CN210463452U - Air conditioner - Google Patents

Abstract

The utility model provides an air conditioner, include: an air outlet of the air conditioner; the air dispersing assembly is arranged at an air outlet of the air conditioner and comprises at least two air dispersing groups, each air dispersing group comprises one or more rotary blades, and the rotary blades are configured to allow air flow to pass through, are suitable for enabling the passing air flow to diffuse and flow and are suitable for rotating to drive the air flow to flow; and the control device is electrically connected with the air dispersion assemblies and respectively controls the operation modes of the at least two air dispersion groups in a mode of adjusting the rotating speed and the rotating direction of the rotary vane. The air-dispersing assembly comprising at least two air-dispersing groups is arranged at the air outlet of the air conditioner, and the air-dispersing groups are controlled to operate according to different operation modes, so that the condition that cold air is directly blown to users and the like when the air-dispersing assemblies operate under the integral control is avoided, and the refrigeration requirement of the current environment is met.

Description

Air conditioner

Technical Field

The utility model relates to an air conditioner control technical field particularly, relates to an air conditioner.

Background

The air conditioner operates under the refrigeration mode, and cold wind blows in the indoor environment under the control of aviation baffle, and among the relevant technical scheme, the air conditioner exists the wind direction control procedure of wind from top to bottom, but the control of wind from top to bottom still can have the condition that cold wind directly blows to the user, and set up the micropore that is used for the wind-guiding on the aviation baffle and though can satisfy the demand that no cold wind directly blows, but the micropore air-out only is fit for the control stage after ambient temperature reaches the temperature that the user set for, can not satisfy the refrigeration demand.

SUMMERY OF THE UTILITY MODEL

The present invention aims at least solving one of the technical problems existing in the prior art or the related art.

Therefore, the utility model provides an air conditioner.

In view of this, the utility model provides an air conditioner includes: an air outlet of the air conditioner; the air dispersing assembly is arranged at an air outlet of the air conditioner and comprises at least two air dispersing groups, each air dispersing group comprises one or more rotary blades, and the rotary blades are configured to allow air flow to pass through, are suitable for enabling the passing air flow to diffuse and flow and are suitable for rotating to drive the air flow to flow; and the control device is electrically connected with the air dispersion assemblies and respectively controls the operation modes of the at least two air dispersion groups in a mode of adjusting the rotating speed and the rotating direction of the rotary vane.

The utility model provides an air conditioner is through setting up the wind subassembly that looses that contains two at least wind groups that looses in air conditioner air outlet position to the wind group that control looses moves according to the operational mode of difference, has avoided the wind subassembly operation that looses to have cold wind under overall control directly to blow to the appearance of the circumstances such as user, satisfies the refrigeration demand of current environment.

Specifically, each air dispersing group comprises one or more rotary vanes, each rotary vane is configured to be penetrated by air flow, is suitable for enabling the penetrated air flow to diffuse and flow and is suitable for rotating to drive the air flow to flow, and the control device realizes the control of each air dispersing group by adjusting the rotating speed and the rotating direction of the rotary vane.

Additionally, the utility model provides an air conditioner among the above-mentioned technical scheme can also have following additional technical characteristics:

in the above technical solution, further, the method further includes: the temperature measuring devices are configured to measure the temperature of a target area corresponding to the air diffusing groups and feed the detected temperature of the target area back to the control device, so that the control device can respectively control the operation modes of the at least two air diffusing groups according to the temperature of the target area in a mode of adjusting the rotating speed and the rotating direction of the rotary vane.

In the technical scheme, the air conditioner is provided with at least two temperature measuring devices for collecting the temperature of a target area correspondingly arranged on the air diffusing group and feeding the detected temperature back to the control device, so that the control device respectively controls the running states of the at least two air diffusing groups according to the collected temperature to realize the non-wind-sensing refrigeration of the target area.

In any of the above technical solutions, further, the method further includes: and the instruction receiving module is electrically connected with the control device and used for receiving the no-wind-sensation instruction and feeding the received no-wind-sensation instruction back to the control device, so that the control device controls the operation mode of one or more of the wind diffusing group corresponding to the target area and the wind diffusing group corresponding to the non-target area according to the target area indicated by the no-wind-sensation instruction.

In the technical scheme, the air conditioner further comprises an instruction receiving module for receiving the no-wind-feeling instruction, wherein the instruction receiving module feeds the received no-wind-feeling instruction back to the control device, so that the control device selects a corresponding air diffusing group and an air diffusing group corresponding to a non-target area according to a target area determined by the no-wind-feeling instruction, and controls the operation modes of the air diffusing group corresponding to the target area and the air diffusing group corresponding to the non-target area, thereby realizing the control of the no-wind-feeling refrigeration of the target area.

In any of the above technical solutions, further, the method further includes: and the object detection module is electrically connected with the control device and used for detecting the position of the object and feeding the detected position of the object back to the control device, so that the control device controls the operation mode of one or more of the air diffusing group corresponding to the target area and the air diffusing group corresponding to the non-target area according to the target area indicated by the position of the object.

In the technical scheme, the air conditioner is provided with an object detection module, the object detection module is used for detecting the position of an object and feeding the position of the object back to the control device, so that the control device determines a target area according to the position of the object, further determines an air diffusing group corresponding to the target area and an air diffusing group corresponding to a non-target area, and realizes the non-wind-sense refrigeration of the target area by controlling the operation mode of the air diffusing group.

In any of the above technical solutions, further, the method further includes: at least two air dispersing groups are transversely arranged.

In the technical scheme, at least two air diffusing groups are transversely arranged, and the control of left-right non-wind-feeling refrigeration relative to the air diffusing groups is realized by controlling the operation mode of one or more of the at least two air diffusing groups.

In any of the above technical solutions, further, each wind dispersing group includes: the lower cover and the upper cover, one or more rotary vanes are rotationally connected with the lower cover; the upper cover is covered with the lower cover, one or more air guide rings are formed on the upper cover, and the air guide rings are arranged in one-to-one correspondence with the rotary vanes.

In the technical scheme, each air diffusing group is composed of an upper cover, a lower cover and one or more rotary vanes, wherein the one or more rotary vanes are rotatably connected with the lower cover, so that the one or more rotary vanes are limited by the positions of the upper cover and the lower cover in the rotating process, the falling risk is reduced, the stability of the one or more rotary vanes in the rotating process is further improved, and meanwhile, the air guide ring is used for guiding air flow blown out of the rotary vanes again, so that the air outlet is softer, and the effect of no wind sense is better. The upper cover and the lower cover can be connected through screws or through a locking structure.

In any of the above technical solutions, further, each wind dispersing group has a driving device, and the driving device is configured to drive one or more rotating blades of the wind dispersing group to rotate; the driving device is arranged on the lower cover and is positioned on one side of the lower cover, which is far away from the upper cover; or the driving device is arranged between the upper cover and the lower cover.

In this technical scheme, every wind group that looses has drive arrangement, and wherein, control arrangement controls one or more rotary vanes in the wind group that looses through drive arrangement and rotates, and drive arrangement sets up in the lower cover, and keeps away from one side of upper cover, avoids drive arrangement to form the air current and blocks, improves the smoothness nature of air-out.

And set up drive arrangement between upper cover and lower cover, can play the hidden effect to drive arrangement, be favorable to improving the pleasing to the eye degree of product.

In any of the above technical solutions, further, the wind diffusing group includes a plurality of rotating blades, and gear transmission is formed between adjacent rotating blades in the plurality of rotating blades of the same wind diffusing group.

In this technical scheme, the wind group that looses includes a plurality of vanes, wherein, forms gear drive between the adjacent vane, and then realizes the coordinated control of a plurality of vanes, realizes the integrated setting of a plurality of vanes, has simplified the overall structure of the wind group that looses, is convenient for improve assembly speed, is favorable to further reduction in production cost, forms gear drive between the adjacent vane simultaneously, rotates when guaranteeing a plurality of vanes, the vane rotational speed and the control of direction of rotation of the wind group of being convenient for loose.

In any of the above technical solutions, further, the driving device drives any one of the plurality of rotary vanes to rotate, and any one of the plurality of rotary vanes drives the plurality of rotary vanes to rotate.

In this technical scheme, because drive arrangement only needs an arbitrary spiral shell in a plurality of spiral shells to rotate, can realize the drive control to a plurality of spiral shells, simultaneously, because same wind group that looses only needs a drive arrangement, the space that sets up drive arrangement can reduce, the whole volume of the wind subassembly that looses can reduce, and then the further lightweight of the overall structure of the wind subassembly that looses of being convenient for, the manufacturing cost of the wind subassembly that looses is convenient for further reduce, the assembly degree of difficulty of the wind subassembly that looses is reduced simultaneously, assembly efficiency has been improved.

Meanwhile, the driving device can realize synchronous control on a plurality of rotary vanes so as to obtain the optimal air outlet effect.

In any of the above technical solutions, further, at least two of the plurality of rotating blades are arranged along the arrangement direction of at least two wind dispersing groups; and/or at least two of the plurality of rotary blades are arranged in the arrangement direction vertical to the at least two wind dispersing groups.

In the technical scheme, at least two of the plurality of rotary vanes are arranged along the arrangement direction of at least two air diffusing groups, so that the air supply width of the air diffusing groups in the arrangement direction of the at least two air diffusing groups is improved, the air diffusing assembly is made to be in a long strip shape, the installation and the replacement are convenient, at least two of the plurality of rotary vanes are perpendicular to the arrangement direction of the at least two air diffusing groups and are arranged, air flow blown out by the plurality of rotary vanes presents three-dimensional air relative to the arrangement direction of the at least two air diffusing groups, the refrigeration of air with different heights is realized, and meanwhile, the assembly of the plurality of rotary vanes is facilitated.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view illustrating an air conditioner according to the present invention in a non-operating state;

fig. 2 is a schematic structural view illustrating an operation state of the air conditioner according to the present invention;

fig. 3 shows a schematic structural diagram of the middle air-dispersing assembly of the present invention;

fig. 4 is a schematic structural view of an air conditioner according to the present invention;

fig. 5 is another schematic structural diagram of the air conditioner of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 5 is:

1 air conditioner, 12 air conditioner air outlet, 14 air dispersing component, 142 rotary vane and 16 air deflector.

Detailed Description

In order that the above aspects, features and advantages of the present invention can be more clearly understood, a further detailed description of the present invention will be given below with reference to the accompanying drawings and the detailed description. It should be noted that the embodiments and features of the embodiments of the present invention may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

In the embodiment of the first aspect of the present invention, as shown in fig. 1 and fig. 2, fig. 1 shows the structural schematic diagram of the air conditioner in the non-operating state, fig. 2 shows the structural schematic diagram of the air conditioner in the operating state of the air conditioner, as shown in fig. 2, provides an air conditioner 1, including: an air-conditioning outlet 12; the air dispersing assembly 14 is arranged at the air outlet 12 of the air conditioner, the air dispersing assembly 14 comprises at least two air dispersing groups, each air dispersing group comprises one or more rotary blades 142, and each rotary blade 142 is configured to allow air flow to pass through, is suitable for enabling the passing air flow to diffuse and flow and is suitable for rotating to drive the air flow to flow; and a control device (not shown) electrically connected to the air diffusing assembly 14 and controlling the operation modes of at least two air diffusing groups respectively in a manner of adjusting the rotation speed and the rotation direction of the rotary vane 142.

The utility model provides an air conditioner 1, through set up one at air outlet 12 positions and contain the scattered wind subassembly 14 that looses of two at least scattered wind groups to the control is scattered wind and is organized according to the operation mode operation of difference, has avoided scattered wind subassembly 14 operation to have cold wind directly to blow the appearance to the condition such as user under overall control, satisfies the refrigeration demand of current environment simultaneously.

Specifically, each of the air dispersing groups includes one or more rotary blades 142, the rotary blades 142 are configured to pass through the air flow, and are adapted to diffuse the air flow passing therethrough and to rotate to drive the air flow to flow, and the control device controls each of the air dispersing groups by adjusting the rotation speed and the rotation direction of the rotary blades 142. If the wind diffusing group close to the user stops rotating, the wind diffusing group far away from the user rotates to ensure the refrigeration requirement of the current environment, and the wind diffusing group close to the user stops rotating to realize the refrigeration control without wind feeling.

As shown in fig. 2, a part or all of the air diffusing component 14 extends out of the air outlet 12, the air diffusing component 14 located outside the air outlet can rectify the airflow at the air outlet, the air diffusing component 14 and the air deflector 16 are combined to define a cavity, a part or all of the cavity is located outside the air outlet 12, the cavity is communicated with the air outlet 12, and the fan of the air conditioner 1 injects cold air into the current environment through the air outlet 12 during rotation.

Optionally, the air deflector 16 is provided with a through hole adapted to allow the air flow to pass through.

In an embodiment of the present invention, the air conditioner 1 further includes: and the temperature measuring devices are configured to measure the temperature of a target area corresponding to the air-dispersing group and feed the detected temperature of the target area back to the control device.

In this embodiment, the air conditioner 1 is provided with at least two temperature measuring devices for collecting temperatures of target areas correspondingly arranged to the air diffusing groups and feeding back the detected temperatures to the control device, so that the control device respectively controls the operating states of the at least two air diffusing groups according to the collected temperatures to realize non-wind cooling of the target areas.

Alternatively, at least two temperature measuring devices may be disposed at the same location, such as the housing of the air conditioner 1, or disposed at different locations, such as two sides of the air dispersing assembly 14.

Optionally, the at least two temperature measuring devices may be temperature receiving devices for receiving temperature, and the temperature receiving devices may communicate with other temperature measuring devices in the current environment, and send the received temperature to the control device for processing, so as to respectively control the operation modes of the at least two air diffusing groups.

In an embodiment of the present invention, the air conditioner 1 further includes: and the instruction receiving module is electrically connected with the control device and used for receiving the no-wind-sensation instruction and feeding the received no-wind-sensation instruction back to the control device, so that the control device controls the operation mode of one or more of the wind diffusing group corresponding to the target area and the wind diffusing group corresponding to the non-target area according to the target area indicated by the no-wind-sensation instruction.

In this embodiment, the air conditioner further includes an instruction receiving module for receiving the no-wind-sensation instruction, where the instruction receiving module feeds the received no-wind-sensation instruction back to the control device, so that the control device selects a corresponding wind diffusing group and a wind diffusing group corresponding to a non-target region according to a target region determined by the no-wind-sensation instruction, and controls an operation mode of selecting the corresponding wind diffusing group and the wind diffusing group corresponding to the non-target region in the target region, thereby implementing the control of the no-wind-sensation refrigeration of the target region.

In any of the above embodiments, further comprising: and the object detection module is electrically connected with the control device and used for detecting the position of the object and feeding the detected position of the object back to the control device, so that the control device controls the operation mode of one or more of the air diffusing group corresponding to the target area and the air diffusing group corresponding to the non-target area according to the target area indicated by the position of the object.

In this embodiment, the air conditioner is provided with an object detection module, and the object detection module is configured to detect a position of an object and feed the position of the object back to the control device, so that the control device determines a target area according to the position of the object, further determines a wind diffusing group corresponding to the target area and a wind diffusing group corresponding to a non-target area, and controls an operation mode of the wind diffusing group to achieve non-wind cooling of the target area.

Alternatively, the instruction receiving module may be the same as a module of the air conditioner 1 communicating with a remote control device (remote controller), and optionally, the instruction receiving module may be an infrared ray receiving module or a bluetooth module.

Optionally, the instruction receiving module may be a module used by the air conditioner 1 to communicate with a wireless access point, such as a module that applies Wi-Fi (wireless local area network technology based on IEEE 802.11 standard created by Wi-Fi alliance) technology to communicate, and may also be a module that applies (GSM, Global System of Mobile communication) technology to communicate.

Specifically, the control device receives the temperature of the target area and controls the operation modes of the at least two wind dispersing groups respectively in a manner of adjusting the rotation speed and the rotation direction of the rotary vane 142 according to the comparison result of the temperature of the target area and the designated temperature.

The corresponding relation between the at least two temperature measuring devices and the target area can be preset or determined according to the corresponding relation selected by user input.

In an embodiment of the present invention, as shown in fig. 3, at least two wind dispersing groups are arranged in a horizontal direction.

In the embodiment, at least two air diffusing groups are arranged in a transverse mode, and the control of cooling without wind feeling from left to right relative to the air diffusing groups is realized by controlling the operation mode of one or more of the at least two air diffusing groups.

Fig. 4 and 5 show an overall schematic view of the air conditioner 1.

As shown in fig. 5, the air dispersal assembly 14 is divided into at least two air dispersal groups (a first air dispersal group and a second air dispersal group).

In any of the above embodiments, further, each of the wind dispersal groups comprises: a lower cover and an upper cover, one or more rotary vanes 142 are rotatably connected with the lower cover; the upper cover is covered with the lower cover, one or more air guide rings are formed on the upper cover, and the air guide rings are arranged in one-to-one correspondence with the rotary vanes 142.

In this embodiment, each wind dispersing group is composed of an upper cover, a lower cover and one or more rotary vanes 142, wherein the one or more rotary vanes 142 are rotatably connected with the lower cover, so that the one or more rotary vanes 142 are limited by the positions of the upper cover and the lower cover in the rotating process, the falling risk is reduced, the stability of the one or more rotary vanes 142 in the rotating process is further improved, and meanwhile, the wind guide ring guides the airflow blown out by the rotary vanes 142 again, so that the outlet wind is softer, and the effect of no wind sense is better. The upper cover and the lower cover can be connected through screws or through a locking structure.

Optionally, the lower cover may be a plurality of integrated lower covers, and then the whole wind-dispersing unit is composed of an independent upper cover, an independent lower cover and one or more rotary vanes 142.

In any of the above embodiments, further, each of the wind-dispersing groups has a driving device configured to drive one or more rotating blades 142 of the wind-dispersing group to rotate; the driving device is arranged on the lower cover and is positioned on one side of the lower cover, which is far away from the upper cover; or the driving device is arranged between the upper cover and the lower cover.

In this embodiment, each air diffusing group has a driving device, wherein the control device controls one or more rotating blades 142 in the air diffusing group to rotate through the driving device, and the driving device is disposed on the lower cover and away from one side of the upper cover, so as to prevent the driving device from blocking the air flow and improve the smoothness of the air outlet.

And set up drive arrangement between upper cover and lower cover, can play the hidden effect to drive arrangement, be favorable to improving the pleasing to the eye degree of product.

Optionally, the driving device includes a variable frequency motor, so as to control the rotation speed of the rotary vane 142.

In any of the above embodiments, further, the wind dispersing group includes a plurality of rotating blades 142, and in the plurality of rotating blades 142 of the same wind dispersing group, a gear transmission is formed between adjacent rotating blades 142.

In this embodiment, the wind group that looses includes a plurality of vanes 142, wherein, form gear drive between the adjacent vane 142, and then realize the coordinated control of a plurality of vanes 142, realize the integrated setting of a plurality of vanes 142, simplified the overall structure of the wind group that looses, be convenient for improve assembly speed, be favorable to further reduction in production cost, form gear drive between the adjacent vane 142 simultaneously, the rotation when guaranteeing a plurality of vanes 142, the control of the vane 142 rotational speed and the direction of rotation of the wind group that looses of being convenient for.

In any of the above embodiments, further, the driving device drives any one of the plurality of rotary vanes 142 to rotate, and any one of the plurality of rotary vanes 142 drives the plurality of rotary vanes 142 to rotate.

In this embodiment, because drive arrangement only needs any one rotary vane 142 of drive a plurality of rotary vanes 142 to rotate, can realize the drive control to a plurality of rotary vanes 142, simultaneously, because same wind group that looses only needs a drive arrangement, the space that sets up drive arrangement can reduce, the whole volume of the wind subassembly that looses can reduce, and then the further lightweight of the overall structure of the wind subassembly that looses of being convenient for, be convenient for further reduce the manufacturing cost of the wind subassembly that looses, reduce the assembly degree of difficulty of the wind subassembly that looses simultaneously, the assembly efficiency has been improved.

Meanwhile, the driving device can realize the synchronous control of the plurality of rotary vanes 142 so as to obtain the optimal air outlet effect.

In any of the above embodiments, further, at least two of the plurality of rotating blades 142 are arranged along the arrangement direction of at least two wind dispersing groups; and/or at least two of the plurality of rotating blades 142 are arranged perpendicular to the arrangement direction of at least two air dispersing groups.

In this embodiment, at least two of the plurality of rotary vanes 142 are arranged along the arrangement direction of the at least two air diffusing groups, so as to improve the air supply width of the air diffusing groups in the arrangement direction of the at least two air diffusing groups, and simultaneously, the air diffusing assembly is in a strip shape, so that the installation and replacement are convenient, while at least two of the plurality of rotary vanes 142 are arranged perpendicular to the arrangement direction of the at least two air diffusing groups, and the airflow blown out by the plurality of rotary vanes 142 presents a three-dimensional air relative to the arrangement direction of the at least two air diffusing groups, so as to realize the refrigeration of the air with different heights, and simultaneously, the assembly of the plurality of rotary vanes 142 is convenient.

In the description of the present invention, the terms "plurality" or "a plurality" refer to two or more, and unless otherwise specifically limited, the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention; the terms "connected," "mounted," "secured," and the like are to be construed broadly and include, for example, fixed connections, removable connections, or integral connections; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present invention, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In the present disclosure, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An air conditioner, comprising:

an air outlet of the air conditioner;

the air dispersing assembly is arranged at the air outlet of the air conditioner and comprises at least two air dispersing groups, each air dispersing group comprises one or more rotary blades, and the rotary blades are configured to be penetrated by air flow, are suitable for enabling the penetrated air flow to diffuse and flow and are suitable for rotating to drive the air flow to flow;

and the control device is electrically connected with the air dispersion assemblies and respectively controls the operation modes of at least two air dispersion groups in a mode of adjusting the rotating speed and the rotating direction of the rotary vane.

2. The air conditioner according to claim 1, further comprising:

the temperature measuring devices are configured to measure the temperature of a target area corresponding to the air diffusing groups and feed the detected temperature of the target area back to the control device, so that the control device can respectively control the operation modes of the at least two air diffusing groups according to the temperature of the target area in a mode of adjusting the rotating speed and the rotating direction of the rotary vane.

3. The air conditioner according to claim 1 or 2, further comprising:

and the instruction receiving module is electrically connected with the control device and used for receiving a no-wind-sensation instruction and feeding the received no-wind-sensation instruction back to the control device, so that the control device controls the operation mode of one or more of the wind diffusing group corresponding to the target area and the wind diffusing group corresponding to the non-target area according to the target area indicated by the no-wind-sensation instruction.

4. The air conditioner according to claim 1 or 2, further comprising:

and the object detection module is electrically connected with the control device and used for detecting the position of an object and feeding the detected position of the object back to the control device, so that the control device controls the operation mode of one or more of the air diffusing group corresponding to the target area and the air diffusing group corresponding to the non-target area according to the target area indicated by the position of the object.

5. The air conditioner according to claim 1 or 2, further comprising:

at least two air diffusing groups are transversely arranged.

6. The air conditioner of claim 5, wherein each of the air dispersion groups comprises:

the rotary vane comprises a lower cover and an upper cover, wherein one or more rotary vanes are rotatably connected with the lower cover;

the upper cover is covered with the lower cover, one or more air guide rings are formed on the upper cover, and the air guide rings are arranged in one-to-one correspondence with the rotary vanes.

7. The air conditioner according to claim 6,

each air dispersing group is provided with a driving device which is configured to drive one or more rotary vanes of the air dispersing group to rotate;

the driving device is arranged on the lower cover and is positioned on one side of the lower cover, which is far away from the upper cover; or

The driving device is arranged between the upper cover and the lower cover.

8. The air conditioner according to claim 6,

the air diffusing group comprises a plurality of rotary vanes, and gear transmission is formed between every two adjacent rotary vanes in the plurality of rotary vanes of the same air diffusing group.

9. The air conditioner according to claim 7,

the driving device drives any one of the rotary vanes to rotate, and the rotary vane drives the rotary vanes to rotate.

10. The air conditioner according to claim 8, wherein at least two of the plurality of the rotary vanes are arranged along the arrangement direction of the at least two air diffusing groups; and/or

At least two of the rotary blades are arranged perpendicular to the arrangement direction of the at least two air diffusing groups.

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