left side plate
And the first extension line is driven in a second mode in which the left and right air guides are rotated such that the first extension line is inclined at an oblique angle with the second extension line. 14. The method of claim 13,
The drive mechanism
A first distance between the front ends of the left and right air guides in the first mode,
And separates the front ends of the left and right air guides at a second distance larger than the first distance in the second mode. The method according to claim 1,
Wherein each of the left and right air guides has a planar area on a surface facing each other in the left-right direction and a curved surface area connected to a rear end of the planar area. 16. The method of claim 15,
The drive mechanism
Is driven in a first mode for rotating the left and right air guides in line or in line with a first extension line extending in the planar area and a second extension line extending from the left side plate
Wherein the first extension line is inclined at an obtuse angle with the second extension line and the left and right air guides are driven in a second mode in which the left and right air guides are rotated so that the curved surface areas of the left and right air guides face each other in the left and right direction.

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