CN219283592U - Air guide assembly and air conditioner with same - Google Patents

Abstract

The application provides an air guide assembly and an air conditioner with the same, comprising an air guide structure, wherein the air guide structure is arranged at an air outlet; the air guide structure is used for guiding the flow direction of the air; the air guide structure is provided with a rotation center, and can rotate around the rotation center to adjust the air guide direction of the air guide structure or open and close the air outlet; the position of the rotation center is adjustable; when the air guide structure closes the air outlet, the rotation center is adjusted to be above the gravity center of the air guide structure. According to the air guide assembly and the air conditioner with the same, after the air outlet is closed, no gap exists between the air guide assembly and the air outlet.

Description

Air guide assembly and air conditioner with same

Technical Field

The application relates to the technical field of air conditioners, in particular to an air guide assembly and an air conditioner with the same.

Background

At present, the assembly and the drive mode of the air guide structure of the indoor unit of the air conditioner are two, one is that the rotation center is fixed, one end or two ends are provided with the wind sweeping motors, the wind guide structure is driven to rotate through the wind sweeping motors so as to achieve the purpose of adjusting the air outlet direction, but the wind sweeping range of the mode is smaller and is usually within 110 degrees. The other is that the wind guiding structure is pushed out integrally and away from the wind gap through the driving mechanism, the rotation center position is adjusted through adjusting the angle of the push-out rod, and then the wind guiding structure is driven by the wind sweeping motor to sweep wind. The wind sweeping range of the structure is larger than that of the first mode, the wind sweeping angle can reach more than 130 degrees, the comfort is better, the seamless effect can be achieved in appearance, and the rotation center of the wind guiding structure of the structure in the mode is always lower. The two design modes ensure that the wind sweeping range of the wind guide structure can meet the requirement, the rotation center is designed eccentrically, and the gravity center is always lower. The deviation of the gravity center often causes that the gravity center is at the upper edge of the rotating center after the wind guiding structure is closed, and the wind guiding structure is easy to deform under the action of gravity so that gaps appear at the upper edge, thereby influencing the appearance of the air conditioner.

Therefore, how to provide an air guiding assembly and an air conditioner with the same, which can make the air guiding assembly and the air outlet have no gap after closing the air outlet, is an urgent problem to be solved by those skilled in the art.

Disclosure of Invention

Therefore, the technical problem that this application was solved lies in providing a wind-guiding subassembly and has its air conditioner, can make after closing the air outlet, does not have the gap between wind-guiding subassembly and the air outlet.

In order to solve the above problems, the present application provides an air guiding assembly, which includes an air guiding structure, wherein the air guiding structure is disposed at an air outlet; the air guide structure is used for guiding the flow direction of the air; the air guide structure is provided with a rotation center, and can rotate around the rotation center so as to adjust the air guide direction of the air guide structure and/or open and close the air outlet; the position of the rotation center is adjustable; when the air guide structure closes the air outlet, the rotation center is adjusted to be above the gravity center of the air guide structure.

Further, the air guide assembly further comprises a push-out mechanism, and the push-out mechanism is connected with the air guide structure; the air guide assembly is positioned at the outer side of the air outlet and is used as a pushing-out position, and the air guide assembly can close the air outlet to be used as a closing position; the pushing mechanism is used for guiding the air guide assembly to move between a pushing position and a closing position.

Further, the wind guide assembly further comprises a first driving structure, the first driving structure is connected with the pushing mechanism and used for driving the pushing mechanism to move, and then the wind guide assembly is guided to move between the pushing position and the closing position.

Further, the air guide assembly further comprises a rotating mechanism, and the rotating mechanism is used for guiding the air guide structure to rotate so as to adjust the air guide direction of the air guide structure and/or open and close the air outlet; a rotation center is formed at the position of the rotation mechanism; the rotating mechanism is movably arranged on the air guide structure to adjust the position of the rotating mechanism on the air guide structure and further adjust the position of the rotating center.

Further, the wind guiding assembly further comprises a second driving structure; the rotary mechanism is moved on the wind guiding structure to be in an active state, and the rotary mechanism is stationary on the wind guiding structure to be in a fixed state; the rotating mechanism has an active state and a fixed state; the second driving structure is connected with the rotating mechanism and is used for driving the rotating mechanism to rotate; when the rotating mechanism is in an active state, the second driving structure can drive the rotating mechanism to move on the air guide structure; when the rotating mechanism is in a fixed state, the second driving structure can drive the rotating mechanism to rotate so as to drive the air guide structure to rotate.

Further, the wind guiding structure is also provided with a guiding structure, the rotating mechanism is arranged on the guiding structure, and the guiding structure is used for guiding the rotating mechanism to move on the wind guiding structure.

Further, a guide hole is formed in the guide structure; the rotary mechanism is provided with a guide part, and the guide part is movably arranged in the guide hole so that the guide hole can guide the rotary mechanism to move on the air guide structure; the guide part enters the guide hole from the first side of the guide hole; the air guide assembly further comprises a first limiting structure; the first limit structure is connected with the guide part and is positioned on the second side of the guide hole.

Further, the rotating mechanism comprises a second limiting structure; the rotating mechanism has a first position and a second position; when the rotating mechanism is positioned at the first position, the rotating mechanism is positioned above the gravity center of the air guide structure; when the rotating mechanism is positioned at the second position, the rotating mechanism is positioned below the gravity center of the air guide structure; the rotating mechanism is movable between a first position and a second position; when the rotating mechanism moves to the first position or the second position, the second limiting structure can limit the movement of the rotating mechanism.

Further, the second limiting structure comprises a limiting ring, and one end of the limiting ring is provided with a limiting part; the limiting ring is sleeved outside the rotating mechanism; when the guide structure is provided with the guide hole, the limit part can extend into the guide hole when the rotating mechanism moves to the first position or the second position so as to limit the movement of the guide part in the guide hole and limit the movement of the rotating mechanism.

Further, a plurality of first poking parts are arranged on the periphery of the guide part, and the plurality of first poking parts are sequentially arranged around the circumference of the guide part; when the guide structure is also provided with a guide structure, and the guide structure is provided with a guide hole, the inner peripheral wall of the guide hole is provided with a second poking part; the first poking part and the second poking part are meshed with each other; the inner shaft wall of the limiting ring is provided with a third poking part matched with the first poking part; one end of the part of the third stirring part extends out of the limiting ring to form a limiting part; the third poking part extending out of the limiting ring can be meshed with the first poking part.

Further, the rotating mechanism also comprises a gear set, and the gear set is connected with the guide part; when the wind-guiding subassembly still includes second drive structure, second drive structure can drive the gear train rotation, and then drives the guide part and move about in the guiding hole.

According to still another aspect of the present application, an air conditioner is provided, including an air guiding assembly, the air guiding assembly is the air guiding assembly described above.

The application provides an air guide assembly and have its air conditioner. After this application can make to close the air outlet, no gap between wind-guiding subassembly and the air outlet.

Drawings

FIG. 1 is a schematic structural view of an air guiding assembly according to an embodiment of the present disclosure;

FIG. 2 is a schematic structural diagram of an air guiding structure according to an embodiment of the present disclosure;

FIG. 3 is a schematic diagram of a second gear of the gear set according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a first limiting structure in an embodiment of the present application;

fig. 5 is a schematic structural diagram of a second limiting structure in an embodiment of the present application;

fig. 6 is a schematic structural diagram of an air conditioner according to an embodiment of the present application.

1. An air guiding structure; 11. a guide structure; 111. a guide hole; 2. a push-out mechanism; 3. a rotation mechanism; 31. a guide part; 311. a mounting hole; 41. a first driving structure; 42. a second driving structure; 51. a first limit structure; 511. a limit rib; 52. a second limit structure; 521. a limit part; 6. a gear set; 71. a panel body; 72. a panel.

Detailed Description

Referring to fig. 1-6 in combination, an air guiding assembly comprises an air guiding structure 1, wherein the air guiding structure 1 is arranged at an air outlet; the air guide structure 1 is used for guiding the flow direction of the air; the wind guiding structure 1 is provided with a rotation center, and the wind guiding structure 1 can rotate around the rotation center so as to adjust the wind guiding direction of the wind guiding structure 1 and/or open and close the air outlet; the position of the rotation center is adjustable; when the air guide structure 1 closes the air outlet, the rotation center is adjusted to be above the gravity center of the air guide structure 1. Therefore, when the air guide structure 1 closes the air outlet, gaps can not appear on the upper edge of the air outlet; the problem of closing gaps existing in the air deflector of the existing air conditioner can be effectively solved. The air guide structure 1 is an air guide plate.

According to the wind guiding structure, the rotation center can be adjusted to enable the rotation center of the wind guiding structure 1 to be located at the lowest edge position in the wind sweeping process, so that the maximum wind sweeping range is ensured; when the air outlet is closed, the rotating center is adjusted to enable the rotating center to be located at the uppermost edge (or the upper middle position) of the air deflector during closing, and then the center is located below the rotating center, so that the problem of closing a gap can be effectively solved.

The application also discloses some embodiments, the wind guide assembly further comprises a push-out mechanism 2, and the push-out mechanism 2 is connected with the wind guide structure 1; the air guide assembly is positioned at the outer side of the air outlet and is used as a pushing-out position, and the air guide assembly can close the air outlet to be used as a closing position; the ejector mechanism 2 is used to guide the air guide assembly between the ejector position and the closed position. The pushing mechanism 2 may be a structure formed by matching a gear and a rack, and guides the air guide assembly to move between the pushing position and the closing position. The eccentric structure can be driven by a motor to rotate so as to push the air guiding structure 1 out.

The application also discloses some embodiments, the wind-guiding subassembly still includes first drive structure 41, and first drive structure 41 is connected with ejecting mechanism 2, and first drive structure 41 is used for driving ejecting mechanism 2 activity, and then guides the wind-guiding subassembly to move between ejecting position and closed position. The first driving structure 41 is a first motor. The wind guiding structure 1 is supported by the gear boxes at the left side and the right side, the wind guiding structure is driven and pushed out by the first driving structure 41 in the gear boxes, and the wind guiding structure 1 is supported and driven by the wind sweeping motor arranged in the push-out rods (driving motor mounting boxes) at the left side and the right side to realize the wind sweeping function of the wind guiding plate.

The application also discloses some embodiments, the wind guiding assembly further comprises a rotating mechanism 3, and the rotating mechanism 3 is used for guiding the wind guiding structure 1 to rotate so as to adjust the wind guiding direction of the wind guiding structure 1 and/or open and close the air outlet; the rotation mechanism 3 is positioned at a position to form a rotation center; the rotating mechanism 3 is movably arranged on the air guiding structure 1 to adjust the position of the rotating mechanism 3 on the air guiding structure 1, and further adjust the position of the rotating center. In the application, the pushing mechanism 2 pushes the air guiding structure 1 out firstly, then the rotating mechanism 3 drives the air guiding structure 1 to move so as to adjust the central position, and then when the air guiding structure 1 is in a fixed state, the rotating mechanism 3 can drive the air guiding plate to swing up and down so as to realize the function of sweeping air

Some embodiments are also disclosed herein, the wind-guiding assembly further comprising a second drive structure 42; the rotary mechanism 3 moves on the wind guiding structure 1 to be in an active state, and the rotary mechanism 3 is static on the wind guiding structure 1 to be in a fixed state; the rotating mechanism 3 has an active state and a fixed state; the second driving structure 42 is connected with the rotating mechanism 3, and the second driving structure 42 is used for driving the rotating mechanism 3 to rotate; when the rotating mechanism 3 is in an active state, the second driving structure 42 can drive the rotating mechanism 3 to move on the air guiding structure 1; when the rotation mechanism 3 is in the fixed state, the second driving structure 42 can drive the rotation mechanism 3 to rotate so as to drive the wind guiding structure 1 to rotate. Therefore, the driving mechanism can be used for driving the sweeping angle of the air guide structure 1 to be adjusted and driving the rotation center to move.

The application also discloses some embodiments, still is provided with guiding structure 11 on the wind-guiding structure 1, and rotary mechanism 3 sets up on guiding structure 11, and guiding structure 11 is used for guiding rotary mechanism 3 activity on wind-guiding structure 1. The guide structure 11 may be provided with a guide rail, and the rotation mechanism 3 may be movable on the guide rail.

The application also discloses some embodiments, wherein the guide structure 11 is provided with a guide hole 111; the rotating mechanism 3 is provided with a guide part 31, and the guide part 31 is movably arranged in the guide hole 111, so that the guide hole 111 can guide the rotating mechanism 3 to move on the air guiding structure 1; the guide portion 31 enters the guide hole 111 from the first side of the guide hole 111; the air guiding assembly further comprises a first limiting structure 51; the first limiting structure 51 is connected with the guiding portion 31, and the first limiting structure 51 is located on the second side of the guiding hole 111. The first limiting structure 51 is detachably connected with the guiding portion 31

Some embodiments are also disclosed in which the rotation mechanism 3 comprises a second limit structure 52; the rotation mechanism 3 has a first position and a second position; when the rotating mechanism 3 is positioned at the first position, the rotating mechanism 3 is positioned above the gravity center of the air guiding structure 1; when the rotating mechanism 3 is positioned at the second position, the rotating mechanism 3 is positioned below the gravity center of the air guiding structure 1; the rotation mechanism 3 is movable between a first position and a second position; when the rotating mechanism 3 moves to the first position or the second position, the second limiting structure 52 can limit the movement of the rotating mechanism 3. The second limiting structure 52 cooperates with the control logic of the second driving structure 42 to push out or retract the wind guiding structure 1, and can control the rotation center of the wind guiding structure 1 at any desired position according to the requirement.

Some embodiments are also disclosed, the second limiting structure 52 includes a limiting ring, and one end of the limiting ring is provided with a limiting part 521; the limiting ring is sleeved outside the rotating mechanism 3; when the guiding structure 1 is further provided with the guiding structure 11 and the guiding structure 11 is provided with the guiding hole 111, when the rotating mechanism 3 moves to the first position or the second position, the limiting part 521 can extend into the guiding hole 111 to limit the movement of the guiding part 31 in the guiding hole 111, and further limit the movement of the rotating mechanism 3. The guide hole 111 is a bar hole, in the length direction of the bar hole, by arranging the guide structure 11 on the air guiding structure 1, the bar hole is arranged on the guide structure 11, a rack track is formed in the bar hole, the corresponding gear set 6 is designed on the second driving structure 42, and finally, the adjustment of the rotation center on the air guiding structure 1 can be realized through the rotation of the second driving structure 42.

According to the air conditioner air deflector, the rack tracks are designed on the two sides of the air deflector, so that the rotating mechanism 3 can move in the guide holes 111, the position of the rotating center can be changed at will according to user requirements, and the problem of a closing gap existing in the air conditioner air deflector at present can be solved under the condition that the maximum wind sweeping range is obtained by changing the position of the rotating center.

The application also discloses some embodiments, the periphery of the guiding part 31 is provided with a plurality of first poking parts, and the plurality of first poking parts are sequentially arranged around the circumference of the guiding part 31; when the guide structure 1 is further provided with the guide structure 11, and the guide structure 11 is provided with the guide hole 111, the inner peripheral wall of the guide hole 111 is provided with a second poking part; the first poking part and the second poking part are meshed with each other; the inner shaft wall of the limiting ring is provided with a third poking part matched with the first poking part; one end of a part of the third poking part extends out of the limiting ring to form a limiting part 521; the third poking part extending out of the limiting ring can be meshed with the first poking part. The guide part 31 has a gear structure, so that the first poking part is meshed with the second poking part when the guide part 31 is in an active state; when the guide portion 31 is in a fixed state, the first toggle portion is engaged with the third toggle portion, so that the guide portion 31 is fixed relative to the guide hole 111.

The application also discloses some embodiments, the rotating mechanism 3 further comprises a gear set 6, and the gear set 6 is connected with the guide part 31; when the wind guiding assembly further includes the second driving structure 42, the second driving structure 42 can drive the gear set 6 to rotate, so as to drive the guiding portion 31 to move in the guiding hole 111. The gear set 6 comprises a first gear and a second gear, the rotating mechanism 3 further comprises a rotating shaft, the second gear is arranged outside the rotating shaft, and the position of the second gear is corresponding to that of the first gear; the guide part 31 is a guide ring, and the guide ring is sleeved outside the rotating shaft; the first limiting structure 51 comprises a limiting plate and a connecting shaft, the connecting shaft is connected with the rotating shaft, the limiting plate is positioned on the second side of the guide hole 111, and the size of the limiting plate is larger than that of the guide hole 111 in the width direction; the driving shaft of the second driving structure 42 is connected with the first gear, the second driving structure 42 can drive the first gear to rotate, then drive the second gear to rotate, then drive the rotating shaft to rotate, and then drive the guide part 31 to rotate, so that the guide part 31 can move in the guide hole 111; when the second limiting structure 52 limits the movement of the guiding portion 31, the guiding portion 31 is still in the guiding hole 111, and when the second driving structure 42 continues to drive, it can drive the air deflector to rotate, so as to adjust the wind sweeping angle. The first limiting structure 51 comprises a limiting plate and a connecting shaft, and the connecting shaft is connected with the rotating shaft, so that the first limiting structure 51 is indirectly connected with the guide part 31; the limiting plate is located at the second side of the guide hole 111 and has a size larger than that of the guide hole 111 in the width direction. The connecting shaft is provided with a limit rib 511; a groove is arranged on the rotating shaft; the limit rib 511 may be disposed in the groove, so that the rotating shaft is detachably connected with the first limit structure 51. The rack rail and the guide part 31 are designed on the air deflector, and finally the position of the rotation center of the air deflector can be changed through the rotation of the second motor.

The first gear is arranged on the output shaft of the left stepping motor and rotates along with the rotation of the motor, the outer diameter of the first gear is d1, and the number of teeth is a1; the rotating shaft comprises a second gear, a guide part 31, a mounting hole 311 and a limiting groove, wherein the outer diameter of the second gear is d2, the number of teeth is a2, the transmission ratio i=d1/d 2 of the first gear and the second gear is further that i=0.5; the outer diameter of the guide part 31 is d3, the tooth number is a3, a mounting hole 311 is designed on the rotating shaft, the aperture is d4, the rotating shaft is in contact with the first gear through the second gear for transmission, the guide part 31 is directly assembled with a rack track on the air deflector, the track comprises an upper track and a lower track, the tooth height of the rack is about 0.2mm smaller than the tooth height l2 on the guide part 31, and the rotation center is changed along the rack track by moving on the rack track; and when the rotation center reaches the preset position, the second limiting structure 52 moves outwards for 1mm, but is not limited to 1mm, the movement range of the second limiting structure 52 can be between 0.5mm and 2mm, and finally the second limiting structure 52 is embedded between two teeth of the guiding part 31 through the extending end, namely the limiting part 521, so that the motor can drive the air deflector to sweep air up and down.

The rotating shaft is provided with a connecting hole; the second limiting structure 52 is installed in the connecting hole through a connecting shaft, and a limiting groove is arranged in the connecting hole; wherein the diameter d5=d4-0.1 mm of the connecting shaft is further designed with a limit rib 511, the limit rib 511 and a limit groove on the rotating shaft realize limit, and prevent the air deflector from moving left and right to drop after being installed, and the height l3 of the limit rib 511 is 0.2mm, but is not limited to 0.2mm, and the depth l 4=l3-0.1 mm of the limit groove.

According to still another aspect of the present application, an air conditioner is provided, including an air guiding assembly, the air guiding assembly is the air guiding assembly described above. The air conditioner can be a split type wall-mounted air conditioner, but is not limited to the split type wall-mounted air conditioner, and the air conditioner can be any air conditioner with an air deflector, including a courtyard, a cabinet, a mobile machine and the like. The utility model provides an air conditioner casing (panel 72, panel 72 body 71, drain pan etc.), wind-guiding subassembly (including wind-guiding structure 1, ejecting mechanism 2, drive structure, pivot etc.) can realize that the center of rotation is adjustable to wind-guiding structure 1.

The gear box is connected with a push-out rod through a crank, and the push-out rod is connected with an air guide structure 1; the first driving structure 41 on the two sides can drive the crank to rotate, so that the push-out rod can push out, and finally the air deflector can be pushed out to be far away from the air outlet or pulled back to the air outlet.

It will be readily appreciated by those skilled in the art that the above advantageous ways can be freely combined and superimposed without conflict.

The foregoing description of the preferred embodiment of the present utility model is not intended to limit the utility model to the particular form disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model. The foregoing is merely a preferred embodiment of the present application and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principles of the present application, and these modifications and variations should also be regarded as the scope of the present application.

Claims (12)

1. The air guide assembly is characterized by comprising an air guide structure (1), wherein the air guide structure (1) is arranged at an air outlet; the air guide structure (1) is used for guiding the flow direction of the air; the air guide structure (1) is provided with a rotation center, and the air guide structure (1) can rotate around the rotation center so as to adjust the air guide direction of the air guide structure (1) and/or open and close the air outlet; the position of the rotation center is adjustable; when the air guide structure (1) closes the air outlet, the rotation center is adjusted to be above the gravity center of the air guide structure (1).

2. The air guiding assembly according to claim 1, further comprising an ejector mechanism (2), the ejector mechanism (2) being connected to the air guiding structure (1); the air guide assembly is positioned at the outer side of the air outlet as a pushing-out position, and can close the air outlet as a closing position; the pushing mechanism (2) is used for guiding the air guide assembly to move between the pushing position and the closing position.

3. A wind-guiding assembly according to claim 2, further comprising a first driving structure (41), the first driving structure (41) being connected to the pushing-out mechanism (2), the first driving structure (41) being adapted to drive the pushing-out mechanism (2) into motion, thereby guiding the wind-guiding assembly into motion between the pushing-out position and the closed position.

4. The air guide assembly according to claim 1, further comprising a rotating mechanism (3), wherein the rotating mechanism (3) is used for guiding the air guide structure (1) to rotate so as to adjust the air guide direction of the air guide structure (1) and/or open and close the air outlet; the rotation center is formed at the position of the rotation mechanism (3); the rotating mechanism (3) is movably arranged on the air guide structure (1) so as to adjust the position of the rotating mechanism (3) on the air guide structure (1) and further adjust the position of the rotating center.

5. The air guide assembly of claim 4, further comprising a second drive structure (42); the rotating mechanism (3) moves on the air guide structure (1) to be in an active state, and the rotating mechanism (3) is static on the air guide structure (1) to be in a fixed state; -said rotation mechanism (3) having said active condition and said fixed condition; the second driving structure (42) is connected with the rotating mechanism (3), and the second driving structure (42) is used for driving the rotating mechanism (3) to rotate; when the rotating mechanism (3) is in the active state, the second driving structure (42) can drive the rotating mechanism (3) to move on the air guide structure (1); when the rotating mechanism (3) is in the fixed state, the second driving structure (42) can drive the rotating mechanism (3) to rotate so as to drive the air guide structure (1) to rotate.

6. The air guiding assembly according to claim 4, wherein a guiding structure (11) is further arranged on the air guiding structure (1), the rotating mechanism (3) is arranged on the guiding structure (11), and the guiding structure (11) is used for guiding the rotating mechanism (3) to move on the air guiding structure (1).

7. The air guiding assembly according to claim 6, characterized in that the guiding structure (11) is provided with guiding holes (111); the rotary mechanism (3) is provided with a guide part (31), and the guide part (31) is movably arranged in the guide hole (111) so that the guide hole (111) can guide the rotary mechanism (3) to move on the air guide structure (1); the guide part (31) enters the guide hole (111) from the first side of the guide hole (111); the air guide assembly further comprises a first limit structure (51); the first limiting structure (51) is connected with the guide part (31), and the first limiting structure (51) is located on the second side of the guide hole (111).

8. The air guiding assembly according to claim 4, wherein the rotation mechanism (3) comprises a second limit structure (52); the rotation mechanism (3) has a first position and a second position; when the rotating mechanism (3) is positioned at the first position, the rotating mechanism (3) is positioned above the gravity center of the air guide structure (1); when the rotating mechanism (3) is positioned at the second position, the rotating mechanism (3) is positioned below the gravity center of the air guide structure (1); -said rotation mechanism (3) being movable between said first position and said second position; when the rotating mechanism (3) moves to the first position or the second position, the second limiting structure (52) can limit the movement of the rotating mechanism (3).

9. The air guide assembly according to claim 8, wherein the second limiting structure (52) comprises a limiting ring, one end of which is provided with a limiting portion (521); the limiting ring is sleeved outside the rotating mechanism (3); when the rotating mechanism (3) is provided with the guide part (31), the air guiding structure (1) is further provided with the guide structure (11), and the guide structure (11) is provided with the guide hole (111), when the rotating mechanism (3) moves to the first position or the second position, the limiting part (521) can extend into the guide hole (111) so as to limit the movement of the guide part (31) in the guide hole (111), and further limit the movement of the rotating mechanism (3).

10. The air guide assembly according to claim 9, wherein the outer periphery of the guide portion (31) is provided with a plurality of first poking portions, and the plurality of first poking portions are sequentially arranged around the circumference of the guide portion (31); when the air guide structure (1) is further provided with a guide structure (11), and the guide structure (11) is provided with a guide hole (111), the inner peripheral wall of the guide hole (111) is provided with a second stirring part; the first stirring part and the second stirring part are meshed with each other; a third poking part matched with the first poking part is arranged on the inner shaft wall of the limiting ring; one end of part of the third stirring part extends out of the limit ring to form the limit part (521); the third poking part extending out of the limiting ring can be meshed with the first poking part.

11. Wind-guiding assembly according to claim 9 or 10, characterized in that the rotation mechanism (3) further comprises a gear set (6), the gear set (6) being connected with the guide (31); when the air guide assembly further comprises a second driving structure (42), the second driving structure (42) can drive the gear set (6) to rotate, and then the guide part (31) is driven to move in the guide hole (111).

12. An air conditioner, characterized in that the air conditioner comprises an air guiding assembly, and the air guiding assembly is the air guiding assembly of any one of claims 1-11.

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