CN210345660U - Air conditioner - Google Patents

Abstract

The utility model provides an air conditioner, include: an air outlet; a first air dispersion assembly; the first air dispersing component and the second air dispersing component are arranged in a stacked mode along the air outlet direction and are respectively provided with an air dispersing structure, and the air dispersing structures are suitable for air flow to pass through and are suitable for air flow passing through to diffuse and flow. The utility model provides an air conditioner, the first wind subassembly that looses and the second wind subassembly that looses all shelter from the air outlet and follow the range upon range of setting of air-out direction, and the air current passes the first wind subassembly that looses and the wind subassembly that looses of second by the air outlet, and through the wind structure that looses on the first wind subassembly that looses and the second scattered wind structure on the wind subassembly that looses to the cutting of air current, further improved the disturbance to the air current, and then improved the effect of no wind sense air-out.

Description

Air conditioner

Technical Field

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

Background

At present, air conditioners in the related art adopt top air inlet and bottom air outlet, and utilize a baffle plate to seal an air outlet of the air conditioner, so that air is discharged from through holes on the baffle plate to realize non-wind-sensation air outlet, and the structure may cause poor non-wind-sensation air outlet effect.

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; a first air dispersion assembly; the first air dispersing component and the second air dispersing component are arranged in a stacked mode along the air outlet direction and are respectively provided with an air dispersing structure, and the air dispersing structures are suitable for air flow to pass through and are suitable for air flow passing through to diffuse and flow.

The air conditioner provided by the utility model comprises a first air diffusing component and a second air diffusing component, both the first air diffusing component and the second air diffusing component can shield the air outlet, wherein the first air dispersing component and the second air dispersing component are both provided with air dispersing structures which can enable air flow to diffuse and flow, thereby realizing no wind sense air outlet, and it can be understood that the wind can flow towards different directions after passing through the wind dispersing structure and changing the original flowing direction, thereby realizing no-wind-sense air outlet, the first air diffusing component and the second air diffusing component both shield the air outlet and are arranged in a stacking way along the air outlet direction, the air flow passes through the first air diffusing component and the second air diffusing component from the air outlet, the air flow is cut by the air dispersing structure on the first air dispersing assembly and the air dispersing structure on the second air dispersing assembly, so that the disturbance to the air flow is further improved, and the effect of non-wind-sense air outlet is further improved.

Furthermore, the first air dispersing component and the second air dispersing component can be arranged in a stacked mode along the air outlet direction of the air outlet and can also be arranged in a released mode, and the first air dispersing component and the second air dispersing component can be independently used for guiding air or shielding the air outlet without being influenced by modeling after the stacked mode is released, so that the product can be conveniently switched among multiple modes.

Specifically, when the air conditioner is started in a no-wind-sense mode, one of the first wind dispersing component and the second wind dispersing component shields the wind outlet to realize no-wind-sense wind outlet; when the air conditioner is started in another non-wind-sensing air outlet mode, the first air diffusing assembly and the second air diffusing assembly shield the air outlet, the first air diffusing assembly and the second air diffusing assembly are arranged in a stacked mode along the air outlet direction of the air outlet, and the air diffusing structure on the first air diffusing assembly and the air diffusing structure on the second air diffusing assembly respectively cut air flow, so that the purpose of further flow disturbance can be achieved, and the non-wind-sensing air outlet effect is further improved, so that another non-wind-sensing air outlet mode different from the non-wind-sensing air outlet mode formed by one of the first air diffusing assembly and the second air diffusing assembly is realized; when the air conditioner starts a cooling or heating mode, one of the first air dispersing component and the second air dispersing component can serve as an air guide structure to guide air, and air can be guided through an independent air guide structure.

Specifically, the first air diffusing assembly is disposed on one side of the second air diffusing assembly facing the air outlet, or the second air diffusing assembly is disposed on one side of the first air diffusing assembly facing the air outlet.

According to the utility model provides an above-mentioned air conditioner can also have following additional technical characterstic:

in the above technical solution, preferably, the wind dispersing structure of the first wind dispersing assembly includes a first rotating vane, the wind dispersing structure of the second wind dispersing assembly includes a second rotating vane, and a rotation direction of the first rotating vane is the same as or opposite to a rotation direction of the second rotating vane.

In the technical scheme, the air dispersing structure of the first air dispersing assembly comprises a first rotary vane, the air dispersing structure of the second air dispersing assembly comprises a second rotary vane, and the first rotary vane and the second rotary vane can rotate to cut air flow passing through so as to diffuse and flow the air flow to form non-wind-sense air outlet, wherein the rotating direction of the first rotary vane can be the same as that of the first rotary vane to accelerate the flowing speed of the air flow and further improve the air exhaust speed of the air conditioner; the rotating direction of the first rotating vane and the rotating direction of the second rotating vane can be different, so that the aim of further disturbing the airflow is fulfilled, and different non-wind-feeling effects are generated.

In any of the above technical solutions, preferably, the first rotary vane and the second rotary vane are disposed correspondingly along the air outlet direction of the air outlet, so that the air flow sequentially passes through the first rotary vane and the second rotary vane.

In this technical scheme, first rotary vane and second rotary vane correspond the setting along the air-out direction of air outlet for the air current passes first rotary vane and second rotary vane in proper order, when reaching the vortex effect, can also increase the air output. It can be understood that, the first rotating blade and the second rotating blade are correspondingly arranged, that is, the center lines of the first rotating blade and the second rotating blade are superposed, and the corresponding first rotating blade and the corresponding second rotating blade are arranged along the air outlet direction of the air outlet.

Furthermore, the first rotary vane and the second rotary vane can be arranged in the air outlet direction of the air outlet without correspondence, so that the disturbance effect on the air flow is improved, and the non-wind-sensing air outlet effect is improved.

In any of the above technical solutions, preferably, the air conditioner has a housing, the air outlet is formed on the housing, a first receiving portion and a second receiving portion are formed in the housing, the first receiving portion is adapted to receive the first air diffusing assembly, the first air diffusing assembly is movably disposed and configured to move between a position where the first receiving portion is received and a position where the first receiving portion blocks the air outlet, the second receiving portion is adapted to receive the second air diffusing assembly, and the second air diffusing assembly is movably disposed and configured to move between a position where the second receiving portion is received and a position where the second receiving portion blocks the air outlet.

In the technical scheme, the air conditioner is provided with a shell, an air outlet is formed in the shell, meanwhile, a first accommodating portion and a second accommodating portion are formed in the shell, a first air dispersing component is accommodated in the first accommodating portion, a second air dispersing component is accommodated in the second accommodating portion, the influence on the appearance of the air conditioner due to the fact that the first air dispersing component and the second air dispersing component are exposed outside is avoided, the grade of a product is improved, the first air dispersing component and the first accommodating portion are movably arranged and can extend out of the first accommodating portion to shield the air outlet, the second air dispersing component is movably connected with the second accommodating portion, and the second air dispersing component can extend out of the second accommodating portion to shield the air outlet.

In any one of the above embodiments, preferably, the first receiving portion is provided on a front side of the housing, and the second receiving portion is provided on a bottom of the housing.

In this technical scheme, first portion of acceping sets up in the casing bottom, and the second portion of acceping sets up in the front side of casing, also promptly first portion of acceping and second portion of acceping set up respectively in the both sides of air outlet, and then neither can make the thickness of air conditioner too thick, also can not make the height of air conditioner too high.

In any one of the above technical solutions, preferably, the first accommodating portion includes an accommodating groove, and the first air diffusing assembly is slidably disposed with the accommodating groove; the second accommodating part comprises an accommodating groove, and the second air diffusing component is arranged in a sliding manner with the accommodating groove.

In the technical scheme, the first accommodating part comprises an accommodating groove which is simple in structure and can be connected with the first air diffusing component in a sliding manner, and the first air diffusing component can be accommodated in the accommodating groove and can also slide out of the accommodating groove to shield the air outlet; the second accommodating part comprises an accommodating groove, and the second air diffusing assembly can be accommodated in the accommodating groove and also can slide out of the accommodating groove to shield the air outlet.

In any one of the above technical solutions, preferably, the housing includes a face frame and a chassis, the face frame has a first abdicating structure, the chassis has a second abdicating structure, and the first abdicating structure and the second abdicating structure surround and define a first accommodating portion.

In this technical scheme, the casing includes face frame and chassis, and the first structure of stepping down on the face frame and the second on the chassis structure of stepping down close out first portion of acceping, can avoid setting up first portion of acceping in the casing and occupy the emergence of the installation space's of other spare parts the condition.

In any of the above technical solutions, preferably, the first air dispersing component is provided with a first driving member, and the first driving member drives the first air dispersing component to move so as to shield or open the air outlet; the second air dispersing component is provided with a second driving piece, and the second driving piece drives the second air dispersing component to move so as to shield or open the air outlet.

In this technical scheme, first driving piece drive first scattered wind subassembly motion to shelter from or open the air outlet, the second driving piece drive second scattered wind subassembly motion is in order to shelter from the air outlet.

Further, the sliding tracks of the first air diffusing component and the second air diffusing component are arc-shaped.

In any of the above technical solutions, preferably, at least one of the first air dispersing assembly and the second air dispersing assembly is rotatably disposed.

In this technical scheme, at least one rotation setting in first wind subassembly and the second wind subassembly that looses, specifically, when first wind subassembly and/second that looses rotates in order to open the air outlet, the angle of opening can be adjusted, and then when the air conditioner is conventional to refrigerate or heat, one of rotation setting can play the effect of air-guiding.

Specifically, the first air diffusing assembly and the second air diffusing assembly can be rotatably arranged with the air outlet.

In any of the above technical solutions, preferably, the second air diffusing assembly is rotatably connected to the air outlet.

In this technical scheme, the second subassembly that looses wind and the air outlet rotation are connected, specifically, the second subassembly that looses can realize the non-wind sense air-out when sheltering from the air outlet, and the second subassembly that looses wind can realize the wind-guiding for the air outlet rotation when opening the air outlet.

In any one of the above technical solutions, preferably, the air conditioner further includes: and the air deflector is rotatably connected with the air outlet and is configured to rotate to open or close the air outlet.

In the technical scheme, the air conditioner further comprises an air deflector which is arranged around the arc center in a sliding mode, on one hand, the air outlet can be opened and used for guiding air, and on the other hand, the air outlet can be closed to enable the air conditioner to be in an integrated appearance. The air conditioner comprises an air outlet, a first air dispersing component, a second air dispersing component, an air deflector and a fan blade, wherein one of the first air dispersing component and the second air dispersing component and the air deflector are arranged on the same side of the air outlet, so that the space occupied by one of the first air dispersing component and the second air dispersing component and the air deflector is saved, the whole volume of the air conditioner is further reduced, meanwhile, the other of the first air dispersing component and the second air dispersing component is arranged on the other side of the air outlet, so that the first air dispersing component and the second air dispersing component are respectively positioned on two sides of the air outlet, and the phenomenon of interference when the first air dispersing component and the second air dispersing component move is avoided.

Specifically, the air deflector can be arranged around the arc center in a sliding manner, and can also be connected with the air outlet in a rotating manner.

In any of the above technical solutions, preferably, the first air dispersing component includes a base body, the air dispersing structure of the first air dispersing component includes an air guide ring, the air guide ring is formed on the base body, the first rotary vane is rotatably connected with the base body and is arranged opposite to the air guide ring, the air guide ring is communicated with the air outlet and is suitable for the air current to pass through, and the first rotary vane is configured to cut the passing air current so as to diffuse and flow the passing air current.

In the technical scheme, the first air dispersing structure is installed on the base body, the first rotary blade is arranged corresponding to the base body, the rotary blade is rotatably connected with the base body, and the air flow passing through the air dispersing assembly can be understood as the air flow circulating along the air guide ring, wherein the air flow is cut by the first rotary blade in the circulating process along the air guide ring, so that the air flow is diffused and flows, the output air flow is softer, and no wind sense air outlet is realized.

Further, the base body portion comprises a first cover body and a second cover body, and the first cover body and the second cover body are connected in a matched mode to define the base body portion.

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 is a schematic structural diagram of an air conditioner according to an embodiment of the present invention in a no-wind mode;

fig. 2 is a schematic structural diagram of an air conditioner according to an embodiment of the present invention in another no-wind mode;

fig. 3 is a schematic structural diagram of an air conditioner according to an embodiment of the present invention;

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

fig. 5 is another schematic perspective 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 5 is:

100 air conditioner, 1 shell, 10 air outlets, 12 air inlets, 14 first containing parts, 16 second containing parts, 2 first air dispersing components, 3 second air dispersing components, 4 air deflectors, 5 air dispersing structures and 6 heat exchangers.

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 conditioner 100 according to some embodiments of the present invention is described below with reference to fig. 1 to 5.

As shown in fig. 1, according to an embodiment of the present invention, the present invention provides an air conditioner 100, including: the air outlet 10, the first air dispersion component 2 and the second air dispersion component 3.

Specifically, the first air diffusing component 2 and the second air diffusing component 3 respectively shield the air outlet 10, the first air diffusing component 2 and the second air diffusing component 3 are arranged in a stacked manner along the air outlet direction of the air outlet 10, the first air diffusing component 2 and the second air diffusing component 3 are respectively provided with an air diffusing structure 5, and the air diffusing structure 5 is suitable for air flow to pass through and is suitable for air flow passing through to diffuse and flow.

The utility model provides an air conditioner 100, including the first wind subassembly 3 that looses of wind subassembly 2 and second, the air outlet 10 can all be sheltered from to the first wind subassembly 2 that looses and the second wind subassembly 3 that looses, wherein, all be provided with the wind structure 5 that looses on the first wind subassembly 2 that looses and the second wind subassembly 3 that looses, the wind structure 5 that looses can make the air current diffuse and flow, thereby realize the no wind sense air-out, it can be understood that wind changes original flow direction and can flow towards different directions behind the wind structure 5 that looses, thereby realize the no wind sense air-out, first wind subassembly 2 that looses and the second wind subassembly 3 that looses all shelter from air outlet 10 and follow the range upon range of air-out direction and set up, the air current is passed first wind subassembly 2 that looses and the wind subassembly 3 that looses by air outlet 10 and the second, it can be understood that first wind subassembly 2 that looses and the second looses and the wind subassembly 3 that looses along the range upon range of air-up setting of air-up of air-out direction, can specifically understand for The first air dispersing component 2 and the second air dispersing component 3 are arranged to form a double-layer structure at the overlapping position, so that air flow passes through the double-layer structure, and thus, the air flow is cut by the air dispersing structure 5 on the first air dispersing component 2 and the air dispersing structure 5 on the second air dispersing component 3, the disturbance to the air flow is further improved, and the effect of no-wind-sense air outlet is further improved.

More specifically, as shown in fig. 1, the first air diffusing component 2 and the second air diffusing component 3 shield the air outlet 10, so that the air flow flows out of the air outlet 10 and then flows into the environment after being sequentially cut by the first air diffusing component 2 and the second air diffusing component 3, and the two air diffusing components are combined together to further cut the air flow, so that the air flow flows in a diffused manner, and a better non-wind-feeling air outlet effect can be achieved.

Furthermore, the first air diffusing component 2 and the second air diffusing component 3 can be stacked along the air outlet direction of the air outlet 10, or can be removed from the stacking, and the first air diffusing component 2 and the second air diffusing component 3 can be used for guiding air or shielding the air outlet 10 without being affected by modeling after the stacking is removed, so that the product can be switched among multiple modes.

Specifically, as shown in fig. 2, when the air conditioner 100 is turned on in a no-wind mode, one of the first wind diffusing assembly 2 and the second wind diffusing assembly 3 shields the wind outlet 10, so as to realize no-wind outlet; as shown in fig. 1, when the air conditioner 100 starts another non-wind-sensing air outlet mode, the first air diffusing component 2 and the second air diffusing component 3 both block the air outlet 10, and the first air diffusing component 2 and the second air diffusing component 3 are stacked along the air outlet direction of the air outlet 10, and the air diffusing structure 5 on the first air diffusing component 2 and the air diffusing structure 5 on the second air diffusing component 3 respectively cut the air flow, so as to achieve the purpose of further turbulent flow, and further improve the non-wind-sensing air outlet effect, so as to realize another non-wind-sensing air outlet mode different from the non-wind-sensing air outlet mode formed by one of the first air diffusing component 2 and the second air diffusing component 3; when the air conditioner 100 is in the cooling or heating mode, one of the first air diffusing assembly 2 and the second air diffusing assembly 3 can serve as an air guiding structure to guide air, or can guide air through a single air guiding structure.

Specifically, as shown in fig. 1, when the first air diffusing component 2 and the second air diffusing component 3 are stacked along the air outlet direction of the air outlet 10, the first air diffusing component 2 is disposed on one side of the second air diffusing component 3 facing the air outlet 10; of course, the second air diffusing component 3 may also be disposed on the side of the first air diffusing component 2 facing the air outlet 10.

According to an embodiment of the present invention, in addition to the features of the above embodiment, there is further defined: the wind dispersing structure 5 of the first wind dispersing component 2 comprises a first rotary vane, the wind dispersing structure 5 of the second wind dispersing component 3 comprises a second rotary vane, the first rotary vane and the second rotary vane can rotate to cut the passing air flow, so that the air flow can diffuse and flow to form wind-free outlet air, wherein the rotating direction of the first rotary vane can be the same as that of the first rotary vane to accelerate the flowing speed of the air flow and further improve the air exhaust speed of the air conditioner 100; the rotating direction of the first rotating vane and the rotating direction of the second rotating vane can be different, so that the aim of further disturbing the airflow is fulfilled, and different non-wind-feeling effects are generated.

Specifically, the first rotary vane comprises a first rotating shaft and a plurality of first vanes sleeved on the first rotating shaft, and the first vanes can be driven to rotate by the rotation of the rotating shaft so as to cut the airflow passing through the first vanes; the second rotary vane comprises a second rotating shaft and a plurality of second blades sleeved on the second rotating shaft, and the second blades can be driven to rotate by the rotation of the rotating shaft, so that air flow passing through the second blades is cut.

More specifically, the first rotary vane and the second rotary vane are respectively provided with a driving structure for driving the first rotary shaft and the second rotary shaft to rotate.

Furthermore, the first air diffusing component 2 and the second air diffusing component 3 respectively include an installation carrier, the air diffusing structure 5 is disposed on the installation carrier, specifically, the first air diffusing component 2 is taken as an example for explanation, the installation carrier of the first air diffusing component 2 is an air diffusing plate, an air guiding ring is disposed on the air diffusing plate, the air diffusing structure 5 of the first air diffusing component 2 is a first rotary vane, the first rotary vane is disposed on the air diffusing plate and is disposed corresponding to the air guiding ring, and the air flow passing through the first air diffusing component 2 can be understood as the air flow circulating along the air guiding ring, wherein the air flow is cut by the first rotary vane during the process of circulating along the air guiding ring, so that the air flow diffuses and flows, the output air flow is softer, and no wind sensation is realized. The structure of the second air diffusing assembly 3 can be understood by referring to the structure of the first air diffusing assembly 2 of the previous example, and will not be described in detail herein.

The second air diffusing component 3 and the first air diffusing component 2 are arranged in a stacked mode, and the mounting carriers of the second air diffusing component and the first air diffusing component can be arranged in a stacked mode specifically according to the fact that the second air diffusing component and the first air diffusing component are arranged in a stacked mode, so that air flow can be cut by the first rotary blade and the second rotary blade, air outlet is finer and softer, and the non-wind effect is enhanced.

According to an embodiment of the present invention, in addition to the features of any of the above embodiments, there is further defined: first rotary vane and second rotary vane correspond the setting along the air-out direction of air outlet 10 for the air current passes first rotary vane and second rotary vane in proper order, when reaching the vortex effect, can also increase the air output. It can be understood that, the first rotating blade and the second rotating blade are correspondingly disposed, that is, the center lines of the first rotating blade and the second rotating blade are overlapped, and the corresponding first rotating blade and the corresponding second rotating blade are disposed along the air outlet direction of the air outlet 10.

Further, the first rotary vane and the second rotary vane can be arranged in a staggered mode in the air outlet direction of the air outlet 10, so that the disturbance effect on the air flow is improved, and the non-wind-sensing air outlet effect is improved.

According to an embodiment of the present invention, in addition to the features of any of the above embodiments, there is further defined: the air conditioner 100 is provided with a shell 1, an air outlet 10 is formed on the shell 1, meanwhile, a first accommodating part 14 and a second accommodating part 16 are formed in the shell 1, a first air dispersing component 2 is accommodated in the first accommodating part 14, a second air dispersing component 3 is accommodated in the second accommodating part 16, the first air dispersing component 2 and the second air dispersing component 3 are hidden and accommodated, the first air dispersing component 2 and the second air dispersing component 3 are prevented from being exposed outside to influence the appearance of the air conditioner 100, the grade of the product is improved, the first air dispersing component 2 and the first accommodating part 14 are movably arranged, and can extend out of the first accommodating part 14 to shield the air outlet 10, the second air-dispersing component 3 is movably connected with the second accommodating part 16, the second air-dispersing component 3 can extend out of the second accommodating part 16 to shield the air outlet 10, therefore, different wind-free wind outlet effects can be formed by the shielding of the first wind dispersing component 2 and/or the second wind dispersing component 3 on the wind outlet 10.

Specifically, first wind subassembly 2 and the second wind subassembly 3 that looses slide respectively and set up, slide to set up joint strength height, can avoid the first wind subassembly 2 and the second wind subassembly 3 that loosens that looses that leads to of multiple movement. Meanwhile, the first air diffusing component 2 and the second air diffusing component 3 can completely slide into the shell 1 through sliding connection, so that the air diffusing components are hidden and contained in the shell 1.

As shown in fig. 2 and 3, according to an embodiment of the present invention, in addition to the features of any of the above embodiments, further defined are: the first accommodating portion 14 is disposed at the bottom of the housing 1, and the second accommodating portion 16 is disposed at the front side of the housing 1, that is, the first accommodating portion 14 and the second accommodating portion 16 are disposed at two sides of the air outlet 10, respectively, so as to prevent the air conditioner 100 from being too thick and the air conditioner 100 from being too high.

As shown in fig. 2, according to an embodiment of the present invention, in addition to the features of any of the above embodiments, further defined are: the first accommodating part 14 comprises an accommodating groove which is simple in structure and can be connected with the first air diffusing component 2 in a sliding manner, and the first air diffusing component 2 can be accommodated in the accommodating groove and can also slide out of the accommodating groove to shield the air outlet 10; the second accommodating portion 16 includes an accommodating groove, and the second air diffusing assembly 3 can be accommodated in the accommodating groove and also can slide out of the accommodating groove to shield the air outlet 10.

As shown in fig. 2 and 3, according to an embodiment of the present invention, in addition to the features of the above embodiment, further defined are: casing 1 includes face frame and chassis, and the first structure of stepping down on the face frame and the second structure of stepping down on the chassis of stepping down enclose first portion of acceping 14, can avoid setting up first portion of acceping 14 in casing 1 and occupy the emergence of the installation space's of other spare parts the condition.

Further, the bottom of the housing 1 extends downward and forms a receiving groove for receiving the second air dispersing component 3.

According to an embodiment of the present invention, in addition to the features of any of the above embodiments, there is further defined: the first air dispersing component 2 is provided with a first driving part, and the first driving part drives the first air dispersing component 2 to move so as to shield or open the air outlet 10; the second air dispersing component 3 is provided with a second driving part, and the second driving part drives the second air dispersing component 3 to move so as to shield or open the air outlet 10.

Specifically, the first driving part comprises a first motor, a first gear and a first rack, the first rack is connected to two ends of the first air dispersing component 2, the first motor drives the first gear to rotate, the first gear drives the first rack which is in meshing transmission with the first gear to move, and then the first air dispersing component 2 is driven to move. Further, the first rack is a circular arc rack, so that the sliding track of the first air diffusing component 2 is circular arc.

Specifically, the second driving part comprises a second motor, a second gear and a second rack, the second rack is connected to two ends of the second air dispersing component 3, the second motor drives the second gear to rotate, and the second gear drives the second rack which is in meshing transmission with the second motor to move so as to drive the second air dispersing component 3 to move. Further, the second rack is a circular arc rack, so that the sliding track of the second air diffusing component 3 is circular arc.

According to an embodiment of the present invention, the present invention provides an air conditioner 100, including: the air outlet 10, the first air dispersing component 2 and the second air dispersing component 3, and at least one of the first air dispersing component 2 and the second air dispersing component 3 is rotatably arranged.

Specifically, the first air diffusing component 2 and the second air diffusing component 3 respectively shield the air outlet 10, the first air diffusing component 2 and the second air diffusing component 3 are arranged in a stacked manner along the air outlet direction, the first air diffusing component 2 and the second air diffusing component 3 are respectively provided with an air diffusing structure 5, and the air diffusing structures 5 are suitable for air flow to pass through and are suitable for air flow to diffuse and flow through.

The utility model provides an air conditioner 100, the first wind subassembly 3 that looses 2 and the second of wind components that looses homoenergetic enough shelters from the air outlet 10, wherein, the first wind subassembly 2 that looses and the second of wind components 3 that looses all shelter from the air outlet 10 and follow the range upon range of setting of air-out direction, the air current is passed the first wind subassembly 2 that looses and the wind subassembly 3 that looses of second by the air outlet 10, through the wind structure 5 that looses on the first wind subassembly 2 that looses and the wind structure 5 that looses on the wind subassembly 3 that looses of second to the cutting of air current, the disturbance to the air current has further been improved, and then the effect of no wind sense air-out has.

In this embodiment, at least one of the first air diffusing member 2 and the second air diffusing member 3 is rotatably disposed, and particularly, when the first air diffusing member 2 and/or the second air diffusing member 3 is rotated to open the air outlet 10, the opening angle can be adjusted, so that when the air conditioner 100 is used for cooling or heating, one of the rotary arrangements can perform the function of guiding air.

Specifically, the first air diffusing assembly 2 and the second air diffusing assembly 3 can be rotatably arranged with the air outlet 10.

Specifically, the first air diffusing component 2 is provided with a hinged part, and the first air diffusing component 2 is hinged at the air outlet 10 through the hinged part; the second air-dispersing component 3 is provided with a hinged part, and the second air-dispersing component 3 is hinged with the air outlet 10 through the hinged part.

For example, the hinge portion may include a rivet, and at least one of the first air diffusing member 2 and the second air diffusing member 3 is riveted with the air outlet 10, so that the hinge portion is formed between the air outlet 10 and at least one of the first air diffusing member 2 and the second air diffusing member 3.

Of course, the hinged structure may be replaced by a pin structure or a hinge, and the like, which is not exhaustive, but falls within the protection scope of the present solution without departing from the design concept.

According to an embodiment of the present invention, in addition to the features of the above embodiment, there is further defined: the second air diffusing component 3 is rotatably connected with the air outlet 10.

In this embodiment, the second air diffusing component 3 is rotatably connected to the air outlet 10, specifically, when the second air diffusing component 3 blocks the air outlet 10, the air can be discharged without wind sensation, and when the second air diffusing component 3 rotates relative to the air outlet 10 to open the air outlet 10, the air can be guided.

According to an embodiment of the present invention, in addition to the features of the above embodiment, there is further defined: the air conditioner 100 further includes a wind deflector 4 rotatably connected to the wind outlet 10, and the wind deflector 4 is configured to rotate to open or close the wind outlet 10.

In this embodiment, the air conditioner 100 further includes a wind deflector 4, and the wind deflector 4 is slidably disposed, so that the wind outlet 10 can be opened for guiding wind, and the wind outlet 10 can be closed to make the air conditioner 100 have an integrated appearance. One of the first air diffusing component 2 and the second air diffusing component 3 and the air deflector 4 are arranged on the same side of the air outlet 10, so that the space occupied by the one of the first air diffusing component 2 and the second air diffusing component 3 and the air deflector 4 is saved, and the whole volume of the air conditioner 100 is further reduced, meanwhile, the other one of the first air diffusing component 2 and the second air diffusing component 3 is arranged on the other side of the air outlet 10, so that the first air diffusing component 2 and the second air diffusing component 3 are respectively arranged on two sides of the air outlet 10, and the phenomenon of interference generated when the first air diffusing component 2 and the second air diffusing component 3 move is avoided.

Specifically, the air guiding plate 4 may be slidably disposed around the arc center thereof, and may also be rotatably connected to the air outlet 10.

Specifically, the air deflector 4 is provided with a driving structure, the driving structure comprises a motor, a gear and a rack, the motor drives the gear to rotate, the gear drives the rack which is in meshing transmission with the gear to rotate, the air deflector 4 is connected with the rack so as to drive the air deflector 4 to move, and further, the rack is an arc-shaped rack.

According to an embodiment of the present invention, in addition to the features of the above embodiment, there is further defined: the first air dispersing component 2 comprises a base body, the air dispersing structure 5 of the first air dispersing component 2 comprises an air guide ring, the air guide ring is formed on the base body, a first rotary vane is rotatably connected with the base body and is arranged opposite to the air guide ring, the air guide ring is communicated with the air outlet 10 and is suitable for air flow to pass through, and the first rotary vane is configured to cut the passing air flow so as to diffuse and flow the passing air flow.

In the technical scheme, the air dispersing structure 5 is installed on the base body, the first rotary vane is correspondingly arranged with the base body, the rotary vane is rotatably connected with the base body, the air flow passing through the first air dispersing component 2 can be understood as the air flow circulating along the air guide ring, wherein the air flow is cut by the first rotary vane in the circulating process along the air guide ring, so that the air flow is diffused and flows, the output air flow is softer, and the air outlet without wind sensation is realized. The structure of the second air diffusing assembly 3 can be understood by referring to the structure of the first air diffusing assembly 2 of the previous example, and will not be described in detail herein.

Further, the base body portion comprises a first cover body and a second cover body, and the first cover body and the second cover body are connected in a matched mode to define the base body portion.

For example, as shown in fig. 1 to 5, the first air diffusing component 2 is disposed in a receiving groove at the front side of the casing 1, the second air diffusing component 3 and the air guiding plate 4 are disposed in a receiving groove at the bottom of the casing 1, the first air diffusing component 2 and the receiving groove are slidably disposed, the second air diffusing component 3 and the receiving groove are slidably disposed, and the air guiding plate 4 and the receiving groove are slidably disposed, wherein the air guiding plate 4 and the second air diffusing component 3 are disposed at the same side of the air outlet 10, and the first air diffusing component 2 is disposed at the other side of the air outlet 10, as shown in fig. 2, when the air conditioner 100 is in a non-wind-induced air outlet mode, one of the first air diffusing component 2 and the second air diffusing component 3 shields the air outlet 10, and the air flow flows from the air inlet 12 to the air outlet 10 after heat exchange by the heat exchanger 6, and then flows from the air outlet 10 to the outside after passing through the first air diffusing component 2 or the second air diffusing component 3, and the air diffusing structure, that is, when any one of the first air diffusing component 2 and the second air diffusing component 3 singly shields the air outlet 10, the air flow can be diffused and flow, and no wind sense can be realized; as shown in fig. 1, when the air conditioner 100 is turned on in another non-wind-sensation mode, both the first wind dispersing component 2 and the second wind dispersing component 3 slide out of the accommodating groove and block the wind outlet 10, and the first wind dispersing component 2 and the second wind dispersing component 3 are stacked along the wind outlet direction of the wind outlet 10, so that the wind flow from the wind outlet 10 needs to be cut twice, that is, the wind flow flows out after being cut by the first wind dispersing component 2 and the second wind dispersing component 3, compared with the scheme that one of the first wind dispersing component 2 and the second wind dispersing component 3 cuts the wind flow to diffuse the wind flow, the first wind dispersing component 2 and the second wind dispersing component 3 sequentially cut the wind flow, so that the flow direction of the wind flow is more, the wind outlet effect without wind sensation is improved, it can be understood that the positions of the first wind dispersing component 2 and the second wind dispersing component 3 stacked at the wind outlet 10 can be changed, so that the order of the airflow passing through the first air dispersing component 2 and the second air dispersing component 3 can be changed; as shown in fig. 3, when the air conditioner 100 is turned off, the first air diffusing assembly 2 is hidden in the receiving groove at the front side of the casing 1, the second air diffusing assembly 3 is hidden in the receiving groove at the bottom of the casing 1, and the air guiding plate 4 slides out to block the air outlet 10, so that the air conditioner 100 has an integrated appearance. As shown in fig. 4 and 5, at least one of the first air diffusing component 2 and the second air diffusing component 3 shields the air outlet 10, so that the air conditioner 100 is prevented from blowing people from the front side when air is exhausted, no wind feeling is formed, the air flow is cut by the air diffusing structure 5 to be diffused and flow, and the no wind feeling air exhausting effect is further ensured.

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 include, for example, fixed connections, detachable connections, or integral connections; "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 (12)

1. An air conditioner, comprising:

an air outlet;

a first air dispersion assembly;

the first air dispersing component and the second air dispersing component are arranged in a stacked mode along the air outlet direction, the first air dispersing component and the second air dispersing component are respectively provided with an air dispersing structure, and the air dispersing structures are suitable for air flow to pass through and enabling the passing air flow to diffuse and flow.

2. The air conditioner according to claim 1,

the wind dispersing structure of the first wind dispersing assembly comprises a first rotary vane, the wind dispersing structure of the second wind dispersing assembly comprises a second rotary vane, and the rotating direction of the first rotary vane is the same as or opposite to that of the second rotary vane.

3. The air conditioner according to claim 2,

the first rotary vane and the second rotary vane are arranged correspondingly along the air outlet direction of the air outlet so as to enable air flow to sequentially pass through the first rotary vane and the second rotary vane.

4. The air conditioner according to any one of claims 1 to 3,

the air conditioner is provided with a shell, the air outlet is formed in the shell, a first accommodating part and a second accommodating part are formed in the shell, the first accommodating part is suitable for accommodating the first air dispersing component, the first air dispersing component is movably arranged and configured to move between a position accommodated in the first accommodating part and a position for shielding the air outlet, the second accommodating part is suitable for accommodating the second air dispersing component, and the second air dispersing component is movably arranged and configured to move between a position accommodated in the second accommodating part and a position for shielding the air outlet.

5. The air conditioner according to claim 4,

the first accommodating part is arranged on the front side of the shell, and the second accommodating part is arranged at the bottom of the shell.

6. The air conditioner according to claim 4,

the first accommodating part comprises an accommodating groove, and the first air diffusing assembly is arranged in a sliding manner with the accommodating groove;

the second accommodating part comprises an accommodating groove, and the second air diffusing assembly and the accommodating groove are arranged in a sliding mode.

7. The air conditioner according to claim 4,

the shell comprises a face frame and a chassis, wherein the face frame is provided with a first yielding structure, the chassis is provided with a second yielding structure, and the first yielding structure and the second yielding structure surround and define the first accommodating part.

8. The air conditioner according to any one of claims 1 to 3,

the first air dispersing component is provided with a first driving piece, and the first driving piece drives the first air dispersing component to move so as to shield or open the air outlet;

the second air dispersing component is provided with a second driving piece, and the second driving piece drives the second air dispersing component to move so as to shield or open the air outlet.

9. The air conditioner according to any one of claims 1 to 3,

at least one of the first air dispersing component and the second air dispersing component is arranged in a rotating mode.

10. The air conditioner according to claim 9,

the second air dispersing component is rotatably connected with the air outlet.

11. The air conditioner according to any one of claims 1 to 3, further comprising:

a wind deflector configured to move to open or close the wind outlet.

12. The air conditioner according to claim 2 or 3,

the first air dispersing component comprises a base body part, the air dispersing structure of the first air dispersing component comprises an air guide ring, the air guide ring is formed on the base body part, the first rotary vane is rotatably connected with the base body part and is arranged opposite to the air guide ring, the air guide ring is communicated with the air outlet and is suitable for air flow to pass through, and the first rotary vane is configured to cut the passing air flow so as to enable the passing air flow to diffuse and flow.

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