CN204678645U - The wind guiding mechanism of air-conditioner and air-conditioner - Google Patents

Abstract

The utility model discloses a kind of wind guiding mechanism of air-conditioner, wind guiding mechanism is arranged on the circular air outlet of air-conditioner, comprise the air-out inside casing of ring-type, be socketed in inner ring outside air-out inside casing, be socketed in the outer ring outside inner ring, the first motor be electrically connected with air-out inside casing, the second motor of being electrically connected with inner ring, first motor drives air-out inside casing to rotate relative to inner ring, second motor drives inner ring to drive air-out inside casing to rotate relative to outer ring, and the rotation of air-out inside casing is orthogonal with the rotation of inner ring.The invention also discloses a kind of air-conditioner.The utility model is rotated by air-out inside casing or inner ring drives air-out inside casing to rotate together, realize the wind-guiding of above-below direction or left and right directions, wind direction is large, the air-out inside casing stable movement when wind-guiding, be conducive to reducing noise, and owing to have employed circular air outlet and annular air-out inside casing, make air-supply great efforts, air supplying distance is far away, is conducive to improving air-supply effect.

Description

The wind guiding mechanism of air-conditioner and air-conditioner

Technical field

The utility model relates to air-conditioning technical field, particularly the wind guiding mechanism of air-conditioner and air-conditioner.

Background technology

In traditional floor type air-conditioner, usually all adopt the air outlet of rectangle, air outlet is generally provided with lined grid and Longitudinal grille, realized the wind-guiding of above-below direction by lined grid, realized the wind-guiding of left and right directions by Longitudinal grille.But, traditional air guide structure is when by swinging lined grid and Longitudinal grille wind-guiding, easily there is the phenomenon that grid is shaken, noise is larger, and due to grid pendulum angle limited, make wind direction less, the design of grid also blocks a part of wind, reduce wind-force, have impact on air supplying distance and air-supply effect.

Utility model content

Main purpose of the present utility model is for providing a kind of wind guiding mechanism and air-conditioner of air-conditioner, the stable movement when wind-guiding, and air supplying distance is far away, and wind direction is large.

The utility model proposes a kind of wind guiding mechanism of air-conditioner, described wind guiding mechanism is arranged on the circular air outlet of air-conditioner, comprise the air-out inside casing of ring-type, be socketed in the inner ring outside described air-out inside casing, be socketed in the outer ring outside described inner ring, the first motor be electrically connected with described air-out inside casing, the second motor be electrically connected with described inner ring, described first motor drives described air-out inside casing to rotate relative to described inner ring, described second motor drives described inner ring to drive described air-out inside casing to rotate relative to described outer ring, the rotation of described air-out inside casing is orthogonal with the rotation of described inner ring.

Preferably, the lateral wall of described air-out inside casing is arranged with the first rotating shaft and the second rotating shaft, described inner ring offers the first shaft hole and the second shaft hole respectively corresponding to the first rotating shaft of described air-out inside casing and the position of the second rotating shaft, described first shaft hole is inserted in described first rotating shaft, and described second shaft hole is inserted in described second rotating shaft.

Preferably, described first rotating shaft is provided with the first motor axis hole, and described first motor is provided with the first motor shaft towards the side of described air-out inside casing, and described first motor shaft inserts described first motor axis hole.

Preferably, position near described first shaft hole on described inner ring lateral wall is provided with the first motor cabinet, described first motor cabinet comprises at least one first screw pole, the position described first motor corresponding to described first screw pole is provided with the first screw via hole, described first screw pole and described first screw via hole adaptation are installed, and are fixed on the lateral wall of described inner ring by described first motor.

Preferably, described outer ring offers first window and Second Window respectively corresponding to the first shaft hole of described inner ring and the position of the second shaft hole, described first window is identical with the air-out direction of described air-out inside casing with the bearing of trend of Second Window, the width of described first window is more than or equal to the width of described first motor cabinet, and the width of described Second Window is more than or equal to the width of described second rotating shaft.

Preferably, the lateral wall of described inner ring is arranged with the 3rd rotating shaft and the 4th rotating shaft, the rotation of described 3rd rotating shaft and the 4th rotating shaft is orthogonal with the rotation of described first rotating shaft and the second rotating shaft; Described outer ring offers the 3rd shaft hole and the 4th shaft hole respectively corresponding to the 3rd rotating shaft of described inner ring and the position of the 4th rotating shaft, and described 3rd shaft hole is inserted in described 3rd rotating shaft, and described 4th shaft hole is inserted in described 4th rotating shaft.

Preferably, described 3rd rotating shaft is provided with the second motor axis hole, and described second motor is provided with the second motor shaft towards the side of described inner ring, and described second motor shaft inserts described second motor axis hole.

Preferably, position near described 3rd shaft hole on the lateral wall of described outer ring is provided with the second motor cabinet, described second motor cabinet comprises at least one second screw pole, the position described second motor corresponding to described second screw pole is provided with the second screw via hole, described second screw pole and described second screw via hole adaptation are installed, and are fixed on the lateral wall of described outer ring by described second motor.

Preferably, the lateral wall of described air-out inside casing is arc surface, and the crooked radian of described inner ring madial wall is identical with the crooked radian of described air-out inside casing lateral wall; The lateral wall of described inner ring is arc surface, and the crooked radian of described outer ring madial wall is identical with the crooked radian of described inner ring lateral wall.

The utility model also proposes a kind of air-conditioner, comprise casing, described casing offers circular air outlet, described air-conditioner also comprises the wind guiding mechanism of air-conditioner, described wind guiding mechanism is arranged on the circular air outlet of air-conditioner, comprise the air-out inside casing of ring-type, be socketed in the inner ring outside described air-out inside casing, be socketed in the outer ring outside described inner ring, the first motor be electrically connected with described air-out inside casing, the second motor be electrically connected with described inner ring, described first motor drives described air-out inside casing to rotate relative to described inner ring, described second motor drives described inner ring to drive described air-out inside casing to rotate relative to described outer ring, the rotation of described air-out inside casing is orthogonal with the rotation of described inner ring.

The utility model is rotated by air-out inside casing or inner ring drives air-out inside casing to rotate together, realize the wind-guiding of above-below direction or left and right directions, wind direction is large, the air-out inside casing stable movement when wind-guiding, be conducive to reducing noise, and owing to have employed circular air outlet and annular air-out inside casing, make air-supply great efforts, air supplying distance is far away, is conducive to improving air-supply effect.

Accompanying drawing explanation

Fig. 1 is the assembling schematic diagram of the wind guiding mechanism of the utility model air-conditioner;

Fig. 2 a is the structural representation of the air-out inside casing of the wind guiding mechanism of the utility model air-conditioner;

Fig. 2 b is the front view of the air-out inside casing of the wind guiding mechanism of the utility model air-conditioner;

Fig. 3 a is the structural representation of the inner ring of the wind guiding mechanism of the utility model air-conditioner;

Fig. 3 b is the front view of the inner ring of the wind guiding mechanism of the utility model air-conditioner;

Fig. 3 c is that the A of inner ring in Fig. 3 b is to sectional view;

Fig. 3 d is that the B of inner ring in Fig. 3 b is to sectional view;

Fig. 4 a is the structural representation of outer ring first embodiment of the wind guiding mechanism of the utility model air-conditioner;

Fig. 4 b is the structural representation of outer ring second embodiment of the wind guiding mechanism of the utility model air-conditioner;

Fig. 5 is the first motor of the wind guiding mechanism of the utility model air-conditioner or the structural representation of the second motor;

Fig. 6 is the air-out inside casing of the wind guiding mechanism of the utility model air-conditioner and the assembling schematic diagram of inner ring;

Fig. 7 is the inner ring of the wind guiding mechanism of the utility model air-conditioner and the assembling schematic diagram of outer ring;

Fig. 8 is the structural representation of the utility model air-conditioner.

The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

As shown in Figure 1, Fig. 1 is the assembling schematic diagram of the wind guiding mechanism of the utility model air-conditioner.The wind guiding mechanism of the air-conditioner that the present embodiment proposes, be arranged on (Fig. 1 is not shown) on the circular air outlet of air-conditioner, comprise the air-out inside casing 100 of ring-type, be socketed in inner ring 200 outside air-out inside casing 100, be socketed in the outer ring 300 outside inner ring 200, the first motor 400 be electrically connected with air-out inside casing 100, the second motor 500 of being electrically connected with inner ring 200.The electric connection mode of air-out inside casing 100 and the first motor 400 can adopt wire that the drived control end of the first motor 400 is connected to the controlled end (not shown) of air-out inside casing 100, first motor 400 drives air-out inside casing 100 to rotate relative to inner ring 200, the drived control end of the second motor 500 is connected to the controlled end (not shown) of inner ring 200 by inner ring 200 adopt wire same with the electric connection mode of the second motor 500, the angle that second motor 500 drives inner ring 200 to drive air-out inside casing 100 to rotate relative to outer ring 300 together can enroll the control program of air-conditioner in advance, or multiple selection control is set when enrolling the anglec of rotation, the gear of the anglec of rotation is selected by user oneself.The rotation of air-out inside casing 100 is orthogonal with the rotation of inner ring 200, as shown in Figure 1 the rotation of air-out inside casing 100 is overlapped with X-axis, the rotation of inner ring 200 is overlapped with Y-axis, first motor 400 drives air-out inside casing 100 to rotate up and down around X-axis, and the second motor 500 drives air-out inside casing 100 around Y-axis left rotation and right rotation.In addition, the rotation of air-out inside casing 100 and the rotation of inner ring 200 also can arrange (not shown) in an angle, can realize air-out inside casing 100 and rotate on different axis direction.The present embodiment is rotated by air-out inside casing 100 or inner ring 200 drives air-out inside casing 100 to rotate together, realize the wind-guiding of above-below direction or left and right directions, wind direction is large, air-out inside casing 100 stable movement when wind-guiding, be conducive to reducing noise, and owing to have employed circular air outlet and annular air-out inside casing 100, make air-supply great efforts, air supplying distance is far away, is conducive to improving air-supply effect.

As shown in Fig. 2 a to Fig. 7, Fig. 2 a is the structural representation of the air-out inside casing of the wind guiding mechanism of the utility model air-conditioner; Fig. 2 b is the front view of the air-out inside casing of the wind guiding mechanism of the utility model air-conditioner; Fig. 3 a is the structural representation of the inner ring of the wind guiding mechanism of the utility model air-conditioner; Fig. 3 b is the front view of the inner ring of the wind guiding mechanism of the utility model air-conditioner; Fig. 3 c is that the A of inner ring in Fig. 3 b is to sectional view; Fig. 3 d is that the B of inner ring in Fig. 3 b is to sectional view; Fig. 4 a is the structural representation of outer ring first embodiment of the wind guiding mechanism of the utility model air-conditioner; Fig. 4 b is the structural representation of outer ring second embodiment of the wind guiding mechanism of the utility model air-conditioner; Fig. 5 is the first motor of the wind guiding mechanism of the utility model air-conditioner or the structural representation of the second motor; Fig. 6 is the air-out inside casing of the wind guiding mechanism of the utility model air-conditioner and the assembling schematic diagram of inner ring; Fig. 7 is the inner ring of the wind guiding mechanism of the utility model air-conditioner and the assembling schematic diagram of outer ring.

The lateral wall of air-out inside casing 100 is arranged with the first rotating shaft 110 and the second rotating shaft 120, inner ring 200 offers the first shaft hole 210 and the second shaft hole 220 respectively corresponding to the first rotating shaft 110 of air-out inside casing 100 and the position of the second rotating shaft 120, first rotating shaft 110 is inserted the first shaft hole 210, second rotating shaft 120 and is inserted the second shaft hole 220.As shown in Figure 6, when the first motor 400 drives air-out inside casing 100 to rotate down in the X-axis direction, the first rotating shaft 110 is rotated relative to the first shaft hole 210, and the second rotating shaft 120 is rotated relative to the second shaft hole 220.

First motor 400 can also adopt the motor shaft shown in Fig. 5 to be connected with the electric connection mode between air-out inside casing 100, first rotating shaft 110 is provided with the first motor axis hole 111, the conducting strip (not shown) of metal material is provided with in first motor axis hole 111, this conducting strip can be attached to the first motor axis hole 111 inwall, also can be arranged on bottom the first motor axis hole 111, conducting strip is connected with the controlled end of air-out inside casing 100, first motor 400 is provided with the first motor shaft 410 towards the side of air-out inside casing 100, first motor shaft 410 is connected with the drived control end of the first motor 400, when installing, first motor shaft 410 is inserted the first motor axis hole 111, the drived control end of the first motor 400 and the controlled end of air-out inside casing 100 are connected, realize the rotary actuation of the first motor 400 pairs of air-out inside casings 100.

In order to the first motor 400 is fixed, the first motor cabinet (not marking) can be provided with in position near the first shaft hole 210 on inner ring 200 lateral wall, first motor cabinet comprises at least one first screw pole 230, the position first motor 400 corresponding to the first screw pole 230 is provided with the first screw via hole 420, first screw pole 230 and the first screw via hole 420 adaptation are installed, and are fixed on the lateral wall of inner ring 200 by the first motor 400.When assembling, inner ring 200 is enclosed within outside air-out inside casing 100, first rotating shaft 110 of air-out inside casing 100 is inserted the first shaft hole 210 of inner ring 200, the second shaft hole 220 of inner ring 200 is inserted in second rotating shaft 120, first motor shaft 410 of the first motor 400 is inserted the first motor axis hole 111 of air-out inside casing 100, by the first screw pole 230 of inner ring 200 through the first screw via hole 420 of the first motor 400, tighten screw, complete assembling.As shown in Figure 1, after energising, the first motor 400 being positioned at air-out inside casing 100 right drives air-out inside casing 100 to rotate up and down around X-axis.

Because outer ring 300 is set in outside inner ring 200, in order to avoid stopping the rotation of inner ring 200 and air-out inside casing 100, outer ring 300 offers first window 310 and Second Window 320 respectively corresponding to the first shaft hole 210 of inner ring 200 and the position of the second shaft hole 220, first window 310 is identical with the air-out direction of air-out inside casing 100 with the bearing of trend of Second Window 320, and the width of first window 310 is more than or equal to the width of the first motor cabinet, the width of Second Window 320 is more than or equal to the width of the second rotating shaft 120.In Fig. 4 a illustrated embodiment, first window 310 and Second Window 320 are the rectangular opening with frame, play the effect of second rotating shaft 120 of dodging the first motor 400 and air-out inside casing 100.In order to increase wind direction further, can as shown in Figure 4 b in embodiment, the bearing of trend of first window 310 and Second Window 320 is designed to open, namely frame is not set, when inner ring 200 drives air-out inside casing 100 around Y-axis left rotation and right rotation, the anglec of rotation does not limit by frame, and wind direction is larger.

For the rotation in Y direction, the lateral wall of inner ring 200 is arranged with the 3rd rotating shaft 240 and the 4th rotating shaft 250, the rotation of the rotation of the 3rd rotating shaft 240 and the 4th rotating shaft 250 and the first rotating shaft 110 and the second rotating shaft 120 is orthogonal or arrange in angle, can realize air-out inside casing 100 and rotate on different axis direction.Outer ring 300 corresponds to the 3rd rotating shaft 240 of inner ring 200 and the position of the 4th rotating shaft 250 to offer the 3rd shaft hole 330 and the 4th shaft hole the 340, three rotating shaft 240 respectively and insert the 3rd shaft hole the 330, four rotating shaft 250 and insert the 4th shaft hole 340.Outer ring 300 can be fixed on the shell of air-conditioner through screw, or one-body molded with the shell of air-conditioner.As shown in Figure 7, the second motor 500 drives inner ring 200 to drive air-out inside casing 100 together when Y direction left rotation and right rotation, and the 3rd rotating shaft 240 is rotated relative to the 3rd shaft hole 330, and the 4th rotating shaft 250 is rotated relative to the 4th shaft hole 340.

Second motor 500 and the electric connection mode between inner ring 200 also can adopt the motor shaft shown in Fig. 5 to be connected, 3rd rotating shaft 240 is provided with the second motor axis hole 241, the conducting strip (not shown) of metal material is provided with in second motor axis hole 241, this conducting strip can be attached to the second motor axis hole 241 inwall, also can be arranged on bottom the second motor axis hole 241, conducting strip is connected with the controlled end of inner ring 200, second motor 500 is provided with the second motor shaft 510 towards the side of inner ring 200, second motor shaft 510 is connected with the drived control end of the second motor 500, when installing, second motor shaft 510 is inserted the second motor axis hole 241, the drived control end of the second motor 500 and the controlled end of inner ring 200 are connected, realize the rotary actuation of the second motor 500 pairs of inner rings 200.

In order to the second motor 500 is fixed, the second motor cabinet (not marking) can be provided with in position near the 3rd shaft hole 330 on the lateral wall of outer ring 300, second motor cabinet comprises at least one second screw pole 350, the position second motor 500 corresponding to the second screw pole 350 is provided with the second screw via hole 520, second screw pole 350 and the second screw via hole 520 adaptation are installed, and are fixed on the lateral wall of outer ring 300 by the second motor 500.When assembling, after inner ring 200 and air-out inside casing 100 are assembled, outer ring 300 is enclosed within outside inner ring 200,3rd rotating shaft 240 of inner ring 200 is inserted the 3rd shaft hole 330 of outer ring 300, the 4th shaft hole 340 of outer ring 300 is inserted in 4th rotating shaft 250, the second motor shaft 510 of the second motor 500 is inserted the second motor axis hole 241 of inner ring 200, by the second screw via hole 520 of the second screw pole 350 of outer ring 300 through the second motor 500, tighten screw, complete assembling.As shown in Figure 1, after energising, the second motor 500 be positioned at above inner ring 200 drives inner ring 200 around Y-axis left rotation and right rotation, air-out inside casing 100 under the drive of inner ring 200, along with inner ring 200 is together around Y-axis left rotation and right rotation.

In addition, in order to concentrated wind-force, the madial wall of air-out inside casing 100 is designed to arc surface, namely hollow hemisphere is pruned a part of structure remaining after spherical crown, the circumference of air-out inside casing 100 air intake one end can be made to be less than the circumference of air-out one end, adopt the air-out inside casing 100 of arc surface structure, be conducive to concentrated wind-force, make air-out apart from farther.Accordingly, the lateral wall of air-out inside casing 100 is also arc surface, and the crooked radian of inner ring 200 madial wall is identical with the crooked radian of air-out inside casing 100 lateral wall, is conducive to guiding when air-out inside casing 100 moves relative to inner ring 200.In like manner, the lateral wall of inner ring 200 is arc surface, and the crooked radian of outer ring 300 madial wall is identical with the crooked radian of inner ring 200 lateral wall.In addition also air-out inside casing 100 can be designed to round table surface, namely hollow cone is pruned a part of structure remaining after first half circular cone, the circumference of air-out inside casing 100 air intake one end is less than the circumference of air-out one end, or air-out inside casing 100 adopts the face of cylinder, also can realize concentrated wind-force, make air-out apart from farther.

With reference to the structural representation that Fig. 8, Fig. 8 are the utility model air-conditioner.The utility model also proposes a kind of air-conditioner, comprise casing 600, casing 600 offers circular air outlet 700, air-conditioner also comprises the wind guiding mechanism of air-conditioner, wind guiding mechanism is arranged on the circular air outlet 700 of air-conditioner, comprise the air-out inside casing 100 of ring-type, be socketed in the inner ring outside air-out inside casing 100, be socketed in the outer ring outside inner ring, the first motor be electrically connected with air-out inside casing 100, the second motor be electrically connected with inner ring, first motor 400 drives air-out inside casing 100 to rotate relative to inner ring, second motor drives inner ring to drive air-out inside casing 100 to rotate relative to outer ring, the rotation of air-out inside casing 100 is orthogonal with the rotation of inner ring.

Wind guiding mechanism in air-conditioner of the present utility model can comprise earlier figures 1 to all technical schemes in embodiment illustrated in fig. 7, and its detailed construction and wind-guiding principle can refer to previous embodiment, do not repeat at this.Owing to have employed the scheme of the wind guiding mechanism of aforementioned air-conditioner, air-conditioner of the present utility model is for existing air-conditioner, rotated by air-out inside casing 100 or inner ring drives air-out inside casing 100 to rotate together, realize the wind-guiding of above-below direction or left and right directions, wind direction is large, air-out inside casing 100 stable movement when wind-guiding, be conducive to reducing noise, and owing to have employed circular air outlet and annular air-out inside casing 100, make air-supply great efforts, air supplying distance is far away, is conducive to improving air-supply effect.

The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model description and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. the wind guiding mechanism of an air-conditioner, it is characterized in that, described wind guiding mechanism is arranged on the circular air outlet of air-conditioner, comprise the air-out inside casing of ring-type, be socketed in the inner ring outside described air-out inside casing, be socketed in the outer ring outside described inner ring, the first motor be electrically connected with described air-out inside casing, the second motor be electrically connected with described inner ring, described first motor drives described air-out inside casing to rotate relative to described inner ring, described second motor drives described inner ring to drive described air-out inside casing to rotate relative to described outer ring, the rotation of described air-out inside casing is orthogonal with the rotation of described inner ring.

2. the wind guiding mechanism of air-conditioner according to claim 1, it is characterized in that, the lateral wall of described air-out inside casing is arranged with the first rotating shaft and the second rotating shaft, described inner ring offers the first shaft hole and the second shaft hole respectively corresponding to the first rotating shaft of described air-out inside casing and the position of the second rotating shaft, described first shaft hole is inserted in described first rotating shaft, and described second shaft hole is inserted in described second rotating shaft.

3. the wind guiding mechanism of air-conditioner according to claim 2, it is characterized in that, described first rotating shaft is provided with the first motor axis hole, and described first motor is provided with the first motor shaft towards the side of described air-out inside casing, and described first motor shaft inserts described first motor axis hole.

4. the wind guiding mechanism of air-conditioner according to claim 3, it is characterized in that, position near described first shaft hole on described inner ring lateral wall is provided with the first motor cabinet, described first motor cabinet comprises at least one first screw pole, the position described first motor corresponding to described first screw pole is provided with the first screw via hole, described first screw pole and described first screw via hole adaptation are installed, and are fixed on the lateral wall of described inner ring by described first motor.

5. the wind guiding mechanism of air-conditioner according to claim 4, it is characterized in that, described outer ring offers first window and Second Window respectively corresponding to the first shaft hole of described inner ring and the position of the second shaft hole, described first window is identical with the air-out direction of described air-out inside casing with the bearing of trend of Second Window, the width of described first window is more than or equal to the width of described first motor cabinet, and the width of described Second Window is more than or equal to the width of described second rotating shaft.

6. the wind guiding mechanism of air-conditioner according to claim 2, it is characterized in that, the lateral wall of described inner ring is arranged with the 3rd rotating shaft and the 4th rotating shaft, the rotation of described 3rd rotating shaft and the 4th rotating shaft is orthogonal with the rotation of described first rotating shaft and the second rotating shaft; Described outer ring offers the 3rd shaft hole and the 4th shaft hole respectively corresponding to the 3rd rotating shaft of described inner ring and the position of the 4th rotating shaft, and described 3rd shaft hole is inserted in described 3rd rotating shaft, and described 4th shaft hole is inserted in described 4th rotating shaft.

7. the wind guiding mechanism of air-conditioner according to claim 6, it is characterized in that, described 3rd rotating shaft is provided with the second motor axis hole, and described second motor is provided with the second motor shaft towards the side of described inner ring, and described second motor shaft inserts described second motor axis hole.

8. the wind guiding mechanism of air-conditioner according to claim 7, it is characterized in that, position near described 3rd shaft hole on the lateral wall of described outer ring is provided with the second motor cabinet, described second motor cabinet comprises at least one second screw pole, the position described second motor corresponding to described second screw pole is provided with the second screw via hole, described second screw pole and described second screw via hole adaptation are installed, and are fixed on the lateral wall of described outer ring by described second motor.

9. the wind guiding mechanism of air-conditioner according to claim 2, is characterized in that, the lateral wall of described air-out inside casing is arc surface, and the crooked radian of described inner ring madial wall is identical with the crooked radian of described air-out inside casing lateral wall; The lateral wall of described inner ring is arc surface, and the crooked radian of described outer ring madial wall is identical with the crooked radian of described inner ring lateral wall.

10. an air-conditioner, comprises casing, it is characterized in that, described casing offers circular air outlet, described air-conditioner also comprises the wind guiding mechanism of the air-conditioner as described in any one of claim 1 to 9.