CN211400041U - Air dispersion assembly and air conditioner - Google Patents

Abstract

The utility model provides a wind subassembly and air conditioner looses. Wherein, the wind subassembly that looses includes: the air diffusing module is provided with an air outlet and a flow diffusing part, the flow diffusing part is positioned at the air outlet, and the flow diffusing part is configured to diffuse and flow the air flow passing through the air outlet; the first driving device is provided with a mounting part and a driving part, the mounting part is configured to be suitable for mounting and positioning of the driving part, the mounting part is detachably connected with the air dispersing module, and the driving part is configured to be suitable for driving the air dispersing part. The utility model discloses an installation component is connected with the wind module is detachable, like this, when the wind subassembly that looses falls grey, influences the air quality because of long-time use laying dust, can dismantle the separation with the first drive arrangement with the wind module that looses to wash the wind module that looses or clear up first drive arrangement, can effectively avoid the cleaning solution to enter into the inside condition of the driving piece of first drive arrangement and take place, so can guarantee that first drive arrangement can not damage because of intaking.

Description

Air dispersion assembly and air conditioner

Technical Field

The utility model relates to an air conditioner technical field particularly, relates to a wind subassembly and an air conditioner looses.

Background

The air dispersing component is an important component of the air conditioner and is mainly used for realizing no-wind-sense air outlet of the air conditioner, but the air dispersing component is easy to accumulate dust and fall ash in the using process to influence the air quality. In the related art, the air dispersing assemblies are of an integral structure, so that the cleaning by a user is inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving at least one of the technical problem that exists among prior art or the correlation technique

To this end, the utility model discloses a first aspect provides a wind subassembly that looses.

A second aspect of the present invention provides an air conditioner.

In view of this, the first aspect of the present invention provides a wind dispersing assembly, including: the air diffusing module is provided with an air outlet and a flow diffusing part, the flow diffusing part is positioned at the air outlet, and the flow diffusing part is configured to diffuse and flow the air flow passing through the air outlet; the first driving device comprises a mounting part and a driving part, the driving part is arranged on the mounting part, the mounting part is detachably connected with the air dispersing module, and the driving part is configured to be suitable for driving the air dispersing part.

The utility model provides a pair of wind subassembly looses includes wind module and a drive arrangement, and a drive arrangement includes installation component and driving piece. The air diffusing component is driven by the driving piece during working, so that the air diffusing component can diffuse and flow air flow passing through the air outlet, and accordingly no-wind-sense air outlet is achieved.

Furthermore, the mounting part is detachably connected with the air diffusing module, so that when the air diffusing assembly is used for a long time, dust is accumulated and falls off, and the air quality is influenced, the air diffusing module can be detached and separated from the first driving device, and the air diffusing module can be cleaned or the first driving device can be cleaned in a targeted manner according to the actual use condition. Especially, when needs wash the module that looses alone, can separate the module that looses with first drive arrangement phase, can effectively avoid the cleaning solution to enter into the inside condition emergence of first drive arrangement's driving piece, so can guarantee that first drive arrangement can not damage because of intaking, be favorable to guaranteeing the life of product.

Furthermore, by reasonably arranging the assembly structure of the air diffusing module and the first driving device, when the air diffusing module or the first driving device is damaged, the damaged device can be detached and replaced by a new device without influencing the use of other normal devices, thereby being beneficial to reducing the cost of subsequent maintenance and repair. Meanwhile, the relative distance between the air dispersing module and the first driving device can be conveniently adjusted through the arrangement of the structure, so that the overall appearance size of the air dispersing assembly can be conveniently adjusted according to the installation space adaptability of the air conditioner using the air dispersing assembly, the processing precision of a product can be favorably reduced, and the production cost can be favorably reduced.

According to the utility model discloses foretell scattered wind subassembly can also have following additional technical characterstic:

in the above technical solution, further, the wind module is provided with a first mounting member; the installation component is provided with a second installation part, the first installation part is clamped with the second installation part, or the first installation part and the second installation part are locked through a fastener.

In this technical scheme, through the assembly structure of reasonable setting wind module and the first drive arrangement that looses for the wind module that looses is equipped with first installed part, and the installation component is equipped with the second installed part, like this, utilizes first installed part and second installed part looks joint, or first installed part, second installed part and fastener cooperation to realize the assembly and the dismantlement of wind module and the first drive arrangement that looses.

Furthermore, the first installation part is connected with the second installation part in a clamped mode, the assembling reliability is achieved, the installation and subsequent disassembly and maintenance are facilitated, the debugging and calibration of the air dispersing assembly on the air conditioner in the assembling process are facilitated, the structure is arranged, the investment of additional fasteners is reduced, and the production cost is reduced.

Furthermore, the first mounting part and the second mounting part are locked through the fasteners, so that the installation, the subsequent disassembly and maintenance of the air dispersing module and the first driving device are facilitated, and the debugging and the calibration of the air dispersing assembly in the air conditioner in the assembling process are facilitated.

In any of the above technical solutions, further, the air diffusing assembly further includes: a snap movably connected with the air dispersing module, wherein the snap is configured to drive the first mounting member and the second mounting member to separate.

In this technical scheme, through setting up the snap-fastener for snap-fastener and the module swing joint that looses wind, like this, when first installed part and second installed part joint mutually, the accessible is pressed the snap-fastener and is realized the separation of first installed part of snap-fastener drive and second installed part, and then realizes loosing the dismantlement of wind module and installation component. The structure is convenient to operate, simple to process, and high in detachment efficiency of the air dispersing module and the first driving device.

In any of the above technical solutions, further, the snap fastener is provided with a stopping portion and a top rib connected with the stopping portion, the stopping portion is located outside the air dispersing module, part of the top rib is inserted into the air dispersing module, the top rib is opposite to the first mounting member and is arranged at an interval, and the top rib is configured to be suitable for moving relative to the air dispersing module; wherein, the top muscle extrudes the second installed part with drive second installed part and first installed part separation under the exogenic action.

In this technical scheme, the snap-fastener is equipped with stop part and top muscle, and stop part is located the outside of the wind module that looses, and like this, stop part has restricted the degree of depth that the top muscle stretched into the wind module that looses, and external force is on stop part, and stop part drives a muscle and removes to the wind module that looses inside, and the top muscle extrudees the second installed part in order to drive second installed part and first installed part separation, and then realizes the dismantlement of the wind module that looses and installation component.

In any of the above technical solutions, further, the driving member includes: the first motor is connected with the mounting component; and the transmission piece is connected with the first motor and is configured to be suitable for driving the flow dispersing component under the driving of the first motor.

In this solution, the driving member includes a first motor and a transmission member. The first motor is connected with the mounting part, and the mounting part is detachably connected with the air dispersing module, so that the first motor is detachably connected through the mounting part, and when the air dispersing module needs to be cleaned, the first motor and the mounting part are detached from the air dispersing module to avoid water from entering the first motor.

In any of the above technical solutions, further, the mounting part is formed with a mounting cavity adapted to accommodate a portion of the transmission member, another portion of the transmission member extends to an outer side of the mounting part, and the first motor is disposed on the outer side of the mounting part.

In this technical scheme, the installation component is formed with the installation cavity, and partly driving medium is located the installation cavity, and another part driving medium stretches out to the outside of installation component, and makes first motor locate the outside of installation component. Like this, guarantee the stable installation of driving medium on the one hand, on the other hand rationally sets up the laying position of driving medium, reduces installation component and driving medium to the occupancy in space.

In any of the above technical solutions, further, the transmission member includes: the first gear and the second gear meshed with the first gear, at least part of the first gear is located in the mounting cavity and connected with the first motor, the second gear is located on the outer side of the mounting part, and the second gear is configured to drive the flow dispersing part.

In this solution, the transmission member includes a first gear and a second gear. At least part of the first gear is positioned in the mounting cavity and is connected with the first motor, namely, the first gear is used as a driving gear; the second gear is located outside the mounting member and is engaged with the first gear, so that the second gear serves as a transmission gear. The first gear and the second gear are matched for use, so that the first motor can effectively drive the current dispersion part.

In any of the above technical solutions, further, the wind diffusing module includes: the installation carrier is detachably connected with the installation part, and the flow dispersing part is arranged on the installation carrier.

In the technical scheme, the air diffusing module comprises an installation carrier, and the installation carrier provides installation positions for the air diffusing part and the first driving device to ensure the stable connection of the air diffusing part and the first driving device; the mounting carrier is detachably connected with the mounting part, so that the position relation between the driving part and the air diffusing part is ensured, the first driving device is ensured to be detachable, the first driving device is prevented from water inlet, and the air diffusing module is convenient to clean independently.

In any of the above technical solutions, further, the flow dispersing component includes a plurality of execution units and a plurality of connecting gears, the execution units and the connecting gears are alternately arranged, two adjacent execution units are connected by meshing of the connecting gears, and at least one execution unit can rotate under the driving of the second gear of the first driving device and drive the other execution units to rotate through the connecting gears.

In the technical scheme, the flow dispersing component comprises a plurality of execution units and connecting gears. The two adjacent execution units are in meshed connection through a connecting gear, so that synchronous rotation among the execution units is guaranteed; at least one execution unit can rotate under the drive of the second gear of the first driving device, and the other execution units are driven to rotate through the connecting gear connected with the execution units, so that the effective acting area of the flow dispersing component is increased.

In any of the above technical solutions, further, the plurality of execution units are arranged at intervals along the length direction of the wind scattering module, and the second gear is connected with the execution unit located at the end of the wind scattering component.

In the technical scheme, a plurality of execution units are arranged at intervals along the length direction of the wind dispersing module. The positions of a plurality of execution units are reasonably arranged, so that the flow scattering area is ensured; the second gear is connected with the execution unit positioned at the end part, so that the number of driving pieces is reduced while the execution unit is effectively driven.

In any of the above technical solutions, further, the air diffusing assembly further includes: and the second driving device is connected with the air dispersing module and is configured to drive the air dispersing module to move.

In the technical scheme, the second driving device is connected with the air diffusing module, and the air diffusing module is driven to move through the second driving device when the air diffusing assembly works so as to adjust the flowing direction and the flowing area of the airflow.

In any of the above technical solutions, further, the second driving device includes: a second motor; the driving gear is connected with an output shaft of the second motor; and the rack is meshed with the driving gear and is connected with the air dispersing module.

In this technical scheme, second drive arrangement includes second motor, drive gear and rack. The rack is meshed with the driving gear, so that when the air diffusing assembly works, the second motor drives the driving gear to rotate, the driving gear rotates to drive the rack to move, and the purpose of driving the air diffusing module to move is further achieved.

A second aspect of the present invention provides an air conditioner, including: an air outlet of the air conditioner; like the wind subassembly that looses of any technical scheme in the first aspect, the wind subassembly that looses is located air conditioner air outlet department.

The utility model provides an air conditioner is because of including the wind subassembly that looses like any technical scheme in the first aspect, consequently has the whole beneficial effect of above-mentioned wind subassembly that looses, does not do the statement one by one here.

Specifically, the air dispersion assembly is arranged at the air outlet of the air conditioner so as to play an air dispersion role on the air flow passing through the air outlet of the air conditioner, ensure the air flow to diffuse and flow and realize non-wind-sensing air outlet.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, 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 shows a schematic structural view of a first viewing angle of a wind spreading assembly according to an embodiment of the present invention;

FIG. 2 shows an exploded view of the air dispersion assembly of FIG. 1;

fig. 3 shows a schematic structural view of a second viewing angle of the air dispersion assembly of an embodiment of the present invention;

FIG. 4 shows an enlarged view at A of the first state of the air dispersion assembly shown in FIG. 3;

FIG. 5 shows an enlarged view at A of the second state of the air dispersion assembly shown in FIG. 3;

fig. 6 shows a schematic partial structural view of the air diffusing assembly of an embodiment of the present invention;

fig. 7 shows an exploded view of an air conditioner according to an embodiment of the present invention;

fig. 8 is a schematic structural view of an air conditioner according to an embodiment of the present invention;

fig. 9 is a schematic partial structural view of an air conditioner according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 9 is:

100 air diffusing components, 110 air diffusing modules, 112 air outlets, 114 air diffusing components, 124 installation carriers, 127 first cover bodies, 128 second cover bodies, 130 racks, 136 execution units, 138 connecting gears, 140 first driving devices, 142 installation components, 1422 second installation components, 144 first motors, 1462 first gears, 1464 second gears, 180 snap fasteners, 182 stopping parts, 184 top ribs, 200 air conditioners, 202 chassis, 204 face frames, 206 panels, 208 heat exchangers, 210 air inlet grilles, 212 air deflectors and 214 air conditioner air return inlets.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application 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.

An air dispersing assembly 100 and an air conditioner 200 according to some embodiments of the present invention will be described below with reference to fig. 1 to 9.

Example 1:

as shown in fig. 1, 2 and 3, an embodiment of the first aspect of the present invention provides a wind diffusing assembly 100 including a wind diffusing module 110 and a first driving device 140.

The air diffusing module 110 has an air outlet 112 and a flow diffusing member 114, the flow diffusing member 114 is located at the air outlet 112, and the flow diffusing portion is configured to diffuse the airflow passing through the air outlet 112; the first driving device 140 includes a mounting part 142 and a driving part, the mounting part 142 is provided with the driving part, the mounting part 142 is detachably connected with the air dispersing module 110, and the driving part is configured to drive the air dispersing part 114.

In detail, the air dispersing assembly 100 includes an air dispersing module 110 and a first driving device 140, and the first driving device 140 includes a mounting part 142 and a driving member. When the air diffusing assembly 100 works, the driving member drives the air diffusing part 114, so that the air diffusing part 114 can diffuse and flow the air flow passing through the air outlet 112, thereby achieving the non-wind-induced air outlet.

Further, the mounting part 142 is detachably connected to the air diffusing module 110, so that when the air diffusing assembly 100 is used for a long time and dust is accumulated and falls to affect the air quality, the air diffusing module 110 can be detached from the first driving device 140, and the air diffusing module 110 can be cleaned or the first driving device 140 can be cleaned according to the actual use condition. Particularly, when the air diffusing module 110 needs to be cleaned separately, the air diffusing module 110 can be separated from the first driving device 140, so that the cleaning liquid can be effectively prevented from entering the driving part of the first driving device 140, the first driving device 140 can be prevented from being damaged by water, and the service life of the product can be ensured.

Furthermore, by reasonably arranging the assembly structure of the air diffusing module 110 and the first driving device 140, when the air diffusing module 110 or the first driving device 140 is damaged, the damaged device can be detached and replaced by a new device without influencing the use of other normal devices, which is beneficial to reducing the cost of subsequent maintenance and repair. Meanwhile, the relative distance between the air diffusing module 110 and the first driving device 140 can be conveniently adjusted by the arrangement of the structure, so that the overall dimension of the air diffusing assembly 100 can be conveniently adjusted according to the adaptability of the installation space of the air conditioner 200 using the air diffusing assembly 100, the processing precision of products can be favorably reduced, and the production cost can be favorably reduced.

Example 2:

as shown in fig. 3 to 5, according to an embodiment of the present invention, including the features defined in the above embodiment, and further: the air dispersing module 110 is provided with a first mounting member; the mounting part 142 is provided with a second mounting part 1422, and the first mounting part is clamped with the second mounting part 1422, or the first mounting part and the second mounting part 1422 are locked by a fastener.

In detail, the assembly structure of the wind module 110 and the first driving device 140 is reasonably arranged, so that the wind module 110 is provided with the first mounting part, and the mounting part 142 is provided with the second mounting part 1422, so that the first mounting part is clamped with the second mounting part 1422, or the first mounting part, the second mounting part 1422 and the fastener are matched to assemble and disassemble the wind module 110 and the first driving device 140.

Further, first installed part and second installed part 1422 looks joint have the assembly reliability, are convenient for installation and subsequent dismantlement, maintenance, also are convenient for the debugging and the calibration of scattered wind subassembly 100 at air conditioner 200 in the assembling process, and this structural setting has reduced extra fastener ground and has dropped into, and then is favorable to reduction in production cost.

Further, the first and second mounting members 1422 are locked by the fastening members, which facilitates the installation and subsequent disassembly and maintenance of the air dispersing module 110 and the first driving device 140, and also facilitates the adjustment and calibration of the air dispersing assembly 100 in the air conditioner 200 during the assembly process.

Specifically, the fasteners include screws, bolts, and rivets.

Example 3:

as shown in fig. 3 to 5, according to an embodiment of the present invention, including the features defined in the above embodiment, and further: the air dispersion assembly 100 further includes: snap fasteners 180 removably attached to the air dispersal module 110, the snap fasteners 180 being configured to be adapted to drive the first and second mountings 1422 apart.

In detail, the snap fasteners 180 are arranged to movably connect the snap fasteners 180 with the air dispersing module 110, so that when the first and second installation members 1422 are snapped, the snap fasteners 180 can be pressed to drive the first and second installation members 1422 to be separated, and thus the air dispersing module 110 can be detached from the installation part 142. The structure is convenient to operate, simple to process, and high in disassembling efficiency of the air dispersing module 110 and the first driving device 140.

Specifically, the snap fastener 180 is provided with a stopping portion 182 and a top rib 184 connected with the stopping portion 182, the stopping portion 182 is located at the outer side of the air dispersing module 110, part of the top rib 184 is inserted into the air dispersing module 110, the top rib 184 is opposite to the first mounting member and is arranged at an interval, and the top rib 184 is configured to move relative to the air dispersing module 110; the top rib 184 presses the second mounting part 1422 under an external force to drive the second mounting part 1422 to separate from the first mounting part. The snap fastener 180 is provided with a blocking part and a top rib 184, the blocking part is positioned outside the wind dispersing module 110, thus, the blocking part limits the depth of the top rib 184 extending into the wind dispersing module 110, the external force acts on the blocking part, the blocking part drives the top rib 184 to move towards the wind dispersing module 110, the top rib 184 extrudes the second mounting part 1422 to separate from the first mounting part so as to drive the second mounting part 1422, and then the wind dispersing module 110 and the mounting part 142 are disassembled.

Specifically, as shown in fig. 4 and 5, the arrow direction indicates the direction in which the external force acts on the snap fastener 180. One of the first and second mounting parts 1422 includes a bayonet, and the other includes a hook, as shown in fig. 4, when the first driving device 140 is assembled with the air dispersing module 110, the hook is engaged with the bayonet to lock the mounting part 142 and the air dispersing module 110, so as to ensure the connection stability of the first driving device 140 and the air dispersing module 110. As shown in fig. 5, when the first driving device 140 needs to be detached, the snap fastener 180 can be directly pressed, and the top rib 184 presses the second mounting part 1422 under the action of an external force to drive the second mounting part 1422 to be separated from the first mounting part, so as to separate the first driving device 140 from the wind dispersing module 110.

Example 4:

as shown in fig. 6, according to an embodiment of the present invention, including the features defined in the above embodiment, and further: the driving member includes: a first motor 144, the first motor 144 being connected to the mounting member 142; and a transmission member connected to the first motor 144, wherein the transmission member is configured to drive the diffusing member 114 under the driving of the first motor 144.

In detail, the driving member includes a first motor 144 and a transmission member. The first motor 144 is connected to the mounting member 142, and the mounting member 142 is detachably connected to the air-dispersing module 110, so that the first motor 144 is detachably connected to the mounting member 142, and when the air-dispersing module 110 needs to be cleaned, the first motor 144 and the mounting member 142 are detached from the air-dispersing module 110, so as to prevent the first motor 144 from entering water.

Specifically, the first motor 144 and the mounting member 142 can be detachably connected or fixedly connected. When the first motor 144 is detachably connected to the mounting member 142, the magnetic attraction can be used.

Specifically, the mounting member 142 is formed with a mounting cavity adapted to receive a portion of the transmission member, another portion of the transmission member extends to the outside of the mounting member 142, and the first motor 144 is provided on the outside of the mounting member 142. The mounting member 142 is formed with a mounting cavity, a portion of the transmission member is located in the mounting cavity, and another portion of the transmission member extends to the outside of the mounting member 142, and the first motor 144 is disposed outside the mounting member 142. Like this, guarantee the stable installation of driving medium on the one hand, on the other hand rationally sets up the mounted position of driving medium, reduces the occupancy of installation component 142 and driving medium to the space.

Specifically, as shown in fig. 6, the transmission member includes: a first gear 1462 and a second gear 1464 in meshing engagement with the first gear 1462, at least a portion of the first gear 1462 being disposed within the mounting cavity and coupled to the first motor 144, the second gear 1464 being disposed outside of the mounting member 142, the second gear 1464 being configured to drive the dissipating member 114. The transmission includes a first gear 1462 and a second gear 1464. Wherein at least a portion of the first gear 1462 is located in the mounting cavity and is connected to the first motor 144, i.e., the first gear 1462 serves as a driving gear; the second gear 1464 is located outside the mounting member 142, and the second gear 1464 meshes with the first gear 1462, so that the second gear 1464 serves as a transmission gear. The first gear 1462 and the second gear 1464 are used together to ensure the effective driving of the diffuser element 114 by the first motor 144.

Example 5:

as shown in fig. 3, according to an embodiment of the present invention, including the features defined in the above embodiment, and further: the air dispersing module 110 includes: the mounting carrier 124, the mounting carrier 124 and the mounting member 142 are detachably connected, and the diffuser member 114 is provided on the mounting carrier 124.

In detail, the air diffusing module 110 includes a mounting carrier 124, and the mounting carrier 124 provides a mounting position for the air diffusing member 114 and the first driving device 140, so as to ensure a stable connection between the air diffusing member 114 and the first driving device 140; the mounting carrier 124 is detachably connected to the mounting part 142 to ensure the positional relationship between the driving member and the air diffusing part 114, to ensure the first driving device 140 is detachable, to prevent the first driving device 140 from being filled with water, and to facilitate the separate cleaning of the air diffusing module 110.

Specifically, as shown in fig. 6, the flow dispersing component 114 includes a plurality of execution units 136 and a plurality of connecting gears 138, the execution units 136 and the connecting gears 138 are alternately arranged, two adjacent execution units 136 are in meshed connection through the connecting gears 138, and at least one execution unit 136 can rotate under the driving of the second gear 1464 of the first driving device 140, and the remaining execution units 136 are driven to rotate through the connecting gears 138. The dispersion member 114 includes a plurality of actuating units 136 and a connecting gear 138. Two adjacent execution units 136 are meshed and connected through a connecting gear 138, and synchronous rotation among the execution units 136 is guaranteed; at least one of the actuating units 136 is driven by the second gear 1464 of the first driving device 140 to rotate, and the other actuating units 136 are driven by the connecting gear 138 connected with the actuating units to rotate, so as to increase the effective acting area of the flow dispersing component 114.

Specifically, the plurality of execution units 136 are arranged at intervals along the length direction of the wind dispersing module 110, and the second gear 1464 is connected to the execution units 136 located at the end of the wind dispersing member 114. The plurality of execution units 136 are disposed at intervals along the longitudinal direction of the wind scattering module 110. The positions of the execution units 136 are reasonably arranged, so that the flow scattering area is ensured; the second gear 1464 is connected to the actuator 136 at the end, which facilitates a reduction in the number of drive elements while ensuring efficient drive of the actuator 136.

Example 6:

as shown in fig. 1 to 3, according to an embodiment of the present invention, including the features defined in the above embodiment, and further: the air dispersion assembly 100 further includes: and a second driving device connected to the air dispersing module 110, wherein the second driving device is configured to drive the air dispersing module 110 to move.

In detail, the second driving device is connected to the air diffusing module 110, and when the air diffusing assembly 100 works, the second driving device drives the air diffusing module 110 to move so as to adjust the flow direction and the flow area of the airflow.

Specifically, the second driving device includes: a second motor; the driving gear is connected with an output shaft of the second motor; and a rack 130 engaged with the driving gear, wherein the rack 130 is connected with the air dispersing module 110. The second driving means includes a second motor, a driving gear, and a rack gear 130. The rack 130 is engaged with the driving gear, so that when the air diffusion component 100 works, the second motor drives the driving gear to rotate, and the driving gear rotates to drive the rack 130 to move, thereby achieving the purpose of driving the air diffusion module 110 to move.

Specifically, the first mounting portion and the second mounting portion are in hidden-buckle fit.

Specifically, the number of the racks 130 is two, two racks 130 are respectively located at two opposite sides of the air diffuser module 110, one of the two racks 130 is located at a first side of the air diffuser module 110, and the other rack 130 is located at a second side of the air diffuser module 110. The smoothness and stability of the movement of the air dispersing module 110 driven by the rack 130 can be ensured.

Specifically, the mounting member is a gear box.

Specifically, the mounting carrier 124 includes a first cover 127 and a second cover 128.

Example 7:

an embodiment of the second aspect of the present invention provides an air conditioner 200, including: an air-conditioning outlet 112; as in the air diffusing assembly 100 of any of the embodiments of the first aspect, the air diffusing assembly 100 is located at the air outlet 112 of the air conditioner.

The air conditioner 200 of the present invention includes the air diffusing assembly 100 according to any embodiment of the first aspect, so that all the advantages of the air diffusing assembly 100 are achieved, which is not described herein.

Specifically, the air diffusing assembly 100 is disposed at the air outlet 112 to diffuse air flowing through the air outlet 112, so as to ensure the air flowing in a diffused manner and achieve no wind sensation.

The specific embodiment is as follows:

1. the air dispersing assembly 100 includes an air dispersing module 110 and a first driving device 140.

2. The air dispersing module 110 and the first driving device 140 can be disassembled and assembled through the structure.

3. The wind dispersing module 110 and the first driving device 140 are connected and assembled together through a first mounting part and a second mounting part 1422; when the snap fastener 180 is pressed, the top rib 184 of the snap fastener 180 abuts against the second mounting member 1422 of the gear box, causing the second mounting member 1422 to deform inwardly and the first and second mounting members 1422 to separate.

As shown in fig. 7, 8 and 9, arrows indicate the air flowing direction, a first air-conditioning outlet is formed at the front of the face frame 204 of the air conditioner 200, the first air-conditioning outlet penetrates through the bottom of the air-out frame, second air-conditioning outlets are formed at the left and right sides of the face frame 204, and third air-conditioning outlets are formed on the air deflector, so as to form a 4D air-out effect. The air dispersing component 100 is arranged at the air outlet of the first air conditioner and can be driven by the rack to lift; in the wind-sensing-free air outlet mode, the air diffusing assembly 100 closes the first air conditioner air outlet and has an air diffusing function.

Specifically, as shown in fig. 7, 8 and 9, the air conditioner 200 includes a chassis 202, a face frame 204, a panel 206, a heat exchanger 208, an air inlet grille 210, an air deflector 212 and an air return opening. The heat exchanger 208 is arranged on the base, the top of the face frame 204 is provided with an air inlet grille 210 to form an air inlet of an air conditioner, and the top of the face frame 204 is also provided with an air return inlet 214 of the air conditioner; the face frame 204 is arranged above the base, and the panel 206 is arranged above the face frame 204; an air conditioner air outlet is formed at the bottom of the face frame 204, and the air diffusing component 100 is arranged at the air conditioner air outlet in a lifting manner so as to open or close the air conditioner air outlet.

In the present application, the term "plurality" means two or more unless expressly defined otherwise. The terms "mounted," "connected," "fixed," and the like are to be construed broadly, and for example, "connected" may be a fixed connection, a removable connection, or an integral connection; "coupled" may be direct or indirect through an intermediary. 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 specification, 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 this specification, 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 description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by 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 (13)

1. An air dispersion assembly, comprising:

the air diffusing module is provided with an air outlet and a flow diffusing part, the flow diffusing part is positioned at the air outlet, and the flow diffusing part is configured to diffuse and flow the air flow passing through the air outlet;

the first driving device comprises a mounting part and a driving part, the driving part is arranged on the mounting part, the mounting part is detachably connected with the air dispersing module, and the driving part is configured to be suitable for driving the air dispersing part.

2. The fan assembly of claim 1,

the air diffusing module is provided with a first mounting piece;

the installation component is provided with a second installation part, the first installation part is connected with the second installation part in a clamped mode, or the first installation part and the second installation part are locked through a fastener.

3. The air dispersion assembly of claim 2, further comprising:

a snap movably connected with the air dispersal module, the snap being configured to be adapted to drive the first mount and the second mount apart.

4. The air dispersion assembly of claim 3,

the snap fastener is provided with a stopping part and a top rib connected with the stopping part, the stopping part is positioned on the outer side of the air dispersing module, part of the top rib is inserted into the air dispersing module, the top rib is opposite to the first mounting part and is arranged at intervals, and the top rib is configured to move relative to the air dispersing module;

the top rib extrudes the second mounting part under the action of external force to drive the second mounting part to be separated from the first mounting part.

5. The fan assembly of any of claims 1 to 4, wherein the drive member comprises:

a first motor connected to the mounting member;

the transmission piece is connected with the first motor and is configured to be suitable for driving the flow dispersing component under the driving of the first motor.

6. The fan assembly of claim 5,

the mounting component is provided with a mounting cavity suitable for containing a part of the transmission piece, the other part of the transmission piece extends out of the outer side of the mounting component, and the first motor is arranged on the outer side of the mounting component.

7. The louver assembly of claim 6, wherein the transmission comprises:

the first gear and the second gear meshed with the first gear are arranged, at least part of the first gear is located in the mounting cavity and is connected with the first motor, the second gear is located on the outer side of the mounting component, and the second gear is configured and suitable for driving the current dispersing component.

8. The air dispersion assembly of any of claims 1 to 4, wherein the air dispersion module comprises:

the installation carrier is detachably connected with the installation part, and the flow dispersing part is arranged on the installation carrier.

9. The fan assembly of claim 8,

the flow dispersing component comprises a plurality of execution units and a plurality of connecting gears, the execution units and the connecting gears are alternately arranged, two adjacent execution units are in meshed connection through the connecting gears, at least one execution unit can rotate under the driving of the second gear of the first driving device, and the connecting gears drive the rest execution units to rotate.

10. The fan assembly of claim 9,

the plurality of execution units are arranged at intervals along the length direction of the air dispersing module, and the second gear is connected with the execution units at the end part of the air dispersing component.

11. The fan assembly of any of claims 1 to 4, further comprising:

the second driving device is connected with the air dispersing module and is configured to drive the air dispersing module to move.

12. The fan assembly of claim 11,

the second driving device includes:

a second motor;

the driving gear is connected with an output shaft of the second motor;

and the rack is meshed with the driving gear and is connected with the air dispersing module.

13. An air conditioner, comprising:

an air outlet of the air conditioner;

the air dispersing assembly of any of claims 1 to 12, disposed at the air conditioning outlet.

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