Air guide assembly and air conditioner assembly

By designing air guiding components at the air conditioner outlet, including an air guide frame and a side air guiding structure, the problem of the single adjustment method of the air conditioner outlet is solved, and flexible airflow control and a better air conditioning user experience are achieved.

CN224479824UActive Publication Date: 2026-07-10TCL AIR CONDITIONER ZHONGSHAN CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TCL AIR CONDITIONER ZHONGSHAN CO LTD
Filing Date
2025-06-27
Publication Date
2026-07-10

AI Technical Summary

Technical Problem

Existing air conditioner vent designs lack flexibility, have limited adjustment options, and result in a poor user experience.

Method used

Design an air guide assembly, including an air guide frame and a side air guide structure. The air guide frame has a side air outlet in the length direction. The side air guide structure is movably installed to adjust the airflow direction. The air guide plate is clamped and prevented from rotating and released and rotated through a connecting rod and an adjustment structure. Combined with a flow divider, the airflow distribution is precisely controlled.

Benefits of technology

It improves the directionality and coverage of the air conditioner's airflow, allowing users to easily adjust the airflow direction according to their personal preferences and indoor environment needs, thus enhancing the user experience and effectiveness.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application provides an air guide assembly and an air conditioner assembly, relating to the technical field of air conditioners. The air guide assembly includes an air guide frame and a side air guide structure. The air guide frame has an air inlet side and an air outlet side arranged opposite to each other in its width direction, and an air guide channel connecting the air inlet side and the air outlet side. The air inlet side is used to be installed at the air outlet of the indoor unit of the air conditioner to guide the airflow flowing out of the air outlet into the air guide channel. The air guide frame has a side air outlet connected to the air guide channel on at least one side in its length direction. The side air guide structure forms a flow guide channel that connects to the side air outlet to guide the airflow flowing out of the side air outlet. The side air guide structure is movably installed on one side of the air guide frame in its length direction to adjust the flow direction of the airflow flowing out of the flow guide channel, thereby providing a novel adjustment method.
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Description

Technical Field

[0001] This application relates to the technical field of air conditioners, specifically to an air guide assembly and an air conditioner assembly. Background Technology

[0002] In existing air conditioning technology, air outlet design primarily focuses on achieving basic temperature regulation, using a simple outlet structure to cool or heat the room. These traditional air outlets are mostly fixed or manually adjustable, allowing users to roughly control the airflow direction by adjusting the outlet's directional panel. This design is widely used in various indoor environments such as homes and offices, aiming to meet basic air conditioning cooling or heating needs by regulating indoor temperature through changing airflow direction to provide a certain level of comfort.

[0003] The current adjustment method lacks flexibility in the air outlet design, has a limited range of adjustment options, and results in a poor user experience. Utility Model Content

[0004] This application provides an air guide assembly and an air conditioner assembly, which aim to add a new adjustment method to the air outlet of existing air conditioners.

[0005] On one hand, embodiments of this application provide an air guide assembly, including:

[0006] An air guide frame has an air inlet side and an air outlet side arranged opposite each other in its width direction, and an air guide channel connecting the air inlet side and the air outlet side. The air inlet side is used to be installed at the air outlet of an indoor air conditioning unit to guide the airflow from the air outlet into the air guide channel. The air guide frame has a side air outlet connecting to the air guide channel on at least one side in its length direction.

[0007] A side air guide structure is provided, wherein the side air guide structure forms a flow guide channel, the flow guide channel is connected to the side air outlet to guide the airflow flowing out of the side air outlet, and the side air guide structure is movably installed on one side of the air guide frame along its length to adjust the flow direction of the airflow flowing out of the flow guide channel.

[0008] In some embodiments, the air guide frame includes two main air guide plates spaced apart along its height direction and a plurality of connectors connecting the two main air guide plates along its height direction, wherein the air guide channel is defined between the two main air guide plates;

[0009] The main airflow vane is provided with a rotating shaft at the side air outlet. The side airflow guiding structure includes a side airflow guiding plate installed at the rotating shaft. There are two side airflow guiding plates corresponding to the two main airflow vanes, and the airflow guiding channel is defined between the two side airflow guiding plates.

[0010] In some embodiments, the side air guide structure further includes:

[0011] Two connecting rods connect the two side air guide plates along the height direction of the air guide frame. The two connecting rods are located at the ends of the side air guide plates away from the rotating shaft and are positioned on opposite sides of the side air guide plates in the width direction. The distance between the two connecting rods is adjustable to clamp and prevent rotation of the side air guide plates when the two connecting rods move closer together.

[0012] An adjustment structure is used to adjust the distance between the two connecting rods to clamp or release the side air guide plate to prevent rotation.

[0013] In some embodiments, the plurality of connectors includes a first connector located at the side air outlet and on the air outlet side;

[0014] The air guiding assembly also includes a diverter, which is disposed in the air guiding channel and extends from the first connector to the air inlet side of the air guiding channel to divert part of the airflow in the air guiding channel to the side outlet.

[0015] In some embodiments, the main air intake plate is provided with a plurality of mounting portions on the air inlet side, and the plurality of mounting portions are spaced apart along the length direction of the main air intake plate;

[0016] One end of the diverter is connected to the first connector, and the other end is provided with a mating part, which is used to selectively mate with at least one of the plurality of mounting parts for installation.

[0017] In some embodiments, the mounting portion is a mounting hole, and the mating component includes:

[0018] A housing having an installation cavity formed inside the housing, which is open at one end;

[0019] A movable rod, movably disposed within the mounting cavity, with one end extending from the opening of the mounting cavity to mate with the mounting portion for installation; and,

[0020] An elastic element is disposed within the mounting cavity and abuts against the movable rod to drive one end of the movable rod to move out of the mounting cavity.

[0021] In some embodiments, each of the two main air intake plates is provided with a plurality of mounting portions, the housing forms two mounting cavities, and the movable rod and the elastic element are also provided in two corresponding positions to cooperate with the two mounting portions respectively provided on the two main air intake plates; and / or,

[0022] The housing has a limiting groove that communicates with the mounting cavity, and the movable rod has a protruding limiting block that is movably installed in the limiting groove.

[0023] In some embodiments, the diverter is configured to be rollable and foldable.

[0024] At least one of the mating component and the first connecting component is provided with a winding structure to wind up the diverter component.

[0025] In some embodiments, the first connector is rotatably mounted on the main airflow plate, and the winding structure includes a coil spring connecting the first connector and the diverter, so as to drive the first connector to rotate under the drive of the coil spring and to wind up and fold the diverter.

[0026] On the other hand, embodiments of this application provide an air conditioner assembly, including:

[0027] An indoor unit for an air conditioner, wherein the indoor unit is provided with an air outlet; and...

[0028] An air guide assembly is externally placed at the air outlet of the indoor unit of the air conditioner, and the air guide assembly is any of the air guide assemblies described above.

[0029] This application embodiment, by setting a side air outlet at the air guide frame and a side air guide structure at the side air outlet, can more concentratedly deliver airflow to a farther location on the side of the air conditioner. Furthermore, the side air guide structure is movably installed on one side along the length of the air guide frame, thereby adjusting the flow direction of the airflow from the guide channel and ultimately changing the arrival position of the airflow, thus achieving regulation of the airflow from the side air outlet. The air guide component provided by this application not only improves the guidance and coverage of the air conditioning airflow but also allows users to easily adjust the airflow direction according to personal preferences and indoor environmental needs, thereby enhancing the user experience and effectiveness. Attached Figure Description

[0030] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0031] Figure 1 This is a three-dimensional structural schematic diagram of an air conditioner component provided in some embodiments of this application;

[0032] Figure 2 yes Figure 1 Enlarged view of the layout at point A in the middle;

[0033] Figure 3 yes Figure 1 Schematic diagram of the mating parts in the diagram;

[0034] Figure 4 yes Figure 1 Exploded view of the regulating structure in the middle;

[0035] Figure 5 yes Figure 1 A schematic diagram of the structure of the first connector.

[0036] Explanation of key component symbols:

[0037] label name label name 100 Air conditioner components 10 air guide components 50 air conditioner indoor unit 20 air guide frame 21 Air intake side 22 Air outlet side 23 Side air outlet 24 air guide channel 30 Side air guide structure 31 diversion channel 25 Main airflow plate 26 connector 27 First connector 29 pivot 32 Side air guide plate 33 Connecting rod 34 Adjustment structure 341 First threaded section 342 Threaded pressed parts 343 Mounting rod 40 Diverter 28 Installation Department 41 mating parts 411 case 412 movable bar 413 elastic element 414 Mounting cavity 415 Limiting groove 416 Limit block 42 coil spring Detailed Implementation

[0038] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.

[0039] In the description of this application, it should be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "outer," etc., indicating orientation or positional relationships based on the orientation or positional relationships shown in the accompanying drawings, are used only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this application. Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of indicated technical features. Thus, features defined with "first" and "second" may explicitly or implicitly include one or more of the stated features. In the description of this application, "a plurality of" means two or more, unless otherwise explicitly specified.

[0040] "A and / or B" includes the following three combinations: A only, B only, and a combination of A and B.

[0041] The use of "applies to" or "configured to" in this application implies open and inclusive language, which does not exclude the applicability to or configuration to devices performing additional tasks or steps. Additionally, the use of "based on" implies openness and inclusivity, because processes, steps, calculations, or other actions "based on" one or more of the stated conditions or values ​​may in practice be based on additional conditions or values ​​beyond those stated.

[0042] In this application, the term "exemplary" is used to mean "used as an example, illustration, or description." Any embodiment described as "exemplary" in this application is not necessarily to be construed as being more preferred or advantageous than other embodiments. The following description is provided to enable any person skilled in the art to make and use this application. Details are set forth in the following description for purposes of explanation. It should be understood that those skilled in the art will recognize that this application can be made without using these specific details. In other instances, well-known structures and processes are not described in detail to avoid obscuring the description of this application with unnecessary detail. Therefore, this application is not intended to be limited to the embodiments shown, but is consistent with the broadest scope of the principles and features disclosed in this application.

[0043] In existing air conditioning technology, air outlet design primarily focuses on achieving basic temperature regulation, using a simple outlet structure to cool or heat the room. These traditional air outlets are mostly fixed or manually adjustable, allowing users to roughly control the airflow direction by adjusting the outlet's directional panel. This design is widely used in various indoor environments such as homes and offices, aiming to meet basic air conditioning cooling or heating needs by regulating indoor temperature through changing airflow direction to provide a certain level of comfort.

[0044] The current adjustment methods lack flexibility in the air outlet design, have limited adjustment options, and result in a poor user experience.

[0045] Please see Figures 1 to 5 In response, this application provides an air guide assembly 10, which includes an air guide frame 20 and a side air guide structure 30. The air guide frame 20 has an air inlet side 21 and an air outlet side 22 arranged opposite to each other in its width direction, and an air guide channel 24 connecting the air inlet side 21 and the air outlet side 22. The air inlet side 21 is installed at the air outlet of the indoor unit 50 of the air conditioner to guide the airflow from the air outlet into the air guide channel 24. The air guide frame 20 has a side air outlet 23 connected to the air guide channel 24 on at least one side in its length direction. The side air guide structure 30 forms a flow guide channel 31, which connects to the side air outlet 23 to guide the airflow from the side air outlet 23. The side air guide structure 30 is movably installed on one side in the length direction of the air guide frame 20 to adjust the flow direction of the airflow from the flow guide channel 31.

[0046] It should be noted that the air guide frame 20 has a side air outlet 23 that connects to the air guide channel 24 on at least one side in its length direction. The side air outlet 23 may be provided on only one side of the air guide frame 20, or it may be provided on both sides of the air guide frame 20. There is no limitation here. When the side air outlet 23 is provided on both sides of the air guide frame 20, the side air guide structure 30 may be provided with only one side air outlet, or it may be provided with two side air outlets 23 corresponding to two side air outlets. There is no limitation here.

[0047] The side air guide structure 30 is movably installed on one side of the air guide frame 20 along its length. The specific movement mode is not limited. It can move back and forth, swing up and down, extend and retract, or rotate, etc. There are no limitations here, as long as it can adjust the flow direction of the airflow from the air guide channel 31.

[0048] It is understandable that after the side air guide structure 30 is activated, the extension direction or outlet position of the air guide channel 31 will also change accordingly. Correspondingly, the flow direction of the airflow from the air guide channel 31 will also change, thereby changing the final position reached by the airflow.

[0049] Specifically, in actual use, the air guide frame 20 is installed at the air outlet of the indoor unit 50 of the air conditioner. The airflow from the air outlet of the air conditioner flows into the air guide channel 24 from the air inlet side 21 of the air guide frame 20. Then, part of the airflow is guided by the air guide channel 24 to the air outlet side 22 and then flows out from the air outlet side 22. Another part of the airflow is guided by the air guide channel 24 to the side air outlet 23 and then flows from the side air outlet 23 into the guide channel 31, thereby flowing further to the side of the air guide frame 20.

[0050] This application embodiment provides a side air outlet 23 at the air guide frame 20, and a side air guide structure 30 at the side air outlet 23. This allows for more concentrated airflow delivery to a more distant location on the side of the air conditioner. Furthermore, the side air guide structure 30 is movably installed on one side of the air guide frame 20 along its length, thereby adjusting the direction of the airflow from the guide channel 31 and ultimately changing the airflow's arrival location, thus regulating the airflow from the side air outlet 23. The air guide component 10 provided by this application not only improves the guidance and coverage of the air conditioning's airflow but also allows users to easily adjust the airflow direction according to personal preferences and indoor environmental needs, thereby enhancing the user experience and effectiveness.

[0051] The specific implementation of the air guide channel 24 is not limited. It can be that the air guide channel 24 is directly carved out in the air guide frame 20, or it can be defined by splicing multiple plates, etc. There are no limitations here. Similarly, the specific implementation of the flow guide channel 31 is also not limited here.

[0052] In a further embodiment, the air guide frame 20 includes two main air guide plates 25 spaced apart along its height direction and a plurality of connectors 26 connecting the two main air guide plates 25 along its height direction, and the air guide channel 24 is defined between the two main air guide plates 25; the main air guide plates 25 are provided with a rotating shaft 29 at the side air outlet 23, and the side air guide structure 30 includes a side air guide plate 32 installed at the rotating shaft 29, and two side air guide plates 32 are provided corresponding to the two main air guide plates 25, and the air guide channel 31 is defined between the two side air guide plates 32.

[0053] It is understandable that after the two main air guide plates 25 and multiple connectors 26 are connected, they can directly form the air guide frame 20 and define the air guide channel 24, simplifying the structure of the air guide frame 20 and improving the long-term stability of the air guide frame 20.

[0054] The side air guide structure 30 includes a side air guide plate 32 installed at the rotating shaft 29. The extension direction of the guide channel 31 can be changed by rotating the side air guide plate 32, so as to adjust the flow direction of the airflow from the guide channel 31 and ultimately adjust the air supply position of the guide channel 31.

[0055] After the flow channel 31 is adjusted, the side air guide plate 32 must be suspended at the adjusted position so that it can deliver air at a specific angle. The specific suspension scheme is not limited. The side air guide plate 32 can be directly installed on the rotating shaft 29 in a damping manner, so that when the side air guide plate 32 rotates, it needs to overcome a certain damping force, and finally the side air guide plate 32 can be suspended at any angle.

[0056] Please refer to this carefully. Figure 1 and Figure 4Of course, in some embodiments, the side air guide structure 30 further includes two connecting rods 33 and an adjustment structure 34. The connecting rods 33 connect the two side air guide plates 32 along the height direction of the air guide frame 20. The two connecting rods 33 are disposed at the end of the side air guide plate 32 away from the rotating shaft 29, and are respectively disposed on opposite sides in the width direction of the side air guide plate 32. The distance between the two connecting rods 33 is adjustable so as to clamp and prevent the side air guide plate 32 from rotating when the two connecting rods 33 move closer to each other. The adjustment structure 34 is used to adjust the distance between the two connecting rods 33 so as to clamp and prevent the side air guide plate 32 from rotating or to release it from rotation.

[0057] In this embodiment, by setting the connecting rod 33, on the one hand, when the side air guide structure 30 is in operation, it can provide a certain support for the two side air guide plates 32, thereby improving its long-term stability. On the other hand, the distance between the two connecting rods 33 is adjustable. When the two connecting rods 33 move closer to each other, they can clamp the side air guide plate 32, thereby stopping the side air guide plate 32 from rotating and suspending it at that angle. When it is necessary to adjust the angle of the side air guide plate 32, the two connecting rods 33 are moved further apart, releasing the clamping of the side air guide plate 32 and allowing it to rotate to adjust its angle. This ensures that once the angle of the side air guide plate 32 is set, it can be fixed at that angle, preventing displacement due to air conditioner vibration or wind force, thereby achieving an ideal airflow control effect, improving the adjustment flexibility of the side air guide plate 32, ensuring uniform indoor air distribution, and greatly enhancing the user experience.

[0058] Specifically, the implementation of the adjustment structure 34 is not limited. It can be an adjustment scheme using elastic compression by the elastic element 413, or it can be a threaded adjustment, etc., and is not limited here.

[0059] In a further embodiment, the adjustment structure 34 includes a first threaded portion 341 and a threaded pressing member 342 disposed at the side air guide plate 32. The first threaded portion 341 passes through the connecting rod 33, and the threaded pressing member 342 is sleeved on the first threaded portion 341 to press the connecting rod 33.

[0060] In the scheme of this embodiment, when the user needs to adjust the side guide plate 32, he / she can screw the threaded pressing member 342 to release the pressure on the connecting rod 33. At this time, the side guide plate 32 resumes rotation. The user adjusts the angle of the side guide plate 32. After the adjustment is completed, the user screws the threaded pressing member 342 to press the connecting rod 33, stop the rotation of the side guide plate 32, and suspend it at that angle.

[0061] Specifically, the specific implementation of the threaded pressing part 342 is not limited. It can be in the form of a nut or screw, or in the form of a rotating button, etc., and is not limited here.

[0062] The specific implementation of the first threaded part 341 is not limited. It can be formed by protruding directly on the side guide plate 32, or by forming a through hole in the side guide plate 32, and then installing the mounting rod 343 in the through hole with both ends extending out of the through hole to form the first threaded part 341, etc. There are no limitations here.

[0063] It should be noted that the airflow to the side air outlet 23 and the air outlet side 22 can be determined by the free diffusion of gas in the air guide channel 24, or it can be controlled by artificial diversion, and no limitation is made here.

[0064] In some embodiments, the plurality of connectors 26 include a first connector 27 located at the side air outlet 23 and at the air outlet side 22; the air guide assembly 10 further includes a diverter 40 disposed within the air guide channel 24 and extending from the first connector 27 to the air inlet side 21 of the air guide channel 24, so as to divert part of the airflow within the air guide channel 24 to the side air outlet 23.

[0065] In the scheme of this embodiment, by setting the diverter 40, a portion of the airflow flowing into the air inlet side 21 can be directly diverted into the air guide channel 24, thereby accurately controlling the amount of airflow flowing to the side air outlet 23 and the air outlet side 22. The diverter 40 can block more or less air outlet areas as needed, thereby finely adjusting the airflow direction and distribution range.

[0066] Specifically, the specific implementation of the diverter 40 is not limited. It can be a diverter plate or a diverter cloth installed in the air guide channel 24. It can be fixed or movable, and there is no limitation here. The diverter 40 extends from the first connector 27 to the air inlet side 21 of the air guide channel 24, thereby dividing the air outlet of the indoor unit 50 of the air conditioner into a side air outlet and a main air outlet. The airflow from the side air outlet flows out from the guide channel 31, and the airflow from the main air outlet flows out from the air outlet side 22. The position of the diverter 40 on the air inlet side 21 determines the size of the side air outlet and the main air outlet, thereby determining the amount of airflow in the air guide channel 24 and the guide channel 31. More specifically, the size of the side air outlet and the main air outlet can be fixed or adjustable, and there is no limitation here.

[0067] Please refer to this carefully. Figure 1 , Figure 2 and Figure 3 In a further embodiment, the main air intake plate 25 is provided with a plurality of mounting portions 28 on the air inlet side 21, and the plurality of mounting portions 28 are spaced apart along the length direction of the main air intake plate 25; one end of the diverter 40 is connected to the first connector 27, and the other end is provided with a mating part 41, the mating part 41 being used to selectively mate with at least one of the plurality of mounting portions 28.

[0068] In the scheme of this embodiment, multiple mounting parts 28 are arranged at intervals along the length direction of the main airflow plate 25. When the other end of the diverter 40 is installed with different mounting parts 28, that is, when the other end of the diverter 40 is at a different position on the air inlet side 21 of the air guide frame 20, the sizes of the side air outlet and the main air outlet are different, thereby realizing the adjustment of the size of the side air outlet and the main air outlet, and finally realizing the adjustment of the airflow of the guide channel 31 and the air outlet side 22.

[0069] Furthermore, when the other end of the diverter 40 is installed with different mounting parts 28, the angle formed between the diverter 40 and the side air outlet 23 is also different. That is, the tilt angle of the diverter 40 in the air guide channel 24 will change. After being guided by the diverter 40 in the air guide channel 24, part of the airflow will flow out from the air outlet side 22. Correspondingly, after the tilt angle of the diverter 40 in the air guide channel 24 changes, the air supply range of the air outlet side 22 will also be changed. Thus, the air supply range of the air outlet side 22 can be adjusted by selecting to install the other end of the diverter 40 with different mounting parts 28.

[0070] Specifically, the spacing between the multiple mounting parts 28 is not limited. It can be equally spaced, or the spacing can increase or decrease sequentially. It can also be set according to actual needs, which is not limited here. The specific implementation form of the mounting part 28 is not limited. It can be in the form of mounting holes, so that the mating part 41 can be inserted into the mounting holes for positioning and installation. It can also be in the form of threaded connection, adhesive, snap-fit, magnetic connection, etc., which are detachable installation forms, which are not limited here.

[0071] In some embodiments, the mounting portion 28 is a mounting hole, and the mating member 41 includes a housing 411, a movable rod 412, and an elastic member 413. The housing 411 has a mounting cavity 414 with one end open. The movable rod 412 is movably disposed in the mounting cavity 414, and one end of the movable rod 412 can extend out from the open end of the mounting cavity 414 to cooperate with the mounting portion 28 for installation. The elastic member 413 is disposed in the mounting cavity 414 and abuts against the movable rod 412 to drive one end of the movable rod 412 to move out of the mounting cavity 414.

[0072] In the corresponding embodiment, in the installed state, the elastic element 413 elastically abuts against the movable rod 412, thereby elastically pressing the movable rod 412 and limiting one end of the movable rod 412 within the mounting hole to achieve positioning of the diverter 40. When it is necessary to separate the movable rod 412 from the mounting hole, it is only necessary to push the movable rod 412 into the mounting cavity 414 to separate the movable rod 412 from the mounting hole. Then, the movable rod 412 can be inserted into other mounting holes to adjust the position of the diverter 40 on the air inlet side 21 of the air guide frame 20. This setting makes disassembly and assembly simple, and the elastic pressing of the elastic element 413 can effectively improve the stability during installation, allowing users to quickly and accurately adjust the airflow direction as needed.

[0073] It should be noted that the specific implementation of the elastic element 413 is not limited, and it can be in the form of a spring, rubber, etc., which is not limited here.

[0074] It is understood that, for the mounting part 28, the two main air vanes 25 may be provided with only one of the main air vanes 25 or both of the main air vanes 25 may be provided; no limitation is made here.

[0075] In some embodiments, each of the two main air intake plates 25 is provided with a plurality of mounting portions 28, the housing 411 forms two mounting cavities 414, and two movable rods 412 and two elastic correspondingly are also provided to cooperate with the two mounting portions 28 respectively provided on the two main air intake plates 25. With this configuration, in the installation state, the two movable rods 412 of the mating member 41 can respectively cooperate with the two mounting portions 28, thereby effectively improving the stability of the installation.

[0076] To prevent the movable rod 412 from detaching from the mounting cavity 414 and separating from the housing 411, in some embodiments, the housing 411 is provided with a limiting groove 415 communicating with the mounting cavity 414, and the movable rod 412 is provided with a limiting block 416 protruding from it, the limiting block 416 being movably installed in the limiting groove 415.

[0077] In the scheme of this embodiment, by setting the limiting groove 415 and the limiting block 416, the movement stroke of the movable rod 412 can be limited to avoid its movement stroke being too large and causing separation between the housing 411 and the movable rod 412.

[0078] Furthermore, in some embodiments, the limiting block 416 may be configured to protrude a portion of the limiting groove 415, thereby forming an operating part. During the process of the user assembling or disassembling the mating part 41 and selecting the mounting part 28, the user can directly operate the operating part to move the movable rod 412, thereby allowing the mating part 41 and the mounting part 28 to be assembled or disassembled. The cooperation between the operating part and the limiting groove 415 further simplifies the operation process and improves the user experience.

[0079] It is understandable that, since the positions of the multiple mounting parts 28 are different, the distances between the multiple mounting parts and the first connector 27 are also different. Correspondingly, the length of the diverter 40 can be made relatively long so that it can be installed with different mounting parts 28. However, in this case, the diverter 40 is relatively loose when working, and is prone to shaking and noise.

[0080] Please refer to this carefully. Figure 5 Therefore, in one embodiment, the diverter 40 is configured to be rollable and foldable; at least one of the mating member 41 and the first connecting member 27 is provided with a roll-up structure to roll up the diverter 40.

[0081] In the scheme of this embodiment, by setting the winding structure, the length of the diverter 40 can be adjusted so that the diverter 40 can maintain a good working state when it is installed with different mounting parts 28.

[0082] More specifically, the specific implementation of the winding structure is not limited. It can be implemented by using a coil spring 42 for winding, or by using an elastic element 413 for stretching, etc., and is not limited here.

[0083] In some embodiments, the first connector 27 is rotatably mounted on the main airflow plate 25, and the winding structure includes a coil spring 42 connecting the first connector 27 and the diverter 40, so that the first connector 27 is driven to rotate under the drive of the coil spring 42 to wind up and fold the diverter 40.

[0084] The coil spring 42 provides elastic support for the winding action of the diverter 40, so that the first connecting member 27 can rotate smoothly under the action of the coil spring 42, thereby driving the diverter 40 to unfold or rewind.

[0085] In the scheme of this embodiment, the user can stretch the diverter 40 outward to overcome the elastic force of the coil spring 42 and lengthen the diverter 40. After the user releases the force on the diverter 40, the first connecting member 27 can be driven to rotate under the elastic force of the coil spring 42, thereby coiling up part of the diverter 40 and straightening the diverter 40 to better achieve diversion.

[0086] This utility model also proposes an air conditioner assembly 100, which includes an indoor air conditioner unit 50 and an air guide assembly 10. The indoor air conditioner unit 50 is provided with an air outlet. The specific structure of the air guide assembly 10 is as described in the above embodiments. Since this air conditioner assembly 100 adopts all the technical solutions of all the above embodiments, it has at least all the beneficial effects brought about by the technical solutions of the above embodiments, which will not be described in detail here.

[0087] The air guide assembly and air conditioner assembly provided in the embodiments of this application have been described in detail above. Specific examples have been used to illustrate the principles and implementation methods of this application. The description of the above embodiments is only for the purpose of helping to understand the method and core ideas of this application. At the same time, for those skilled in the art, there will be changes in the specific implementation methods and application scope based on the ideas of this application. Therefore, the content of this specification should not be construed as a limitation of this application.

Claims

1. An air guiding component, characterized in that, include: An air guide frame has an air inlet side and an air outlet side arranged opposite to each other in its width direction, and an air guide channel connecting the air inlet side and the air outlet side. The air inlet side is used to be installed at the air outlet of the indoor unit of the air conditioner to guide the airflow from the air outlet to the air guide channel. The air guide frame has a side air outlet connected to the air guide channel on at least one side in its length direction. as well as, A side air guide structure is provided, wherein the side air guide structure forms a flow guide channel, the flow guide channel is connected to the side air outlet to guide the airflow flowing out of the side air outlet, and the side air guide structure is movably installed on one side of the air guide frame along its length to adjust the flow direction of the airflow flowing out of the flow guide channel.

2. The air guiding assembly according to claim 1, characterized in that, The air guide frame includes two main air guide plates spaced apart along its height direction and a plurality of connectors connecting the two main air guide plates along its height direction, with the air guide channel defined between the two main air guide plates; The main airflow vane is provided with a rotating shaft at the side air outlet. The side airflow guiding structure includes a side airflow guiding plate installed at the rotating shaft. There are two side airflow guiding plates corresponding to the two main airflow vanes, and the airflow guiding channel is defined between the two side airflow guiding plates.

3. The air guiding assembly according to claim 2, characterized in that, The side air guide structure also includes: Two connecting rods connect the two side air guide plates along the height direction of the air guide frame. The two connecting rods are located at the ends of the side air guide plates away from the rotating shaft and are positioned on opposite sides of the side air guide plates in the width direction. The distance between the two connecting rods is adjustable to clamp and prevent rotation of the side air guide plates when the two connecting rods move closer together. An adjustment structure is used to adjust the distance between the two connecting rods to clamp or release the side air guide plate to prevent rotation.

4. The air guide assembly according to claim 2, characterized in that, The plurality of connectors include a first connector located at the side air outlet and on the air outlet side; The air guiding assembly also includes a diverter, which is disposed in the air guiding channel and extends from the first connector to the air inlet side of the air guiding channel to divert part of the airflow in the air guiding channel to the side outlet.

5. The air guide assembly according to claim 4, characterized in that, The main air intake plate is provided with multiple mounting parts on the air inlet side, and the multiple mounting parts are spaced apart along the length direction of the main air intake plate. One end of the diverter is connected to the first connector, and the other end is provided with a mating part, which is used to selectively mate with at least one of the plurality of mounting parts for installation.

6. The air guide assembly according to claim 5, characterized in that, The mounting portion is a mounting hole, and the mating component includes: A housing having an installation cavity formed inside the housing, which is open at one end; A movable rod, movably disposed within the mounting cavity, with one end extending from the opening of the mounting cavity to mate with the mounting portion for installation; and, An elastic element is disposed within the mounting cavity and abuts against the movable rod to drive one end of the movable rod to move out of the mounting cavity.

7. The air guiding assembly according to claim 6, characterized in that, Both of the aforementioned main air intakes are provided with multiple mounting portions, the housing forms two mounting cavities, and two corresponding movable rods and elastic elements are also provided to cooperate with the two mounting portions respectively provided on the two main air intakes; and / or, The housing has a limiting groove that communicates with the mounting cavity, and the movable rod has a protruding limiting block that is movably installed in the limiting groove.

8. The air guiding assembly according to claim 5, characterized in that, The diverter is designed to be rolled up and folded. At least one of the mating component and the first connecting component is provided with a winding structure to wind up the diverter component.

9. The air guiding assembly according to claim 8, characterized in that, The first connector is rotatably mounted on the main airflow plate. The winding structure includes a coil spring connecting the first connector and the diverter, so that the first connector is driven to rotate under the drive of the coil spring to wind up and fold the diverter.

10. An air conditioner assembly, characterized in that, include: An indoor unit for an air conditioner, wherein the indoor unit is provided with an air outlet; and... An air guide assembly is externally located at the air outlet of the indoor unit of the air conditioner, and the air guide assembly is the air guide assembly as described in any one of claims 1 to 9.