CN117984743A - Air conditioner air outlet assembly and vehicle - Google Patents

Abstract

The invention provides an air conditioner air outlet assembly and a vehicle, which belong to the technical field of air outlets and comprise: the shell is internally provided with an air duct; the first air guide piece and the second air guide piece are rotatably arranged in the air duct, the driving disc is connected with the first air guide piece and the second air guide piece, and the driving disc drives the first air guide piece and the second air guide piece to act when rotating; when the driving disc is positioned at the first position, the first air guide piece and the second air guide piece are close or folded; when the driving disc rotates from the first position to the second position, the distance between the first air guide piece and the second air guide piece is increased, and the inclination angle of the first air guide piece and the second air guide piece is increased; when the driving disk rotates from the first position to the third position, the distance between the first air guide piece and the second air guide piece is increased, and the inclination angle of the first air guide piece and the second air guide piece is increased. The beneficial effects of the invention are as follows: the air guide piece has larger air output of the air outlet assembly when the same set limit angle is used, or has larger limit rotation angle when the set minimum air output of the air outlet assembly is unchanged.

Description

Air conditioner air outlet assembly and vehicle

Technical Field

The invention belongs to the technical field of air outlets, and relates to an air conditioner air outlet assembly and a vehicle.

Background

The air conditioner is arranged on the vehicle or other vehicles to adjust the temperature in the vehicle so as to meet the comfort of passengers, and the air outlet angle and the air outlet quantity of the air conditioner are adjusted by adjusting the air outlet so as to better meet the demands of users.

As shown in fig. 6, the air outlet of the air conditioner adjusts the air outlet angle by driving the air guide members (blades) to rotate, but the space in the existing air outlet shell is limited, and generally only two outer air guide members can be arranged.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides an air outlet assembly of an air conditioner and a vehicle.

The aim of the invention can be achieved by the following technical scheme: an air conditioner air outlet assembly, comprising:

the shell is internally provided with an air duct;

the air flow adjusting mechanism comprises a first air guide piece, a second air guide piece and a driving disc;

The first air guide piece and the second air guide piece are rotatably arranged in the air duct, the driving disc is connected with the first air guide piece and the second air guide piece, and the driving disc drives the first air guide piece and the second air guide piece to act when rotating;

The driving disc can rotate to a first position, a second position and a third position, an upward air guide adjusting section is formed between the first position and the second position, and a downward air guide adjusting section is formed between the first position and the third position;

when the driving disc is positioned at the first position, the first air guide piece and the second air guide piece are close or folded;

When the driving disc rotates in the upward air guide adjusting section, the angle of the driving disc determines the upward inclined angle of the first air guide piece and the second air guide piece; when the driving disc rotates from the first position to the second position, the distance between the first air guide piece and the second air guide piece is increased, and the inclination angle of the first air guide piece and the second air guide piece is increased;

When the driving disc rotates in the downward air guide adjusting section, the angle of the driving disc determines the downward inclination angle of the first air guide piece and the second air guide piece; when the driving disc rotates from the first position to the third position, the distance between the first air guide piece and the second air guide piece is increased, and the inclination angle of the first air guide piece and the second air guide piece is increased.

Preferably, the first air guiding member has a first outer rotating shaft portion and a first inner rotating shaft portion respectively located on two different axes, and the first outer rotating shaft portion and the first inner rotating shaft portion are connected with the housing and the driving disc; the second wind guide piece is provided with a second outer rotating shaft part and a second inner rotating shaft part which are respectively positioned on two different axes, and the second outer rotating shaft part and the second inner rotating shaft part are connected with the shell and the driving disc.

Preferably, when the driving disc rotates in the downward wind guiding adjustment section, the first wind guiding member rotates with the first outer rotating shaft part as an axis, and the second wind guiding member rotates with the second inner rotating shaft part as an axis; when the driving disc rotates in the upward air guide adjusting section, the first air guide piece rotates by taking the first inner rotating shaft part as an axis, and the second air guide piece rotates by taking the second outer rotating shaft part as an axis; the first air guide piece and the second air guide piece are arranged in parallel all the time.

Preferably, the driving disc is rotatably connected with the side wall of the housing, and the first outer rotating shaft part, the first inner rotating shaft part, the second outer rotating shaft part and the second inner rotating shaft part are all connected with the driving disc;

When the driving disc rotates, one of the first outer rotating shaft part or the first inner rotating shaft part is driven to enable the first air guide piece to rotate around the axis where the other one is located;

when the driving disc rotates, one of the second outer rotating shaft part or the second inner rotating shaft part is driven to enable the second air guide piece to rotate around the axis where the other one is located.

Preferably, the driving disc is provided with four linkage grooves, and the first outer rotating shaft part, the first inner rotating shaft part, the second outer rotating shaft part and the second inner rotating shaft part are respectively connected with the four linkage grooves.

Preferably, the linkage groove comprises a driving sub-groove and an avoiding sub-groove; the driving sub-groove is used for driving the corresponding rotating shaft part to move, and the avoidance sub-groove is used for avoiding the corresponding rotating shaft part with unchanged position.

Preferably, four track grooves are formed in the side wall of the shell, and the first outer rotating shaft part, the first inner rotating shaft part, the second outer rotating shaft part and the second inner rotating shaft part are respectively connected with the four track grooves and can slide along the track grooves;

When the driving disc rotates in the upward wind guide adjusting section, the first inner rotating shaft part rotates around the self axis and the first outer rotating shaft part slides along the corresponding track groove, and the second outer rotating shaft part rotates around the self axis and the second inner rotating shaft part slides along the corresponding track groove;

When the driving disc rotates in the downward air guide adjusting section, the first outer rotating shaft part rotates around the self axis and slides along the corresponding track groove, and the second inner rotating shaft part rotates around the self axis and slides along the corresponding track groove.

Preferably, the number of the first outer rotating shaft parts and the number of the first inner rotating shaft parts are two and are respectively located at two ends of the first air guide piece, the number of the second outer rotating shaft parts and the number of the second inner rotating shaft parts are two and are respectively located at two ends of the second air guide piece, four track grooves are formed in two side walls of the shell, and the number of the driving discs is two and are respectively installed at two side walls of the shell.

Preferably, the driving disc is mounted on the inner side or the outer side of the side wall of the shell, and part of the outer edge surface of the driving disc protrudes out of the panel of the shell.

A vehicle, comprising: the air outlet assembly of the air conditioner.

Compared with the prior art, the invention has the beneficial effects that:

1. the air guide piece has larger air output of the air outlet assembly when the same set limit angle is used, or has larger limit rotation angle when the set minimum air output of the air outlet assembly is unchanged, thereby improving the air outlet efficiency of the air outlet.

2. The first wind-guiding piece has two rotation shafts, the second wind-guiding piece also has two rotation shafts, and first wind-guiding piece can rotate around first outer pivot portion or first interior rotation axis portion, and the second wind-guiding piece can rotate around second outer pivot portion or second interior rotation axis portion, and when one wind-guiding piece rotates around interior rotation axis portion, another wind-guiding piece rotates around outer pivot portion, so the wind-guiding piece has realized the motion logic of changing both interval simultaneously when rotating through two pivot portions.

3. The four track grooves are used for respectively restraining the movement tracks of the first outer rotating shaft part, the first inner rotating shaft part, the second outer rotating shaft part and the second inner rotating shaft part, so that the first air guide piece and the second air guide piece can move according to the preset track.

Drawings

Fig. 1 is a structural exploded view of an air outlet assembly of an air conditioner according to the present invention.

Fig. 2A is a schematic view illustrating positions of a first air guiding member and a second air guiding member when a driving disc of the present invention is located at a first position.

Fig. 2B is a schematic diagram illustrating a connection relationship between the first air guiding member and the second air guiding member and four linkage grooves when the driving disc is located at the first position.

Fig. 2C is a schematic diagram illustrating a connection relationship between the first air guiding member and the second air guiding member and four track grooves when the driving disc is located at the first position.

Fig. 2D is a schematic view illustrating the positions of the spindle portions, the linkage grooves and the track grooves when the driving disc is at the first position.

Fig. 3A is a schematic view illustrating positions of the first air guiding member and the second air guiding member when the driving disc is located at the third position.

Fig. 3B is a schematic diagram illustrating a connection relationship between the first air guiding member and the second air guiding member and four linkage grooves when the driving disc is located at the third position.

Fig. 3C is a schematic diagram illustrating a connection relationship between the first air guiding member and the second air guiding member and four track grooves when the driving disc is located at the third position.

Fig. 3D is a schematic view illustrating positions of the spindle portions, the linkage groove and the track groove when the driving disc is at the third position.

Fig. 4A is a schematic view illustrating the positions of the first air guiding member and the second air guiding member when the driving disc is located at the second position.

Fig. 4B is a schematic diagram illustrating a connection relationship between the first air guiding member and the second air guiding member and four linkage grooves when the driving disc is located at the second position.

Fig. 4C is a schematic diagram illustrating a connection relationship between the first air guiding member and the second air guiding member and four track grooves when the driving disc is located at the second position.

Fig. 4D is a schematic view illustrating the positions of the spindle portions, the linkage grooves and the track grooves when the driving disc is in the second position.

Fig. 5A is a schematic view of the drive disk of the present invention mounted on the outside of the housing.

Fig. 5B is a schematic view of the drive disk of the present invention mounted inside a housing.

Fig. 6 is a schematic view of the outer air guide in the conventional air outlet assembly in a normal position and in a limit angular position.

100, A housing; 110. an air duct; 120. a track groove; 200. a first air guide; 210. a first outer rotating shaft portion; 220. a first inner rotating shaft portion; 300. a second air guide; 310. a second outer rotating shaft portion; 320. a second inner rotating shaft portion; 400. a drive plate; 410. a linkage groove; 411. driving the dividing groove; 412. avoiding dividing grooves.

Detailed Description

The following are specific embodiments of the present invention and the technical solutions of the present invention will be further described with reference to the accompanying drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1-4D, an air conditioner air outlet assembly includes: a housing 100 and an airflow adjusting mechanism, wherein an air duct 110 is arranged in the housing 100; the airflow adjusting mechanism comprises a first air guide 200, a second air guide 300 and a driving disc 400; the first air guide piece 200 and the second air guide piece 300 are rotatably installed in the air duct 110, the driving disc 400 is connected with the first air guide piece 200 and the second air guide piece 300, and the driving disc 400 drives the first air guide piece 200 and the second air guide piece 300 to act when rotating; the driving disc 400 can rotate to a first position, a second position and a third position, an upward air guiding adjustment interval is formed between the first position and the second position, and a downward air guiding adjustment interval is formed between the first position and the third position; when the driving disc 400 is located at the first position, the first air guide 200 and the second air guide 300 approach or close; when the driving disc 400 rotates in the upward wind guiding adjustment section, the angle of the driving disc 400 determines the upward inclination angles of the first wind guiding member 200 and the second wind guiding member 300; the distance between the first air guide 200 and the second air guide 300 increases and the inclination angle of the two increases when the driving disk 400 rotates from the first position toward the second position; when the driving disc 400 rotates in the downward wind guiding adjustment section, the angle of the driving disc 400 determines the downward inclination angles of the first wind guiding member 200 and the second wind guiding member 300; the distance between the first and second wind guides 200 and 300 increases and the inclination angle of the two increases when the driving disk 400 rotates from the first position toward the third position.

The air outlet assembly drives the first air guide piece 200 and the second air guide piece 300 to rotate through the driving disc 400, the first air guide piece 200 and the second air guide piece 300 are kept in parallel, and the distance and the angle between the first air guide piece 200 and the second air guide piece 300 can be changed along with the rotation of the driving disc 400; in an example, when the driving disc 400 is in the first position, the first air guiding member 200 and the second air guiding member 300 are combined together, when the driving disc 400 rotates from the first position to the second position or the third position, the distance between the first air guiding member 200 and the second air guiding member 300 is gradually increased and the angle is also gradually increased, and when the driving disc 400 reaches the second position or the third position, the first air guiding member 200 and the second air guiding member 300 reach the limit position and the distance between the first air guiding member and the second air guiding member 300 is the largest.

Compared with the traditional air outlet, the air outlet assembly is more flexible, the first air guide piece 200 and the second air guide piece 300 are combined together in a normal state, when the driving disc 400 is positioned at the second position or the third position, the distance between the first air guide piece 200 and the second air guide piece 300 is maximum, the minimum distance between the first air guide piece 200 and the upper wall surface of the air duct 110 and the minimum distance between the second air guide piece 300 and the lower wall surface of the air duct 110 are not increased, but the distance between the first air guide piece 200 and the second air guide piece 300 is larger than the distance between the two air guide pieces of the traditional air outlet, so that the ventilation quantity can be increased; and the driving disk 400 may also drive the first and second wind guides 200 and 300 beyond the limit position.

Therefore, compared with the traditional air outlet, the air guide piece has larger air outlet quantity of the air outlet assembly when the same set limit angle is adopted, or has larger limit rotation angle when the set minimum air outlet quantity of the air outlet assembly is unchanged, and the air outlet efficiency of the air outlet is improved.

As shown in fig. 1 to 4D, in the above embodiment, the first air guide 200 has the first outer rotary shaft portion 210 and the first inner rotary shaft portion 220, which are respectively located on two different axes, and each of the first outer rotary shaft portion 210 and the first inner rotary shaft portion 220 is connected to the housing 100 and the driving disk 400; the second air guide 300 has a second outer shaft portion 310 and a second inner shaft portion 320, which are respectively located on two different axes, and each of the second outer shaft portion 310 and the second inner shaft portion 320 is connected to the housing 100 and the driving disk 400.

The first outer rotating shaft portion 210 is close to the outside of the case 100 and the first inner rotating shaft portion 220 is close to the inside of the case 100, the second outer rotating shaft portion 310 is close to the outside of the case 100 and the second inner rotating shaft portion 320 is close to the inside of the case 100, that is, the first wind guide 200 has two rotating shafts, the second wind guide 300 also has two rotating shafts, the first wind guide 200 can rotate around the first outer rotating shaft portion 210 or the first inner rotating shaft portion 220, the second wind guide 300 can rotate around the second outer rotating shaft portion 310 or the second inner rotating shaft portion 320, and when one wind guide rotates around the inner rotating shaft portion, the other wind guide rotates around the outer rotating shaft portion, so that the wind guide realizes a motion logic of changing the distance between the two rotating shafts while rotating through the two rotating shaft portions.

Preferably, when the driving disk 400 rotates in the downward wind guiding adjustment region, the first wind guiding member 200 rotates around the first outer rotating shaft 210, and the second wind guiding member 300 rotates around the second inner rotating shaft 320; when the driving disk 400 rotates in the upward wind guiding adjustment section, the first wind guiding member 200 rotates around the first inner rotating shaft 220, and the second wind guiding member 300 rotates around the second outer rotating shaft 310; the first air guiding member 200 and the second air guiding member 300 are disposed in parallel relationship throughout.

As shown in fig. 1 to 5B, in the above embodiment, the driving disk 400 is rotatably connected to the side wall of the housing 100, and the first outer rotary shaft portion 210, the first inner rotary shaft portion 220, the second outer rotary shaft portion 310, and the second inner rotary shaft portion 320 are connected to the driving disk 400; when the driving disc 400 rotates, one of the first outer rotating shaft portion 210 or the first inner rotating shaft portion 220 is driven to rotate the first air guiding piece 200 around the axis of the other one; when the driving disk 400 rotates, one of the second outer shaft portion 310 and the second inner shaft portion 320 is driven to rotate the second wind guide 300 around the axis of the other.

In addition to the above embodiment, the driving disk 400 is provided with four interlocking grooves 410, and the first outer rotating shaft portion 210, the first inner rotating shaft portion 220, the second outer rotating shaft portion 310, and the second inner rotating shaft portion 320 are connected to the four interlocking grooves 410, respectively.

In addition to the above embodiment, the linkage slot 410 includes a driving sub slot 411 and a avoidance sub slot 412; the driving sub-slot 411 is used for driving the corresponding rotating shaft portion to move, and the avoiding sub-slot 412 is used for avoiding the corresponding rotating shaft portion with unchanged position.

The motion logic of this embodiment is: when the driving disc 400 is located at the first position, the first outer rotating shaft portion 210, the first inner rotating shaft portion 220, the second outer rotating shaft portion 310 and the second inner rotating shaft portion 320 are located at the junction of the driving sub slot 411 and the avoidance sub slot 412 corresponding to the linkage slot 410.

When the driving disk 400 rotates from the first position toward the second position, the first inner rotating shaft 220 is kept stationary in the avoidance slot 412 corresponding to the linkage slot 410, the first outer rotating shaft 210 enters the driving slot 411 corresponding to the linkage slot 410 and is driven by the driving disk 400, the second inner rotating shaft 320 enters the driving slot 411 corresponding to the linkage slot 410 and is driven by the driving disk 400, and the second outer rotating shaft 310 is kept stationary in the avoidance slot 412 corresponding to the linkage slot 410, and at this time, the upward inclination angle of the first air guide member 200 and the second air guide member 300 is gradually increased.

When the driving disk 400 rotates from the first position toward the third position, the first inner rotating shaft 220 enters the driving sub-slot 411 corresponding to the linkage slot 410 and is driven by the driving disk 400, the first outer rotating shaft 210 is kept stationary in the avoidance sub-slot 412 corresponding to the linkage slot 410, the second inner rotating shaft 320 is kept stationary in the avoidance sub-slot 412 corresponding to the linkage slot 410, the second outer rotating shaft 310 enters the driving sub-slot 411 corresponding to the linkage slot 410 and is driven by the driving disk 400, and at this time, the downward inclination angle of the first air guide 200 and the second air guide 300 is gradually increased.

As shown in fig. 1 to 4D, in the above embodiment, four track grooves 120 are formed in the side wall of the housing 100, and the first outer rotary shaft portion 210, the first inner rotary shaft portion 220, the second outer rotary shaft portion 310, and the second inner rotary shaft portion 320 are connected to the four track grooves 120, respectively, and are slidable along the track grooves 120; when the driving disk 400 rotates in the upward wind guiding adjustment section, the first inner rotating shaft portion 220 rotates around the own axis and the first outer rotating shaft portion 210 slides along the corresponding track groove 120, the second outer rotating shaft portion 310 rotates around the own axis and the second inner rotating shaft portion 320 slides along the corresponding track groove 120; when the driving disk 400 rotates in the downward wind guiding adjustment section, the first outer rotating shaft portion 210 rotates around its own axis and the first inner rotating shaft portion 220 slides along the corresponding track groove 120, the second inner rotating shaft portion 320 rotates around its own axis and the second outer rotating shaft portion 310 slides along the corresponding track groove 120.

The four track grooves 120 are used to restrict movement tracks of the first outer rotary shaft portion 210, the first inner rotary shaft portion 220, the second outer rotary shaft portion 310, and the second inner rotary shaft portion 320, respectively, so that the first air guide 200 and the second air guide 300 can move in accordance with predetermined tracks.

As shown in fig. 1 to 5B, based on the above embodiment, the number of the first outer rotating shaft portion 210 and the first inner rotating shaft portion 220 is two and are respectively located at two ends of the first air guiding member 200, the number of the second outer rotating shaft portion 310 and the second inner rotating shaft portion 320 is two and are respectively located at two ends of the second air guiding member 300, four track grooves 120 are formed on two side walls of the housing 100, and the number of the driving discs 400 is two and are respectively mounted on two side walls of the housing 100.

In this embodiment, two rotating shafts are specifically disposed on both sides of each air guide, so that the movement of the first air guide 200 and the second air guide 300 can be more stable and smooth.

As shown in fig. 5A and 5B, in the above embodiment, the driving disk 400 is mounted on the inner side or the outer side of the side wall of the housing 100, and part of the outer peripheral surface of the driving disk 400 protrudes from the panel of the housing 100. It is noted that the driving disc 400 is connected to the housing 100 through a shaft or shaft hole, and a passenger or driver can toggle the outer edge surface of the driving disc 400 to rotate the driving disc 400, thereby controlling the rotation of the two wind guides.

As shown in fig. 1-5B, a vehicle includes: such as an air conditioner air outlet assembly. The shell 100 of the air conditioner air outlet assembly is arranged in a vehicle, and the two air guide pieces of the air conditioner air outlet assembly are combined under a normal state, so that a larger ventilation quantity can be obtained under a limiting angle.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present invention are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, descriptions such as those referred to herein as "first," "second," "a," and the like are provided for descriptive purposes only and are not to be construed as indicating or implying a relative importance or an implicit indication of the number of features being indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature.

In the present invention, unless specifically stated and limited otherwise, the terms "connected," "affixed," and the like are to be construed broadly, and for example, "affixed" may be a fixed connection, a removable connection, or an integral body; can be mechanically or electrically connected; either directly or indirectly, through intermediaries, or both, may be in communication with each other or in interaction with each other, unless expressly defined otherwise.

In addition, the technical solutions of the embodiments of the present invention may be combined with each other, but it is necessary to be based on the fact that those skilled in the art can implement the technical solutions, and when the technical solutions are contradictory or cannot be implemented, the combination of the technical solutions should be considered as not existing, and not falling within the scope of protection claimed by the present invention.

Claims (10)

1. An air conditioner air outlet assembly, comprising:

a housing (100), wherein an air duct (110) is arranged in the housing (100);

The air flow adjusting mechanism comprises a first air guide piece (200), a second air guide piece (300) and a driving disc (400);

The first air guide piece (200) and the second air guide piece (300) are rotatably arranged in the air duct (110), the driving disc (400) is connected with the first air guide piece (200) and the second air guide piece (300), and the driving disc (400) drives the first air guide piece (200) and the second air guide piece (300) to act when rotating;

The driving disc (400) can rotate to a first position, a second position and a third position, an upward air guide adjusting section is formed between the first position and the second position, and a downward air guide adjusting section is formed between the first position and the third position;

the first air guide piece (200) and the second air guide piece (300) are close or folded when the driving disc (400) is positioned at the first position;

When the driving disc (400) rotates in the upward wind guiding adjustment section, the angle of the driving disc (400) determines the upward inclination angles of the first wind guiding piece (200) and the second wind guiding piece (300); when the driving disc (400) rotates from the first position to the second position, the distance between the first air guide piece (200) and the second air guide piece (300) is increased, and the inclination angle of the first air guide piece and the second air guide piece is increased;

when the driving disc (400) rotates in the downward wind guide adjustment section, the angle of the driving disc (400) determines the downward inclination angle of the first wind guide piece (200) and the second wind guide piece (300); when the driving disk (400) rotates from the first position to the third position, the distance between the first air guide piece (200) and the second air guide piece (300) is increased, and the inclination angle of the first air guide piece and the second air guide piece is increased.

2. An air conditioner air outlet assembly as set forth in claim 1 wherein: the first wind guide (200) is provided with a first outer rotating shaft part (210) and a first inner rotating shaft part (220) which are respectively positioned on two different axes, and the first outer rotating shaft part (210) and the first inner rotating shaft part (220) are connected with the shell (100) and the driving disc (400); the second air guide member (300) has a second outer rotating shaft portion (310) and a second inner rotating shaft portion (320) which are respectively located on two different axes, and the second outer rotating shaft portion (310) and the second inner rotating shaft portion (320) are connected with the housing (100) and the driving disc (400).

3. An air conditioner air outlet assembly as set forth in claim 2 wherein: when the driving disc (400) rotates in the downward wind guiding adjustment section, the first wind guiding piece (200) rotates by taking the first outer rotating shaft part (210) as an axis, and the second wind guiding piece (300) rotates by taking the second inner rotating shaft part (320) as an axis; when the driving disc (400) rotates in the upward wind guiding adjustment section, the first wind guiding piece (200) rotates by taking the first inner rotating shaft part (220) as an axis, and the second wind guiding piece (300) rotates by taking the second outer rotating shaft part (310) as an axis; the first air guide piece (200) and the second air guide piece (300) are arranged in parallel all the time.

4. An air conditioner air outlet assembly as set forth in claim 3 wherein: the driving disc (400) is rotatably connected with the side wall of the shell (100), and the first outer rotating shaft part (210), the first inner rotating shaft part (220), the second outer rotating shaft part (310) and the second inner rotating shaft part (320) are connected with the driving disc (400);

When the driving disc (400) rotates, one of the first outer rotating shaft part (210) or the first inner rotating shaft part (220) is driven to rotate the first air guide piece (200) around the axis of the other one;

When the driving disc (400) rotates, one of the second outer rotating shaft part (310) or the second inner rotating shaft part (320) is driven to rotate the second air guide piece (300) around the axis of the other one.

5. An air conditioner air outlet assembly as set forth in claim 4 wherein: the driving disc (400) is provided with four linkage grooves (410), and the first outer rotating shaft part (210), the first inner rotating shaft part (220), the second outer rotating shaft part (310) and the second inner rotating shaft part (320) are respectively connected with the four linkage grooves (410).

6. An air conditioning outlet assembly as set forth in claim 5 wherein: the linkage groove (410) comprises a driving sub-groove (411) and an avoiding sub-groove (412); the driving sub-groove (411) is used for driving the corresponding rotating shaft part to move, and the avoidance sub-groove (412) is used for avoiding the corresponding rotating shaft part with unchanged position.

7. An air conditioning outlet assembly as set forth in claim 5 wherein: four track grooves (120) are formed in the side wall of the shell (100), and the first outer rotating shaft part (210), the first inner rotating shaft part (220), the second outer rotating shaft part (310) and the second inner rotating shaft part (320) are respectively connected with the four track grooves (120) and can slide along the track grooves (120);

When the driving disc (400) rotates in the upward wind guiding adjustment section, the first inner rotating shaft part (220) rotates around the self axis and the first outer rotating shaft part (210) slides along the corresponding track groove (120), and the second outer rotating shaft part (310) rotates around the self axis and the second inner rotating shaft part (320) slides along the corresponding track groove (120);

when the driving disc (400) rotates in the downward wind guiding adjustment section, the first outer rotating shaft part (210) rotates around the self axis and the first inner rotating shaft part (220) slides along the corresponding track groove (120), and the second inner rotating shaft part (320) rotates around the self axis and the second outer rotating shaft part (310) slides along the corresponding track groove (120).

8. An air conditioning outlet assembly as set forth in claim 7 wherein: the number of the first outer rotating shaft parts (210) and the number of the first inner rotating shaft parts (220) are two and are respectively located at two ends of the first air guide piece (200), the number of the second outer rotating shaft parts (310) and the number of the second inner rotating shaft parts (320) are two and are respectively located at two ends of the second air guide piece (300), four track grooves (120) are respectively formed in two side walls of the shell (100), and the number of the driving discs (400) is two and are respectively mounted on two side walls of the shell (100).

9. An air conditioner air outlet assembly as set forth in claim 2 wherein: the drive disk (400) is mounted on the inner side or the outer side of the side wall of the housing (100), and part of the outer edge surface of the drive disk (400) protrudes from the panel of the housing (100).

10. A vehicle, characterized by comprising: the air conditioner outlet assembly of any one of claims 1-9.