CN217653976U - Air guide mechanism and air conditioner - Google Patents

Abstract

The utility model provides an air guide mechanism and air conditioner relates to the air conditioning technology field, this air guide mechanism includes guide duct and drive assembly, the guide duct is used for rotationally setting up in air outlet department, drive assembly is connected with the guide duct transmission, be used for driving the guide duct and rotate, the guide duct includes first drainage board and second drainage board, first drainage board and second drainage board interval set up, and form the wind-guiding passageway between first drainage board and the second drainage board, the open area of the air inlet end of wind-guiding passageway is greater than the open area of the air-out end of wind-guiding passageway. When actual air guide, the air duct rotates under drive assembly's drive, and simultaneously, the adherence drainage is realized by first drainage plate and second drainage plate to the air current for most air current of air outlet department is sent away by the wind-guiding passageway between first drainage plate and the second drainage plate, and air-out end opening is less, makes the air current can pressurize when wind-guiding passageway, through pressurization increase air supply distance, thereby has realized accurate air supply.

Description

Air guide mechanism and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to an air guide mechanism and air conditioner.

Background

At present, most of traditional wall-mounted air conditioners control the air supply direction by utilizing air guide doors, have a certain adjusting function on the wind direction, but are poor in adjusting function, weak in control capability on the wind direction and difficult to fall to the ground when heating. And traditional wind-guiding door air supply distance is nearer, has also influenced its regulatory action, is difficult to realize accurate air supply.

SUMMERY OF THE UTILITY MODEL

The utility model provides a problem be how to promote the air supply distance, realize accurate air supply, promote wind-guiding regulatory action simultaneously.

In order to solve the problems, the utility model adopts the following technical proposal to solve.

In a first aspect, the utility model provides an air guide mechanism, including guide duct and drive assembly, the guide duct is used for rotationally setting up in air outlet department, drive assembly with the guide duct transmission is connected, is used for driving the guide duct rotates, the guide duct includes first drainage plate and second drainage plate, first drainage plate with second drainage plate interval sets up, just first drainage plate with form the wind-guiding passageway between the second drainage plate, the open area of the air inlet end of wind-guiding passageway is greater than the open area of the air-out end of wind-guiding passageway.

The utility model provides an air guide mechanism, through setting up the guide duct, the guide duct includes first drainage plate and second drainage plate, is formed with the wind-guiding passageway between first drainage plate and the second drainage plate, and the open area of the air inlet end of wind-guiding passageway is greater than the open area of the air-out end of wind-guiding passageway. During actual air guiding, the air guide cylinder is driven by the driving assembly to rotate, so that the air guiding direction is adjusted, air is supplied downwards during heating, and air is supplied upwards during cooling. Simultaneously, the adherence drainage is realized by first drainage plate and second drainage plate to the air current for most air current of air outlet department is sent away by the wind-guiding passageway between first drainage plate and the second drainage plate, and air-out end opening is less, makes the air current can pressurize when the wind-guiding passageway, through pressurization increase air supply distance, thereby has realized accurate air supply. Compared with the prior art, the utility model discloses utilize the drainage effect of first drainage plate and second drainage plate to realize the wind-guiding, improved the effect of air conditioner wind-guiding to through pressurization increase air supply distance, improved the remote air supply effect of air conditioner, thereby realized accurate air supply.

In an optional embodiment, the air duct further includes end plates disposed at two ends of the air outlet, the driving assembly is in transmission connection with the end plates, the first drainage plate and the second drainage plate are disposed on the end plates, and the first drainage plate and the second drainage plate are relatively fixed and arranged at an included angle, so that the width a of the air inlet end of the air guide channel is greater than the width b of the air outlet end.

The utility model provides a wind-guiding mechanism is through setting up the end plate to make first drainage board and second drainage board homoenergetic fix the setting on the end plate, thereby realized fixed mounting, promoted holistic structural strength and whole rotation control effect, first drainage board and second drainage board are the contained angle setting simultaneously, can guarantee that air inlet end opening is littleer, and then guaranteed the pressurization effect.

In an alternative embodiment, the included angle between the first and second flow guide plates is between 15-30 °.

The utility model provides an air guide mechanism through the contained angle size of rationally setting up first drainage plate and second drainage plate, can promote its pressurization effect when guaranteeing reasonable air supply, has also guaranteed the air supply volume when guaranteeing remote air supply.

In an optional embodiment, the width a of the air inlet end of the air guide channel is 1.5-2 times of the width b of the air outlet end.

The utility model provides a wind guiding mechanism, through the air inlet end of reasonable setting wind-guiding passageway and the width ratio of air-out end, can guarantee when expanding the air intake width as far as possible that the air outlet is unlikely to the undersize and influence the air supply volume, guaranteed the air supply effect.

In an optional embodiment, the first drainage plate and the second drainage plate are respectively connected with two side edges of the end plate in a sealing manner, and the end plate is plugged and arranged between the first drainage plate and the second drainage plate.

The utility model provides a wind-guiding mechanism, first drainage plate, second drainage plate and the sealed setting of end plate to make the lateral wall of the wind-guiding passageway of formation be in encapsulated situation, avoid leaking out, and then make the gas homoenergetic that gets into by the air intake see off from the air outlet, guaranteed the pressurization air supply effect.

In an optional embodiment, the air duct further includes a first flaring plate and a second flaring plate, the first flaring plate is disposed at the air inlet end of the first flow guide plate and is bent towards a direction far away from the second flow guide plate relative to the first flow guide plate; the second flaring board sets up the air inlet end of second drainage board, and it is relative the second drainage board is towards keeping away from the direction of first drainage board is bent, first flaring board with form between the second flaring board and expand the opening outward, expand the opening outward with the air inlet end of wind-guiding passageway switches on, just expand open-ended opening area outward and be greater than the opening area of wind-guiding passageway.

The utility model provides an air guide mechanism through setting up first flaring board and second flaring board, can form outer flaring opening to promote the air inlet area of air inlet department, make more wind get into the wind-guiding passageway, and blow off by between first drainage plate and the second drainage plate, promoted the effect of remote air supply.

In an alternative embodiment, the included angle between the first flared plate and the first flow guide plate is between 90 ° and 150 °; the included angle between the second flaring plate and the second drainage plate is between 90 and 150 degrees.

The utility model provides a wind-guiding mechanism through the contained angle that rationally sets up first flaring board and second flaring board, has guaranteed the air inlet effect for the air current can paste in first flaring board and second flaring board enter into the wind-guiding passageway.

In an alternative embodiment, the junction of the inner side surface of the first flared plate and the inner side surface of the first flow diverter plate is cambered to provide a smooth transition between the inner side surface of the first flared plate and the inner side surface of the first flow diverter plate; the junction of the inner side surface of the second flared plate and the inner side surface of the second flow-guiding plate is an arc-shaped surface, so that the inner side surface of the second flared plate and the inner side surface of the second flow-guiding plate are in smooth transition.

The utility model provides a wind-guiding mechanism sets the cambered surface to through the junction with flaring board and drainage plate, can guarantee smooth transition, makes the air current adherence send into the wind-guiding passageway as far as possible, avoids appearing local turbulent phenomenon and influences the air inlet.

In an optional embodiment, rotating shafts are arranged at two ends of the air duct, the rotating shafts are rotatably assembled at the air outlet, and the driving assembly is in transmission connection with the rotating shafts and is used for driving the rotating shafts to rotate.

In a second aspect, the present invention provides an air conditioner including the air guide mechanism according to any one of the above embodiments.

Drawings

Fig. 1 is an assembly structural schematic view of an air guiding mechanism according to a first embodiment of the present invention;

fig. 2 is a schematic view of a connection structure of an air guiding mechanism according to a first embodiment of the present invention;

FIG. 3 is a schematic structural view of the air duct of FIG. 2;

fig. 4 is a schematic structural view of an air guiding mechanism in a cooling mode according to a first embodiment of the present invention;

fig. 5 is a schematic structural view of the air guide mechanism according to the first embodiment of the present invention in the heating mode.

Description of the reference numerals:

100-an air guide mechanism; 110-an air duct; 111-a first flow-directing plate; 113-a second flow-directing plate; 115-an end plate; 117-a first flared plate; 118-a shaft; 119-a second flared plate; 130-a drive assembly; 150-a wind-guiding channel; 170-flaring the opening; 200-an air conditioner; 210-a base; 211-air outlet.

Detailed Description

As disclosed in the background art, the prior art is generally implemented by directly adopting a flat air guide door for air outlet of an air conditioner, and adopts a one-way wind shielding structure, namely, a single plate is used for shielding wind to further implement adjustment of wind direction, and the adjustment effect is poor, and the adjustment of the wind direction is not accurate. Moreover, the air guide door is adopted for shielding wind, so that the air flow energy is damaged undoubtedly, the air supply distance is reduced, the remote air supply cannot be realized, and the accurate air supply is more difficult to realize.

In order to solve the above problems, the present invention provides a wind guiding mechanism and an air conditioner, which is made in order to make the above objects, features and advantages of the present invention more obvious and understandable, and the following description is made in conjunction with the accompanying drawings.

First embodiment

Referring to fig. 1 to 5, the present embodiment provides an air guide mechanism 100, which improves an air guide effect of an air conditioner, and performs cooling air supply upwards and heating air supply downwards, and increases an air supply distance, and improves a remote air supply effect of the air conditioner, thereby achieving accurate air supply.

The air guide mechanism 100 provided by the embodiment comprises an air guide cylinder 110 and a driving assembly 130, the air guide cylinder 110 is used for being rotatably arranged at an air outlet 211, the driving assembly 130 is in transmission connection with the air guide cylinder 110 and is used for driving the air guide cylinder 110 to rotate, the air guide cylinder 110 comprises a first drainage plate 111 and a second drainage plate 113, the first drainage plate 111 and the second drainage plate 113 are arranged at intervals, an air guide channel 150 is formed between the first drainage plate 111 and the second drainage plate 113, and the opening area of the air inlet end of the air guide channel 150 is larger than that of the air outlet end of the air guide channel 150.

In this embodiment, the air guiding mechanism 100 is installed on a base 210 of the air conditioner 200, an air outlet 211 is disposed on the base 210, and the air duct 110 is rotatably disposed at the air outlet 211, so as to guide the outlet air at the air outlet 211, and the driving assembly 130 drives the air duct 110 to rotate. By arranging the air duct 110 and forming the air guide channel 150 between the first drainage plate 111 and the second drainage plate 113, the opening area of the air inlet end of the air guide channel 150 is larger than the opening area of the air outlet end of the air guide channel 150. During actual air guiding, the air guiding cylinder 110 is driven by the driving assembly 130 to rotate, so that the air guiding direction is adjusted, air is supplied downwards during heating, and air is supplied upwards during cooling. Simultaneously, the adherence drainage is realized by first drainage plate 111 and second drainage plate 113 to the air current for most air current of air outlet 211 department is sent away by the wind-guiding passageway 150 between first drainage plate 111 and the second drainage plate 113, and the air-out end opening is less, makes the air current pressurize when wind-guiding passageway 150, increases the air supply distance through the pressurization, thereby has realized accurate air supply.

It should be noted that in the present embodiment, the air duct 110 is rotatably disposed at the air outlet 211, and a width of the air duct 110 is smaller than a width of the air outlet 211, so that the air duct 110 can rotate in the air outlet 211 to guide air. Specifically, the air inlet end of the air duct 110 is located in the air outlet 211, the air outlet end extends out of the air outlet 211, and the driving component 130 is in transmission connection with the portion, close to the air inlet end, of the air duct 110, so that the portion, rotating at a large angle, of the air duct 110 is located outside the air outlet 211, and the angle adjustment range of the portion is further expanded.

In this embodiment, the air duct 110 further includes end plates 115 disposed at two ends of the air outlet 211, the driving assembly 130 is in transmission connection with the end plates 115, the first flow guiding plate 111 and the second flow guiding plate 113 are both disposed on the end plates 115, and the first flow guiding plate 111 and the second flow guiding plate 113 are relatively fixed and disposed at an included angle, so that the width a of the air inlet end of the air guiding channel 150 is greater than the width b of the air outlet end. Specifically, end plate 115 is two, two end plates 115, first drainage plate 111 and the integrative setting of second drainage plate 113, and form this air duct 110, through setting up end plate 115, and make first drainage plate 111 and second drainage plate 113 homoenergetic fixed setting on end plate 115, thereby fixed mounting has been realized, holistic structural strength and whole rotation control effect have been promoted, first drainage plate 111 and second drainage plate 113 are the contained angle setting simultaneously, it is littleer to guarantee air inlet end opening, and then guaranteed the pressurization effect.

In the present embodiment, the air guide tube 110 is rotated downward during heating so that the opening of the air guide passage 150 is directed downward, and the air guide tube 110 is rotated upward during heating so that the opening of the air guide passage 150 is directed upward.

In this embodiment, the included angle between the first drainage plate 111 and the second drainage plate 113 is 15-30 degrees, preferably, the included angle between the first drainage plate 111 and the second drainage plate 113 is 17 degrees, and by reasonably setting the included angle between the first drainage plate 111 and the second drainage plate 113, the pressurization effect can be improved while reasonable air supply is ensured, and the air supply volume is also ensured while long-distance air supply is ensured.

In this embodiment, the width a of the air inlet end of the air guiding channel 150 is 1.5-2 times the width b of the air outlet end. Preferably, the width a of the air inlet end of the air guide channel 150 is 1.8 times the width b of the air outlet end, specifically, the width b of the air outlet end of the air guide channel 150 is 20mm, and the width a of the air inlet end of the air guide channel 150 is 36mm. By reasonably setting the width ratio of the air inlet end and the air outlet end of the air guide channel 150, the width of the air inlet can be enlarged as much as possible, and meanwhile, the air outlet 211 is not too small to influence the air supply amount, and the air supply effect is ensured.

It should be noted that, in this embodiment, the width a of the air inlet end of the air guiding channel 150 substantially refers to a distance between the air inlet end of the first flow guiding plate 111 and the air inlet end of the second flow guiding plate 113, which can represent the air inlet area of the air guiding channel 150. Similarly, the width b of the air outlet end of the air guide channel 150 substantially refers to the distance between the air outlet end of the first flow guide plate 111 and the air outlet end of the second flow guide plate 113, which can represent the air outlet area of the air guide channel 150.

In this embodiment, the first flow-guiding plate 111 and the second flow-guiding plate 113 are respectively connected to two side edges of the end plate 115 in a sealing manner, and the end plate 115 is sealed and disposed between the first flow-guiding plate 111 and the second flow-guiding plate 113. Specifically, the first drainage plate 111, the second drainage plate 113 and the two end plates 115 are integrally arranged, so that the air guide cylinder 110 in a sealed cylinder shape is formed, the side wall of the formed air guide channel 150 is in a sealed state, air leakage is avoided, air entering from the air inlet can be discharged from the air outlet 211, and a pressurization air supply effect is guaranteed.

In this embodiment, the air duct 110 further includes a first flared plate 117 and a second flared plate 119, the first flared plate 117 is disposed at the air inlet end of the first flow guiding plate 111, and is bent toward a direction away from the second flow guiding plate 113 relative to the first flow guiding plate 111; the second flaring board 119 sets up the air inlet end at the second drainage plate to bend towards the direction of keeping away from first drainage plate 111 relative to second drainage plate 113, form outer flaring opening 170 between first flaring board 117 and the second flaring board 119, outer flaring opening 170 communicates with air guide channel 150's air inlet end, and the open area who expands opening 170 outward is greater than air guide channel 150's open area. Specifically, the first flaring plate 117 is integrally arranged at the air inlet end of the first flow guide plate 111, the second flaring plate 119 is integrally arranged at the air inlet end of the second flow guide plate 113, and the two ends of the first flaring plate 117 and the two ends of the second flaring plate 119 are fixedly connected with the two end plates 115. Through setting up first flaring board 117 and second flaring board 119, can form outer flaring opening 170 to promote the air inlet area of air inlet department, make more wind get into wind-guiding passageway 150, and blow out by blowing out between first drainage plate 111 and the second drainage plate 113, promoted the effect of remote air supply.

In this embodiment, the included angle between the first flared plate 117 and the first flow guide plate 111 is between 90 ° and 150 °; the included angle between the second flared plate 119 and the second flow guide plate 113 is between 90 and 150. Preferably, the included angle between the first flaring plate 117 and the first flow guide plate 111 is 150 degrees, the included angle between the second flaring plate 119 and the second flow guide plate 113 is 150 degrees, and the air inlet effect is ensured by reasonably setting the included angle between the first flaring plate 117 and the second flaring plate 119, so that the air flow can enter the air guide channel 150 by sticking the first flaring plate 117 and the second flaring plate 119. Meanwhile, the arrangement of the larger included angle also slows down the blocking effect of the first flaring plate 117 and the second flaring plate 119 on the airflow, and slows down the kinetic energy loss of the airflow.

In this embodiment, the junction of the inner surface of the first flared plate 117 and the inner surface of the first flow-diversion plate 111 is cambered to provide a smooth transition between the inner surface of the first flared plate 117 and the inner surface of the first flow-diversion plate 111; the junction of the inside surface of the second flared plate 119 and the inside surface of the second flow diverter plate 113 is radiused to provide a smooth transition between the inside surface of the second flared plate 119 and the inside surface of the second flow diverter plate 113. The cambered surface is arranged at the joint of the flaring plate and the drainage plate, so that smooth transition can be ensured, the airflow is fed into the air guide channel 150 along the wall as far as possible, and the influence on air inlet caused by the local turbulence phenomenon is avoided.

In this embodiment, the two ends of the air duct 110 are provided with a rotating shaft 118, the rotating shaft 118 is configured to be rotatably assembled at the air outlet 211, and the driving component 130 is in transmission connection with the rotating shaft 118 and configured to drive the rotating shaft 118 to rotate. Specifically, the rotating shaft 118 is disposed on the end plate 115, the end plate 115 is rotatably assembled with the base 210, and the driving component 130 may be a driving motor, which is fixed inside the base 210 and is in transmission connection with the rotating shaft 118 to drive the rotating shaft 118 to rotate, and further drive the air duct 110 to rotate.

In summary, the air guiding mechanism 100 provided in this embodiment forms the air guiding channel 150 by providing the first drainage plate 111 and the second drainage plate 113, and the opening area of the air inlet end of the air guiding channel 150 is larger than the opening area of the air outlet end, so that the air flow is pressurized when passing through the air guiding channel 150, and the air supply distance is increased by pressurization, thereby realizing accurate air supply. Set up first flaring board 117 and second flaring board 119 simultaneously, the air inlet amount of wind can be further enlarged, the demand of the air supply amount of wind has been guaranteed, first flaring board 117 and first drainage plate 111, the equal smooth transition of second flaring board 119 and second drainage plate 113 simultaneously, adherent air supply has been realized, the air current flows to first drainage plate 111 along first flaring board 117, flow to second drainage plate 113 along second flaring board 119, the loss of air current kinetic energy has been slowed down, the emergence of turbulent phenomenon has been avoided, the air supply effect has been guaranteed. The embodiment utilizes the drainage effect of first drainage plate 111 and second drainage plate 113 to realize the wind-guiding, has improved the effect of air conditioner wind-guiding to through pressurization increase air supply distance, improved the long-distance air supply effect of air conditioner, thereby realized accurate air supply.

Second embodiment

With reference to fig. 1, the present embodiment provides an air conditioner 200, which includes an air guiding mechanism 100, and the basic structure and principle of the air guiding mechanism 100 and the technical effects thereof are the same as those of the first embodiment, and for the sake of brief description, corresponding contents in the first embodiment may be referred to for parts that are not mentioned in the present embodiment.

In this embodiment, the air conditioner 200 may be a wall-mounted air conditioner, the air conditioner 200 includes a base 210 and an air guiding mechanism 100, the air guiding mechanism 100 includes an air duct 110 and a driving component 130, the air duct 110 is used for rotationally setting up in air outlet 211 department, the driving component 130 is connected with the transmission of air duct 110, be used for driving the air duct 110 to rotate, the air duct 110 includes a first drainage plate 111 and a second drainage plate 113, the first drainage plate 111 and the second drainage plate 113 are arranged at intervals, and an air guiding channel 150 is formed between the first drainage plate 111 and the second drainage plate 113, an opening area of an air inlet end of the air guiding channel 150 is greater than an opening area of an air outlet end of the air guiding channel 150. The base 210 is provided with an air outlet 211, the air guide tube 110 is rotatably disposed at the air outlet 211, and the driving assembly 130 is disposed in the base 210 and is in transmission connection with the air guide tube 110, so as to drive the air guide tube 110 to rotate at the air outlet 211, thereby guiding air.

It should be noted that, in the embodiment, the air duct 110 is in clearance fit with the inner wall of the air outlet 211, and the width of the air duct 110 is smaller than the width of the air outlet 211, so that the air duct 110 can rotate at the air outlet 211. Specifically, the air inlet end of the air duct 110 is rotatably disposed in the air outlet 211, the air outlet end of the air duct 110 is located outside the air outlet 211, and the driving component 130 is in transmission connection with the air inlet end of the air duct 110, so that the large-angle rotating portions of the air duct 110 are all located outside the air outlet 211, and the adjusting effect is further ensured.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (10)

1. The air guide mechanism is characterized by comprising an air guide cylinder (110) and a driving assembly (130), wherein the air guide cylinder (110) is rotatably arranged at an air outlet (211), the driving assembly (130) is in transmission connection with the air guide cylinder (110) and is used for driving the air guide cylinder (110) to rotate, the air guide cylinder (110) comprises a first drainage plate (111) and a second drainage plate (113), the first drainage plate (111) and the second drainage plate (113) are arranged at intervals, an air guide channel (150) is formed between the first drainage plate (111) and the second drainage plate (113), and the opening area of an air inlet end of the air guide channel (150) is larger than that of an air outlet end of the air guide channel (150).

2. The air guiding mechanism as claimed in claim 1, wherein the air duct (110) further includes end plates (115) disposed at two ends of the air outlet (211), the driving assembly (130) is in transmission connection with the end plates (115), the first flow-guiding plate (111) and the second flow-guiding plate (113) are both disposed on the end plates (115), and the first flow-guiding plate (111) and the second flow-guiding plate (113) are relatively fixed and disposed at an included angle, so that a width a of an air inlet end of the air guiding channel (150) is greater than a width b of an air outlet end.

3. The air guide mechanism as claimed in claim 2, wherein the included angle between the first flow guide plate (111) and the second flow guide plate (113) is 15-30 °.

4. The air guide mechanism as claimed in claim 2, wherein the width a of the air inlet end of the air guide channel (150) is 1.5-2 times the width b of the air outlet end.

5. The air guiding mechanism as claimed in claim 2, wherein the first flow-guiding plate (111) and the second flow-guiding plate (113) are respectively connected with two side edges of the end plate (115) in a sealing manner, and the end plate (115) is arranged between the first flow-guiding plate (111) and the second flow-guiding plate (113) in a sealing manner.

6. The air guiding mechanism as claimed in claim 1, wherein the air duct (110) further comprises a first flared plate (117) and a second flared plate (119), the first flared plate (117) is disposed at the air inlet end of the first flow guide plate (111) and is bent towards a direction away from the second flow guide plate (113) relative to the first flow guide plate (111); second flaring board (119) set up the air inlet end of second drainage plate, and it is relative second drainage plate (113) are towards keeping away from bend in the direction of first drainage plate (111), first flaring board (117) with form outer flaring opening (170) between second flaring board (119), outer flaring opening (170) with the air inlet end of wind-guiding passageway (150) switches on, just the open area of outer flaring opening (170) is greater than the open area of wind-guiding passageway (150).

7. The air guiding mechanism as claimed in claim 6, characterized in that the included angle between the first flaring plate (117) and the first flow guiding plate (111) is between 90 ° and 150 °; the included angle between the second flaring plate (119) and the second flow guide plate (113) is between 90 and 150 degrees.

8. The air guiding mechanism as recited in claim 6, characterized in that the junction of the inner side surface of the first flared plate (117) and the inner side surface of the first flow-guide plate (111) is arc-shaped so as to make a smooth transition between the inner side surface of the first flared plate (117) and the inner side surface of the first flow-guide plate (111); the junction of the inner side surface of the second flared plate (119) and the inner side surface of the second flow diverter plate (113) is cambered to provide a smooth transition between the inner side surface of the second flared plate (119) and the inner side surface of the second flow diverter plate (113).

9. The air guide mechanism as claimed in any one of claims 1 to 8, wherein a rotating shaft (118) is disposed at each end of the air guide duct (110), the rotating shaft (118) is configured to be rotatably mounted at the air outlet (211), and the driving assembly (130) is in transmission connection with the rotating shaft (118) and configured to drive the rotating shaft (118) to rotate.

10. An air conditioner characterized by comprising the air guide mechanism as recited in any one of claims 1 to 9.

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