CN211400031U

CN211400031U - Air conditioner

Info

Publication number: CN211400031U
Application number: CN202020121594.2U
Authority: CN
Inventors: 何健; 谢鹏; 刘奇伟; 翟富兴; 郑辉; 郭绍胜; 姬安生; 易正清; 贺杰
Original assignee: Midea Group Co Ltd; GD Midea Air Conditioning Equipment Co Ltd
Current assignee: Midea Group Co Ltd; GD Midea Air Conditioning Equipment Co Ltd
Priority date: 2020-01-19
Filing date: 2020-01-19
Publication date: 2020-09-01
Anticipated expiration: 2030-01-19

Abstract

The utility model provides an air conditioner, wherein, air conditioner includes: a housing having an opening; the first air deflector is connected with the shell, and an air outlet is defined by the first air deflector and the opening part; the air dispersing component is formed on the air dispersing component and is suitable for air flow to pass through and for the air flow passing through to diffuse, wherein the air dispersing component is suitable for moving relative to the shell, and the air outlet is opened or closed by the movement of the air dispersing component. The utility model provides an air conditioner, in the course of the work, the air outlet is injectd with the casing to first aviation baffle, and the air outlet can be closed or opened to the wind subassembly that looses, and when the air conditioner was closed, the wind subassembly that looses can form the outward appearance of air conditioner with the casing, simultaneously, also accessible looses the wind subassembly and forms the no sensation of wind air-out of multiple form. The use freedom degree is higher, and the user experience is improved.

Description

Air conditioner

Technical Field

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

Background

At present, air supply of an air conditioner in the related art is guided to a specific direction through an air deflector, and the air supply of the air conditioner is easy to directly blow to a human body, so that poor user experience is caused.

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: a housing having an opening; the first air deflector is connected with the shell, and an air outlet is defined by the first air deflector and the opening part; the air dispersing component is formed on the air dispersing component and is suitable for air flow to pass through and for the air flow passing through to diffuse, wherein the air dispersing component is suitable for moving relative to the shell, and the air outlet is opened or closed by the movement of the air dispersing component.

The utility model provides an air conditioner, the air outlet is injectd with the casing to first aviation baffle, the air outlet can be closed or opened to the wind subassembly that looses, when the air conditioner is closed, the wind subassembly that looses can form the outward appearance of air conditioner with the casing, avoid the air outlet to expose, in the course of the work, outside air gets into and can refrigerate or heat via the direct discharge of the air outlet of injecing between first aviation baffle and the casing after the air conditioner carries out the heat transfer, also can carry out the diffusion mouth through the air outlet via the wind part that looses and discharge the air supply, different modes of operation are provided, use the degree of freedom is higher, user experience has been improved.

The utility model provides an air conditioner, through the setting of first aviation baffle and the wind subassembly that looses, when the air conditioner is not in operation, can close the air outlet through the wind subassembly that looses, scattered wind subassembly, first aviation baffle and casing have the integration outward appearance, can promote the product grade.

The utility model provides an air conditioner, through the wind subassembly that looses moving for the casing, and the wind subassembly that looses can provide different mode through the setting that the air outlet was opened or closed in the motion, under the condition that the air outlet was closed to the wind subassembly that looses, the air supply of air conditioner discharges through the wind subassembly that looses that is located air outlet department, the wind part that looses of wind subassembly can spread the air current that flows through, thereby realize the no wind and feel out, it can be understood that wind changes the original flow direction and can flow towards different directions behind the wind structure that looses, thereby realize the no wind and feel out, even people directly can not feel too big air current towards the air outlet of air conditioner, user experience has been improved; when the air outlet is opened by the air dispersing component, the air supply of the air conditioner is discharged through the air outlet defined by the first air deflector and the opening part of the shell, the air conditioner supplies air normally, and the air supply of the air conditioner is directly discharged, so that the refrigerating or heating effect of the air conditioner can be improved.

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

in the above technical solution, further, a notch is formed in the opening portion, and the first air deflector is adapted to shield a portion of the notch and define an air outlet with the notch.

In this embodiment, the shape of the opening of the housing and the manner of forming the outlet are further provided. The opening part is provided with a notch, the first air deflector is suitable for shielding part of the notch and limiting an air outlet with the notch, and the air conditioner can perform mass air supply through the notch, so that the refrigerating or heating effect of the air conditioner is improved.

In any of the above technical solutions, further, the first air guiding plate is rotatably disposed, and the first air guiding plate is adapted to rotate to change the air outlet direction of the air outlet.

In this technical scheme, first aviation baffle rotates to set up, and first aviation baffle rotates to set up and can change the air-out direction of air outlet. On one hand, the air supply direction of the air conditioner is convenient for a user to control, the air supply can be prevented from facing a human body to improve the comfort level, or the air supply can be enabled to face the human body to feel the cooling or heating effect of the air conditioner as soon as possible; on the other hand, the first air deflector is arranged in a rotating mode and can be combined with the air dispersing component to be opened or closed to provide different working modes, and user experience can be further improved.

For example, the air outlet is closed by the air dispersion component, the direction of the air outlet is changed by rotating the first air deflector, the direction of the air outlet faces the bottom of the shell to avoid a human body, air supplied by the air conditioner can be sent out through the air dispersion component of the air dispersion component and also can be sent out through the air outlet, the air resistance of the air supplied by the air conditioner can be reduced under the condition that the air conditioner supplies air without wind sensation, and the refrigerating or heating effect of the air conditioner is improved.

For another example, the air outlet is opened by the air dispersing component, and the first air deflector rotates to change the direction of the air outlet, so that the shape and size of the air outlet can be changed, and the flow rate of the supplied air is further changed under the condition of the same air quantity. It can be understood that the smaller the air outlet, the larger the air flow rate, the larger the air outlet, the smaller the air flow rate.

In any of the above technical solutions, further, the first air guiding plate is slidably disposed, and the first air guiding plate is adapted to move between the sliding-out casing and the sliding-in casing.

In the technical scheme, the first air deflector can slide out of or into the shell in a sliding mode, and the shape of the air outlet can be adjusted relatively. On one hand, the air supply direction of the air conditioner is convenient to control by a user; on the other hand, the sliding arrangement of the first air deflector can be combined with the opening or closing of the air dispersing component to provide different working modes, so that the user experience can be further improved.

For example, the air outlet is closed by the air dispersing component, the first air deflector slides to change the shape of the air outlet, and the air supply of the air conditioner can be sent out through the air dispersing component of the air dispersing component and also can be sent out through the air outlet under the condition that the air outlet avoids a human body, so that the air resistance of the air supply of the air conditioner can be reduced under the condition that the air supply of the air conditioner is not affected by wind, and the refrigerating or heating effect of the air conditioner is improved.

In any of the above technical solutions, further, the first air guiding plate is adapted to be matched with the air dispersing component in a lap joint manner to define a cavity, and the cavity is communicated with the air outlet.

In this technical scheme, can realize a large amount of air-outs through the cavity through the formation of cavity, when the air outlet is closed to the wind subassembly that looses, the cavity can play the cushioning effect to the air supply of air conditioner simultaneously, can improve the wind effect that looses of wind subassembly, further improves the no wind sense effect of air conditioner air supply.

In any of the above technical solutions, further, side openings are respectively formed at two ends of the casing along the length direction of the splicing line of the first air deflector and the air dispersing assembly, and the side openings are communicated with the cavity.

In the technical scheme, the cavity is provided with the side opening for exhausting air, the air flow is blown out from the side surface to avoid the front air outlet from directly blowing people, the non-wind-sense air outlet is realized, the integral air outlet resistance is reduced, the uniformity of the room temperature is further improved, and the use experience of the product is improved.

In any of the above technical solutions, further, the first air guiding plate is provided with an air outlet portion.

In the technical scheme, the air outlet part is arranged on the first air deflector, air supply of the air conditioner can be sent out through the air outlet part, the front air outlet is avoided from directly blowing people, no wind sense air outlet is realized, the integral air outlet resistance is reduced, the uniformity of the room temperature is further improved, and the use experience of products is improved.

Specifically, the first air deflector may be disposed at a lower portion of the housing, and the air dispersing assembly is located at a front side of the housing. When the air outlet is closed by the air dispersing component, the air supplied by the air conditioner can be discharged to the lower part of the air conditioner through the first air deflector and cannot be directly blown to a human body, and the air supplied by the air dispersing component can be diffused and then discharged, so that the air supply without wind sensation can be realized; when the air outlet is opened to the air dispersion assembly, the air supply of the air conditioner can be discharged to the lower part of the air conditioner through the first air deflector, and the air outlet can also be used for directly exhausting air, so that the refrigerating and heating effects can be improved.

In any of the above technical solutions, further, the air outlet portion includes a through hole; or the air outlet part comprises an air outlet grid; or the air outlet part comprises an air dispersing rotary vane which is suitable for air flow to pass through and is suitable for the air flow passing through to diffuse.

In this technical scheme, further provide the concrete pattern of air-out portion, air-out portion can include at least one of through-hole, air-out grid and scattered wind rotary vane. The air supply of the air conditioner can be directly discharged through the through holes by arranging the through holes, so that the air resistance of the air supply is reduced, and the refrigerating or heating effect of the air conditioner can be improved; through the arrangement of the air outlet grille, the direction of the air supply is convenient to adjust when the air supply of the air conditioner is discharged through the air outlet part; through the arrangement of the air-dispersing rotary vanes, air flow can be diffused and flow when air supplied by the air conditioner is discharged from the air outlet part, so that the air supply direction of the air conditioner can be changed, and non-wind-sense air supply is realized.

In any of the above technical solutions, further, the first air guiding plate has an air guiding surface; the wind guide surface is at least partially defined as a cambered surface, or the wind guide surface is at least partially defined as a plane.

In the technical scheme, a specific structure of the first air guide plate is further provided, and at least part of the air guide surface is limited to be a concave arc surface, so that air supply of the air conditioner can be guided through the concave arc surface. On one hand, the air supply of the air conditioner can be prevented from directly impacting the first air deflector to cause the attenuation of the flow velocity of the supplied air, so that the air supply quantity of the air conditioner can be ensured, and the refrigerating or heating efficiency of the air conditioner can be improved; on the other hand, the direction of air supply of the air conditioner can be changed through the arrangement of the concave cambered surface, so that the air supply of the air conditioner can be conveniently carried out in the expected direction. For example, when the air conditioner is a hanging air conditioner, the air supply of the air conditioner and the wall body hung with the air conditioner form a certain angle through the arrangement of the concave arc surface, so that the user is more comfortable while the air supply efficiency is improved, and the user experience is improved.

In any of the above technical solutions, further, the wind dispersing member includes: the first fan blade is provided with a first blade; the second fan blade is provided with a second blade, the second fan blade and the first fan blade are arranged along the axial direction, the second fan blade is suitable for rotating to a first position and a second position, when the second fan blade is positioned at the first position, the second blade and the first blade are staggered along the axial direction of the air dispersing component, and when the second fan blade is positioned at the second position, the second blade and the first blade are at least partially overlapped along the axial direction of the air dispersing component.

In this technical scheme, further provide the structure of the part that looses, the part that looses has included first flabellum and second flabellum, and the second flabellum can rotate and stagger or axial part coincide with first flabellum axial, so set up the part that looses and can form different air-out modes, provide the wind effect that looses of different degree.

Specifically, when the second fan blade and the first fan blade are staggered axially, the gap between the second blade on the second fan blade and the first blade on the first fan blade is smaller, and the difficulty of air supply of the air conditioner for being exhausted through the air dispersing assembly is higher, so that most of air flow is exhausted through the first air deflector and can also be exhausted through the gap between the first air deflector and the shell; when the axial parts of the second fan blade and the first fan blade are overlapped, a gap between the second blade on the second fan blade and the first blade on the first fan blade is large, the flowing resistance of air flow is small, air supplied by the air conditioner can be discharged through the air dispersing component, air flow is diffused and flows through the first blade and the second blade, and non-wind-sensing air supply is realized. Furthermore, different air dispersing effects can be provided through different overlapping areas of the first fan blade and the second fan blade.

In any of the above technical solutions, further, the air conditioner further includes: the second air deflector is arranged at the air outlet and is suitable for rotating so as to adjust the air quantity flowing from the air outlet to the first air deflector and the air dispersing component.

In the technical scheme, the air quantity of the first air deflector and the air dispersing assembly is adjusted through rotation of the second air deflector, so that a user can reasonably distribute the air supply direction and the air quantity based on own needs, the user freedom degree is higher, and the user experience is improved.

In the technical scheme, different working modes can be provided through the arrangement of the first air deflector, the second air deflector and the air dispersing assembly. For example, when the user has a high requirement on cooling or heating, the air conditioner can be controlled to work in a normal air supply mode, the air dispersing component is controlled to open the air outlet, the second air deflector is controlled to rotate, the air supply volume of the air conditioner is distributed towards the air supply outlet, and air supply is sent out through the air outlet; when the requirement of a user on the air supply comfort level is high, the air conditioner can be controlled to work in a non-air-sense mode, the air outlet of the air dispersing component is controlled to be closed, the second air deflector is controlled to rotate, the air quantity is distributed to the direction of the air dispersing component, and the air supply is enabled to be supplied through the air dispersing component; the air outlet can be closed by controlling the air dispersing component, the second air deflector is controlled to rotate, the air quantity is distributed to the first air deflector and the air dispersing component, the air supply is discharged simultaneously through the first air deflector and the air dispersing component, the air supply quantity is divided, the air supply quantity can be reduced or prevented from directly facing a user on the premise that the total air supply quantity is not reduced, and the refrigerating or heating effect of the air conditioner can be ensured under the non-wind-sensation state.

In any of the above technical solutions, further, the air conditioner further includes: the air conditioner is in a first shape, the air dispersing component closes the air outlet, the second air deflector rotates to a first angle, the second fan blade is in a first position, and the first air deflector rotates to a second angle or slides to be matched with the air dispersing component in a butting mode; and/or the air conditioner is in a second shape, the air dispersion assembly moves to close the air outlet when the air conditioner is in the second shape, the second air deflector rotates to a third angle, the second fan blade is in a second position, and the first air deflector rotates to a fourth angle or slides to be matched with the air dispersion assembly in a lap joint manner; and/or the air conditioner is in a third state, the air dispersing component moves to open the air outlet, the second air deflector rotates to a fifth angle, and the first air deflector rotates to a sixth angle or slides to open the air outlet; and/or the air conditioner is in a fourth state, the air dispersing component moves to open the air outlet, the second air deflector rotates to a seventh angle, and the first air deflector rotates to an eighth angle or slides to open the air outlet; and/or the air conditioner has a fifth state, and the air dispersing component moves to close the air outlet when the air conditioner is in the fifth state.

In the technical scheme, the air conditioner is provided with various forms, the user freedom degree is higher, and the user experience is convenient to improve.

In the technical scheme, in the first state, the air outlet is closed by the air dispersion component, the first air deflector is matched with the air dispersion component in a lap joint mode, the second fan blade is located at the first position, and the operation mode of the air conditioner is that no wind sense air supply is carried out on the air dispersion component side, namely, the air flow flows out from the first air deflector side and flows in a diffusion mode. Specifically, the air outlet is positioned at the front part of the shell, the air dispersion component is used for closing or opening the air supply outlet and is also positioned at the front part of the shell, the air outlet is formed between the first air deflector and the shell, the first air deflector is positioned at the bottom of the shell, the air supply of the air conditioner is distributed to the first air deflector through the rotation of the second air deflector to a first angle, the second fan blade is positioned at a first position, the gap between the second blade on the second fan blade and the first blade on the first fan blade is smaller, the difficulty of air supply exhaust through the air dispersion component is higher, meanwhile, the first air deflector rotates to a second angle or slides to be matched with the air dispersion component in a leaning way, the gap between the first air deflector and the air dispersion component is also smaller, so that most of air flow is exhausted through the first air deflector, the front side of the air conditioner can be realized without air, the first form is particularly suitable for refrigerating air supply when a user is positioned at the front, user experience can be improved.

In the technical scheme, in the second state, the air outlet is closed by the air dispersion assembly, the first air deflector is matched with the air dispersion assembly in a lap joint mode, and the second fan blade is located at the second position. Specifically, the air outlet is located in the front of the shell, the air diffusing component is used for closing or opening the air supply outlet and is also located in the front of the shell, the air outlet is formed between the first air deflector and the shell, the first air deflector is located at the bottom of the shell, the air supply of the air conditioner is distributed to the air diffusing component through the rotation of the second air deflector to a third angle, the second fan blade is located at the second position, a gap between the second blade on the second fan blade and the first blade on the first fan blade is large, the resistance of the air flow flowing out through the air diffusing component is small, most of the air flow is discharged through the air diffusing component, the absence of air at the lower side of the air conditioner can be achieved, the second state is particularly suitable for refrigerating air supply when a user is located at the bottom of the air conditioner, and.

In the technical scheme, in a third state, the air outlet is opened by the air dispersing component, the second air deflector rotates to a fifth angle, and at the moment, the operation mode of the air conditioner supplies air for the normal refrigeration mode. Specifically, the air outlet is located the front portion of casing, the subassembly that looses is used for closing or opening the anterior that the supply-air outlet is located the casing equally, form the air outlet between first aviation baffle and the casing, first aviation baffle is located the bottom of casing, the subassembly that looses opens the air outlet, rotate the air supply direction air outlet with the air conditioner to the fifth angle through the second aviation baffle, first aviation baffle rotates to sixth angle or first aviation baffle slides in order to open the air outlet, make the air outlet direction towards casing upper portion, the air supply of air conditioner of being convenient for realizes the inclined to upside air supply, realize that cold wind evenly subsides and blow directly, the third form is particularly useful for the refrigeration mode, user experience can be improved.

In the fourth state, the air outlet is opened by the air dispersing component, the second air deflector rotates to the seventh angle, the first air deflector rotates to the eighth angle or the first air deflector slides to open the air outlet, and at the moment, the operation mode of the air conditioner is the heating mode for supplying air. Specifically, the air outlet is located the front portion of casing, the subassembly that looses the wind is used for closing or opening the anterior that the supply-air outlet is located the casing equally, form the air outlet between first aviation baffle and the casing, first aviation baffle is located the bottom of casing, rotate to the seventh angle through the second aviation baffle and distribute the first aviation baffle direction with the air conditioner air supply, first aviation baffle rotates to eighth angle or first aviation baffle slides in order to open the air outlet, make the air outlet towards the downside of air conditioner, be convenient for the air supply of air conditioner realizes partial downside air supply, realize hot-blast pushing down, the fourth form is particularly useful for the mode of heating, user experience can be improved.

In the fifth form, the air diffusing component moves to close the air outlet, air is supplied and exhausted through the air diffusing component when the air conditioner works, no-wind-sense air supply can be achieved, the air diffusing component shields the air outlet when the air conditioner is closed, and the air diffusing component, the first air deflector and the shell have an integrated appearance, so that the product grade is improved.

In any of the above technical solutions, further, the housing has a receiving portion, and at least a part of the air diffusing assembly is received in the receiving portion.

In the technical scheme, the shell further comprises an accommodating part, at least one part of the air dispersing component is accommodated in the accommodating part, the accommodating part can fix and accommodate the air dispersing component, and the air dispersing component is prevented from being separated from the air conditioner due to the pushing action of air supply when the air supply of the air conditioner flows through the air dispersing component, so that the service life of the air conditioner is prolonged, the maintenance frequency is reduced, and the use experience of products is further improved.

In any one of the above technical solutions, further, the accommodating portion includes an accommodating groove, and the air diffusing assembly is slidably connected to the accommodating groove, wherein the air diffusing assembly slides relative to the accommodating groove to extend out of or be accommodated in the accommodating groove.

In this technical scheme, the portion of accommodating has further included the holding tank, and the subassembly that looses the wind is connected with holding tank sliding, and the subassembly that looses the wind can slide in order to stretch out the holding tank or accommodate in the holding tank for the holding tank. The holding tank simple structure, and easy manufacturing, be favorable to reduction in production cost, the wind subassembly and the holding tank sliding connection that disperse, when the wind subassembly that disperse is accomodate in the holding tank, the dispersion effect of the wind subassembly that disperse to the air supply has been reduced, make the air conditioner normally supply air, when the wind subassembly that disperse stretches out in the holding tank, make the wind subassembly that disperse can slide in the holding tank in order to realize accomodating of the wind subassembly that disperses, and can also be by holding tank roll-off and wind-guiding portion amalgamation cavity in order to realize the no wind and feel the air-out, it is more convenient to make the air.

In any of the above technical solutions, the housing further includes a face frame and a panel, the opening portion is formed on the face frame, and the panel and the face frame define a receiving portion; wherein, the accommodating part is positioned at the front part of the shell.

In the technical scheme, the shell further comprises a panel and an arrangement position of the accommodating part is further provided. The panel is convenient for forming the accommodating part, and the air conditioner is more beautiful; the accommodating part is positioned at the front part of the shell, so that the air dispersing component can be accommodated at the front side of the shell, when the air conditioner is started in the non-wind-sensing air outlet mode, the air dispersing component directly extends out of the accommodating part at the front side of the shell to form a cavity together with the first carrier, and the accommodating part is arranged at the front side of the shell, so that the increase of the height of the air conditioner is avoided.

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 perspective view of an air conditioner according to an embodiment of the present invention;

fig. 2 is a front view of an air outlet opening of an air dispersing unit of an air conditioner according to another embodiment of the present invention;

fig. 3 is a front view of an air outlet closed by an air dispersing unit of an air conditioner according to another embodiment of the present invention;

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

fig. 5 is a schematic view showing a partial explosion structure of an air conditioner according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of an air conditioner according to an embodiment of the present invention;

fig. 7 is a schematic structural view illustrating an air conditioner according to an embodiment of the present invention in a first mode;

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

fig. 9 is a schematic structural view illustrating an air conditioner according to an embodiment of the present invention in a third mode;

fig. 10 is a schematic structural view illustrating an air conditioner according to an embodiment of the present invention in a fourth mode;

fig. 11 is a schematic structural view showing an air conditioner according to another embodiment of the present invention;

fig. 12 is a schematic structural view illustrating a normal blowing mode operation of an air conditioner according to another embodiment of the present invention;

fig. 13 is a schematic structural view illustrating an air conditioner according to another embodiment of the present invention in a non-forced air supply mode;

fig. 14 shows a schematic structural view of the air diffusing assembly of an embodiment of the present invention;

fig. 15 shows a schematic diagram of a partial explosion structure of the air diffusing assembly according to an embodiment of the present invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 15 is:

100 casing, 200 first aviation baffle, 300 scattered wind subassembly, 400 second aviation baffle, 500 chassis, 600 air inlet grille, 700 heat exchanger, 102 opening, 104 air outlet, 106 side opening, 110 holding part, 112 holding tank, 114 face frame, 116 panel, 202 wind guide face, 302 scattered wind part, 304 first base portion, 306 second base portion, 308 connecting portion, 310 bracing piece, 3022 first flabellum, 3024 second flabellum, 3082 first connecting piece, 3084 second connecting piece, 3086 third connecting piece.

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 according to some embodiments of the present invention is described below with reference to fig. 1 to 15.

Example one

As shown in fig. 1 to 5, an embodiment of the present invention provides an air conditioner, including: the air-cooling device comprises a shell 100, a first air deflector 200 and an air-dispersing component 300.

Wherein, the housing 100 is provided with an opening 102; the first air guiding plate 200 is connected to the casing 100, and the first air guiding plate 200 and the opening 102 define an air outlet 104; the air dispersing member 300 is formed with an air dispersing member 302, the air dispersing member 302 is adapted to pass an air flow and to diffuse the air flow passing therethrough, the air dispersing member 300 is adapted to move relative to the housing 100, and the air dispersing member 300 opens or closes the air outlet 104 by the movement.

The utility model provides an air conditioner, air outlet 104 is injectd with casing 100 to first aviation baffle 200, air outlet 104 can be closed or opened to the subassembly 300 that looses, when the air conditioner is closed, the outward appearance that the subassembly 300 that looses can form the air conditioner with casing 100, avoid air outlet 104 to expose, in the course of the work, outside air gets into and can refrigerate or heat via the air outlet 104 direct discharge of injecing between first aviation baffle 200 and the casing 100 after the air conditioner carries out the heat transfer, also can carry out the diffusion mouth through air outlet 104 via the part 302 that looses to the air supply and discharge, different mode of operation is provided, the use degree of freedom is higher, user experience has been improved.

The utility model provides an air conditioner, as shown in fig. 4, wherein the arrow towards the air conditioner indicates the air inlet direction, keeps away from the arrow in air conditioner and indicates the air-out direction, through first aviation baffle 200 and the setting of the wind subassembly 300 that looses, when the air conditioner is not in operation, can close air outlet 104 through the wind subassembly 300 that looses, and the wind subassembly 300 that looses, first aviation baffle 200 and casing 100 have the integration outward appearance, can promote the product grade.

The utility model provides an air conditioner, move for casing 100 through the subassembly 300 that looses, and the subassembly 300 that looses can provide different mode through the setting that the air outlet 104 was opened or closed in the motion, as shown in fig. 3, under the condition that the subassembly 300 that looses closed air outlet 104, the air supply of air conditioner discharges through the subassembly 300 that looses that is located air outlet 104 department, the wind part 302 that looses of subassembly 300 that looses can spread the air current of flowing through, thereby realize the no wind and feel the air-out, it can be understood that wind changes original flow direction and can flow towards different directions behind the wind structure that looses, thereby realize the no wind and feel the air-out, even people can not feel too big air current directly towards the air outlet 104 of air conditioner, user experience has been improved; as shown in fig. 2, when the air outlet 104 is opened by the air dispersing component 300, the air supply of the air conditioner is discharged through the air outlet 104 defined by the first air deflector 200 and the opening 102 of the casing 100, the air supply of the air conditioner is normally supplied, and the air supply of the air conditioner is directly discharged, so that the cooling or heating effect of the air conditioner can be improved.

Example two

Wherein, the housing 100 is provided with an opening 102; the first air guiding plate 200 is connected to the casing 100, and the first air guiding plate 200 and the opening 102 define an air outlet 104; the air dispersing component 300 is provided with an air dispersing part 302, the air dispersing part 302 is suitable for air flow to pass through and is suitable for air flow to diffuse, the air dispersing component 300 is suitable for moving relative to the shell 100, the air dispersing component 300 opens or closes the air outlet 104 through movement, the opening part 102 is provided with a notch, and the first air deflector 200 is suitable for shielding a part of the notch and limits the air outlet 104 with the notch.

In this embodiment, the shape of the opening portion 102 of the housing 100 and the manner of forming the outlet 104 are further provided. The opening portion 102 is formed with a notch, the first air deflector 200 is adapted to shield a portion of the notch and define an air outlet 104 with the notch, and the air conditioner can perform a large amount of air supply through the notch, thereby improving a cooling or heating effect of the air conditioner.

EXAMPLE III

As shown in fig. 6 to 11, further, the first air guiding plate 200 is rotatably disposed, and the first air guiding plate 200 is adapted to rotate to change the air outlet direction of the air outlet 104.

In this embodiment, the first wind deflector 200 is rotatably disposed, and the wind outlet direction of the wind outlet 104 can be changed by the rotation of the first wind deflector 200. On one hand, the air supply direction of the air conditioner is convenient for a user to control, the air supply can be prevented from facing a human body to improve the comfort level, or the air supply can be enabled to face the human body to feel the cooling or heating effect of the air conditioner as soon as possible; on the other hand, the rotation of the first air deflector 200 can be combined with the opening or closing of the air diffusing assembly 300 to provide different working modes, which can further improve the user experience.

For example, the air outlet 104 is closed by the air dispersing component 300, and the first air deflector 200 rotates to change the direction of the air outlet 104, so that the direction of the air outlet 104 faces the bottom of the casing 100 to avoid the human body, and the air supplied by the air conditioner can be sent out through the air dispersing component 302 of the air dispersing component 300 and also sent out through the air outlet 104, so that the wind resistance of the air supplied by the air conditioner can be reduced under the condition that the air supplied by the air conditioner is not sensible by wind, and the cooling or heating effect of the air conditioner can be improved.

For another example, the air outlet 104 is opened by the air diffusing component 300, and the first air deflector 200 rotates to change the direction of the air outlet 104, so as to change the shape and size of the air outlet 104, and further change the flow rate of the supplied air under the condition of the same air volume. It can be understood that the smaller the outlet 104, the larger the flow rate of the air supply, and the larger the outlet 104, the smaller the flow rate of the air supply.

Example four

As shown in fig. 11 to 13, further, the first wind deflector 200 is slidably disposed, and the first wind deflector 200 is adapted to move between the slide-out casing 100 and the slide-in casing 100.

In this embodiment, the first air guiding plate 200 is slidably disposed to slide out of or into the housing 100, so as to adjust the shape of the air outlet 104. On one hand, the air supply direction of the air conditioner is convenient to control by a user; on the other hand, the sliding arrangement of the first air deflector 200 can be combined with the opening or closing of the air diffusing assembly 300 to provide different working modes, which can further improve the user experience.

For example, when the air outlet 104 is closed by the air dispersion assembly 300 and the first air deflector 200 slides to change the shape of the air outlet 104, as shown in fig. 13, an arrow toward the air conditioner indicates an air inlet direction and an arrow away from the air conditioner indicates an air outlet direction, and the air supplied by the air conditioner can be sent out through the air dispersion member 302 of the air dispersion assembly 300 and also through the air outlet 104, so that the air resistance of the air supplied by the air conditioner can be reduced and the cooling or heating effect of the air conditioner can be improved when the air supplied by the air conditioner is not sensible.

EXAMPLE five

As shown in fig. 1 and 4, on the basis of any of the above embodiments, an embodiment of the present invention provides an air conditioner, wherein the casing 100 is respectively formed with side openings 106 at two ends along the length direction of the splicing line of the first wind deflector 200 and the wind dispersing assembly 300, and the side openings 106 are communicated with the cavity.

In this embodiment, the cavity is formed with the side opening 106 that is used for exhausting air, and the air current is blown out by the side and is avoided the front air-out directly to blow people, has realized the non-wind sense air-out to still reduced whole air-out resistance, further promoted the homogeneity of room temperature, promoted the use of product and experienced.

Specifically, the airflow can flow out from the air outlet portion of the first air deflector 200, the air dispersing member 302, and the side openings 106 on both sides of the casing 100, so as to form at least four air outlet positions, and while ensuring the air outlet amount, the impact of the airflow is weakened, that is, 4D no-wind-feeling air outlet is formed.

EXAMPLE six

As shown in fig. 1 and 4, on the basis of the above embodiments, an embodiment of the present invention provides an air conditioner, wherein side openings 106 are respectively formed at two ends of the casing 100 along the length direction of the splicing line of the first wind deflector 200 and the wind dispersing assembly 300, and the side openings 106 are communicated with the cavity.

EXAMPLE seven

As shown in fig. 4, on the basis of any of the above embodiments, an embodiment of the present invention provides an air conditioner, wherein an air outlet portion is disposed on the first air guiding plate 200.

In this embodiment, be provided with air-out portion on first aviation baffle 200, the air supply of air conditioner can be seen off via air-out portion, avoids positive air-out directly to blow the people, has realized the non-wind sense air-out to still reduced whole air-out resistance, further promoted the homogeneity of room temperature, promoted the use experience of product.

Specifically, the first air deflector 200 may be disposed at a lower portion of the casing 100, and the air dispersing assembly 300 is located at a front side of the casing 100. When the air outlet 104 is closed by the air diffusing component 300, the air supplied by the air conditioner can be discharged to the lower part of the air conditioner through the first air deflector 200 and cannot be directly blown to a human body, and the air supplied can be diffused and then discharged through the air diffusing component 300, so that the air supply without wind sensation can be realized; when the air outlet 104 is opened by the air dispersing component 300, the air supplied by the air conditioner can be discharged to the lower part of the air conditioner through the first air deflector 200, or can be directly discharged through the air outlet 104, so that the cooling and heating effects can be improved, it can be understood that when the air outlet 104 is opened by the air dispersing component 300, the air outlet 104 is in an unshielded state, the air supplied by the air conditioner is preferentially discharged through the air outlet 104, and the air outlet part on the first guide plate plays a role in reducing the wind resistance.

Further, the air outlet part comprises a through hole; or the air outlet part comprises an air outlet grid; or the air outlet part comprises an air dispersing rotary vane which is suitable for air flow to pass through and is suitable for the air flow passing through to diffuse.

In this embodiment, a specific style of the air outlet portion is further provided, and the air outlet portion may include at least one of a through hole, an air outlet grille, and a fan blade. The air supply of the air conditioner can be directly discharged through the through holes by arranging the through holes, so that the air resistance of the air supply is reduced, and the refrigerating or heating effect of the air conditioner can be improved; through the arrangement of the air outlet grille, the direction of the air supply is convenient to adjust when the air supply of the air conditioner is discharged through the air outlet part; through the arrangement of the air-dispersing rotary vanes, air flow can be diffused and flow when air supplied by the air conditioner is discharged from the air outlet part, so that the air supply direction of the air conditioner can be changed, and non-wind-sense air supply is realized.

Example eight

As shown in fig. 6 to 13, on the basis of any one of the above embodiments, an embodiment of the present invention provides an air conditioner, in which the first air guiding plate 200 has an air guiding surface 202; wherein, the wind guide surface 202 at least partially defines a cambered surface, or the wind guide surface 202 at least partially defines a plane.

In this embodiment, a specific structure of the first wind deflector 200 is further provided, and at least a portion of the wind guiding surface 202 is defined as a concave arc surface, so that the air supply of the air conditioner can be guided through the concave arc surface. On one hand, the air supply of the air conditioner can be prevented from directly impacting the first air deflector 200, so that the air supply flow velocity is attenuated, the air supply quantity of the air conditioner can be ensured, and the refrigerating or heating efficiency of the air conditioner can be improved; on the other hand, the direction of air supply of the air conditioner can be changed through the arrangement of the concave cambered surface, so that the air supply of the air conditioner can be conveniently carried out in the expected direction. For example, when the air conditioner is a hanging air conditioner, the air supply of the air conditioner and the wall body hung with the air conditioner form a certain angle through the arrangement of the concave arc surface, so that the user is more comfortable while the air supply efficiency is improved, and the user experience is improved.

Specifically, the air guiding surface 202 of the first air guiding plate 200 is a concave arc surface, that is, the first air guiding plate 200 is concave towards the bottom of the air conditioner, so that the air can be guided to the upper side of the air conditioner, and the front side of the air flowing out of the air outlet is prevented from blowing people.

Example nine

As shown in fig. 14 and 15, an embodiment of the present invention provides an air conditioner based on any of the above embodiments, wherein the air diffusing member 302 includes: a first blade 3022, the first blade 3022 having a first blade; the second blade 3024, the second blade 3024 has a second blade, the second blade 3024 is disposed along the axial direction with the first blade 3022, the second blade 3024 is adapted to rotate, and the second blade 3024 is adapted to rotate to a first position and a second position, wherein when the second blade 3024 is in the first position, the second blade is staggered from the first blade along the axial direction of the air dispersing component 302, and when the second blade 3024 is in the second position, the second blade is at least partially overlapped with the first blade along the axial direction of the air dispersing component 302.

In this embodiment, a structure of the air diffusing member 302 is further provided, the air diffusing member 302 includes a first blade 3022 and a second blade 3024, the second blade 3024 can rotate to axially stagger or axially partially overlap with the first blade 3022, so that the air diffusing member 302 can form different air outlet modes and provide different degrees of air diffusing effects.

Specifically, when the second blade 3024 and the first blade 3022 are axially staggered, a gap between the second blade on the second blade 3024 and the first blade on the first blade 3022 is small, and the difficulty of discharging the air supplied by the air conditioner through the air diffusing assembly 300 is large, so that most of the air flow is discharged through the first air guiding plate 200, or through the gap between the first air guiding plate 200 and the casing 100; when the axial portions of the second blade 3024 and the first blade 3022 overlap, a gap between the second blade on the second blade 3024 and the first blade on the first blade 3022 is large, resistance to airflow outflow is small, and air supplied by the air conditioner can be discharged through the air diffusing member 302, and airflow diffusion flow is performed through the first blade and the second blade, so that non-wind-sensation air supply is realized. Furthermore, different air dispersing effects can be provided by different overlapping areas of the first fan blade 3022 and the second fan blade 3024.

As shown in fig. 14 and 15, the air diffusing member may be clamped and fixed by the first base portion 304 and the second base portion 306, the air diffusing member may be supported by the support rod 310, and the first base portion 304 and the second base portion 306 may be connected by the connection portion 308, so that the structure of the air diffusing assembly 300 may be more stable, and the service life may be prolonged.

Further, the connecting portion 308 includes a first connecting member 3082, a second connecting member 3084 and a third connecting member 3086, the second connecting member 3084 is used for connecting the first connection and the second connection, one of the first connecting member 3082 and the second connection is disposed on the first base portion 304, and the other one is disposed on the second base portion 306.

Example ten

As shown in fig. 6 to 13, on the basis of the above embodiments, an embodiment of the present invention provides an air conditioner, further including: the second air guiding plate 400 is disposed at the air outlet 104, and the second air guiding plate 400 is adapted to rotate to adjust an air volume flowing from the air outlet 104 to the first air guiding plate 200 and the air diffusing assembly 300.

In this embodiment, the air volume of the first air deflector 200 and the air diffusing assembly 300 is adjusted by rotating the second air deflector 400, so that the user can reasonably distribute the air supply direction and the air volume based on the own requirement, the user freedom degree is higher, and the user experience is improved.

In this embodiment, different operation modes can be provided by the arrangement of the first wind deflector 200, the second wind deflector 400 and the wind dispersing assembly 300. For example, when the user has a high requirement for cooling or heating, the air conditioner may be controlled to operate in a normal air supply mode, the air diffusing assembly 300 is controlled to open the air outlet 104, the second air deflector 400 is controlled to rotate, and the air supply volume of the air conditioner is distributed toward the air supply outlet, so that the air supply is delivered through the air outlet 104; when the requirement of a user on the air supply comfort level is high, the air conditioner can be controlled to work in a non-air-sense mode, the air outlet 104 is controlled to be closed by the air dispersion component 300, the second air deflector 400 is controlled to rotate, the air quantity is distributed to the direction of the air dispersion component 300, and the air supply is enabled to be supplied through the air dispersion component 300; the air outlet 104 can also be controlled to be closed by the air diffusing component 300, the second air deflector 400 is controlled to rotate, the air quantity is distributed to the first air deflector 200 and the air diffusing component 300, the air supply is discharged through the first air deflector 200 and the air diffusing component 300 at the same time, the air supply quantity is divided, the air supply quantity can be reduced or prevented from directly facing a user on the premise that the total air supply quantity is not reduced, and the refrigerating or heating effect of the air conditioner can be ensured under the state without wind sensation.

As shown in fig. 6 to 13, further, the air conditioner further includes: the air conditioner has a first shape, when the air conditioner is in the first shape, the air dispersing component 300 closes the air outlet 104, the second air deflector 400 rotates to a first angle, the second fan blade 3024 is in a first position, the first air deflector 200 rotates to a second angle or the first air deflector 200 slides to be matched with the air dispersing component 300 in a lap joint way; and/or the air conditioner has a second shape, when the air conditioner is in the second shape, the air dispersing component 300 moves to close the air outlet 104, the second air deflector 400 rotates to a third angle, the second fan blade 3024 is in a second position, the first air deflector 200 rotates to a fourth angle or the first air deflector 200 slides to be matched with the air dispersing component 300 in a lap joint way; and/or the air conditioner has a third shape, when the air conditioner is in the third shape, the air dispersing component 300 moves to open the air outlet 104, the second air deflector 400 rotates to a fifth angle, the first air deflector 200 rotates to a sixth angle or the first air deflector 200 slides to open the air outlet 104; and/or the air conditioner has a fourth configuration, when the air conditioner is in the fourth configuration, the air dispersing component 300 moves to open the air outlet 104, the second air deflector 400 rotates to a seventh angle, the first air deflector 200 rotates to an eighth angle or the first air deflector 200 slides to open the air outlet 104; and/or the air conditioner has a fifth configuration, in which the air dispersing assembly 300 moves to close the air outlet 104.

In the embodiment, the air conditioner has multiple forms, the user freedom degree is higher, and the user experience is convenient to improve.

As shown in fig. 7, in the first embodiment, in the first mode, the air diffusing assembly 300 closes the air outlet 104, the first air guiding plate 200 is in abutting engagement with the air diffusing assembly 300, and the second blade 3024 is in the first position, and the operation mode of the air conditioner is no-wind-induced air supply from the air diffusing assembly 300 side, that is, the air flow flows out from the first air guiding plate 200 side and is diffused. Specifically, the air outlet 104 is located at the front of the casing 100, the air diffusing assembly 300 is used to close or open the air supply outlet and is also located at the front of the casing 100, the air outlet 104 is formed between the first air deflector 200 and the casing 100, the first air deflector 200 is located at the bottom of the casing 100, the air supply of the air conditioner is distributed to the first air deflector 200 by rotating the second air deflector 400 to a first angle, the second fan 3024 is located at a first position, so that the gap between the second blade on the second fan 3024 and the first blade on the first fan 3022 is smaller, the difficulty of air supply exhausted through the air diffusing assembly 300 is larger, meanwhile, the first air deflector 200 rotates to a second angle or the first air deflector 200 slides to be matched with the air diffusing assembly 300, the gap between the first air deflector 200 and the air diffusing assembly 300 is also smaller, so that most of the air flow is exhausted through the first air deflector 200, and no air flow at the front side of the air conditioner can be realized, the first mode is particularly suitable for refrigerating and air supplying when the user is at the front end of the air conditioner, and user experience can be improved.

As shown in fig. 7, wherein an arrow toward the air conditioner indicates an air inlet direction, an arrow away from the air conditioner indicates an air outlet direction, the second air guiding plate 400 rotates to a first angle, an included angle between the second air guiding plate 400 and the extension line of the air diffusing assembly 300 toward the housing portion on the casing 100 is an acute angle, and an air guiding surface of the second air guiding plate 400 faces the first air guiding plate 200 side; when the first air deflector 200 rotates to the second angle or the first air deflector 200 slides to be matched with the air dispersion assembly 300 in a lap joint manner, one end of the first air deflector 200 is abutted to the air dispersion assembly 300, so that a gap between the first air deflector 200 and the air guide assembly is small, and a gap is formed between the other end of the first air deflector 200 and the shell 100, so that air supply can be conveniently discharged through the lower side of the air conditioner.

In this embodiment, in the second state, the air diffusing assembly 300 closes the air outlet 104, the first air deflector 200 is in lap fit with the air diffusing assembly 300, and the second blade 3024 is in the second position, at this time, the operation mode of the air conditioner is no wind induction blowing on the first air deflector 200 side, that is, the airflow flows out from the air diffusing assembly 300 side and is diffused. Specifically, the air outlet 104 is located at the front portion of the casing 100, the air diffusing assembly 300 is also located at the front portion of the casing 100 for closing or opening the air supply outlet, the air outlet 104 is formed between the first air deflector 200 and the casing 100, the first air deflector 200 is located at the bottom of the casing 100, the air supply of the air conditioner is distributed to the air diffusing assembly 300 by rotating the second air deflector 400 to the third angle, the second fan blade 3024 is located at the second position, a gap between the second blade on the second fan blade 3024 and the first blade on the first fan blade 3022 is large, resistance of the air flow flowing out through the air diffusing assembly 300 is small, most of the air flow is discharged by the air diffusing assembly 300, and accordingly, no air at the lower side of the air conditioner can be achieved, the second configuration is particularly suitable for cooling and supplying air when a user is located at the bottom of the air conditioner, and user experience can be.

As shown in fig. 8, wherein an arrow toward the air conditioner indicates an air inlet direction, an arrow away from the air conditioner indicates an air outlet direction, the second air guiding plate 400 rotates to a third angle, an included angle between the second air guiding plate 400 and the extension line of the air dispersion assembly 300 toward the housing portion on the housing 100 is an obtuse angle or a right angle, and an air guiding surface of the second air guiding plate 400 faces the air dispersion assembly 300 side; the first air deflector 200 rotates to a fourth angle or the first air deflector 200 slides to be matched with the air dispersion assembly 300 in a lap joint mode, one end of the first air deflector 200 is abutted to the air dispersion assembly 300, and air supply is convenient to discharge from the front side of the air conditioner.

In this embodiment, in the third configuration, the air diffusing assembly 300 opens the air outlet 104, and the second air guiding plate 400 rotates to the fifth angle, so that the operation mode of the air conditioner is the normal cooling mode. Specifically, the air outlet 104 is located in the front of the casing 100, the air diffusing assembly 300 is used for closing or opening the air supply outlet and is also located in the front of the casing 100, the air outlet 104 is formed between the first air deflector 200 and the casing 100, the first air deflector 200 is located at the bottom of the casing 100, the air diffusing assembly 300 opens the air outlet 104, the air supply of the air conditioner is guided to the air outlet 104 by rotating the second air deflector 400 to the fifth angle, the first air deflector 200 rotates to the sixth angle or the first air deflector 200 slides to open the air outlet 104, so that the air outlet 104 faces the upper part of the casing 100, the air supply of the air conditioner is biased to the upper side, the uniform settlement and non-direct blowing of cold air is realized, the third form is particularly suitable for a refrigeration mode, and the user experience can be improved.

As shown in fig. 9, wherein an arrow toward the air conditioner indicates an air inlet direction, an arrow away from the air conditioner indicates an air outlet direction, the second air guiding plate 400 rotates to a fifth angle, an included angle between the second air guiding plate 400 and the extension line of the air dispersion assembly 300 toward the housing portion on the housing 100 is an obtuse angle or a right angle, and an air guiding surface of the second air guiding plate 400 faces the air dispersion assembly 300 side; the first air guiding plate 200 rotates to a sixth angle or the first air guiding plate 200 slides to open the air outlet 104, so that air can be conveniently blown through the air outlet 104 on the front side of the air conditioner.

In the fourth mode, the air dispersing component 300 opens the air outlet 104, the second air guiding plate 400 rotates to the seventh angle, the first air guiding plate 200 rotates to the eighth angle or the first air guiding plate 200 slides to open the air outlet 104, and at this time, the operation mode of the air conditioner is a heating mode for supplying air. Specifically, the air outlet 104 is located in the front of the casing 100, the air diffusing assembly 300 is configured to close or open the air supply outlet and is also located in the front of the casing 100, the air outlet 104 is formed between the first air deflector 200 and the casing 100, the first air deflector 200 is located at the bottom of the casing 100, the air supply of the air conditioner is distributed in the direction of the first air deflector 200 by rotating the second air deflector 400 to the seventh angle, the first air deflector 200 rotates to the eighth angle or the first air deflector 200 slides to open the air outlet 104, so that the air outlet 104 faces the lower side of the air conditioner, the air supply of the air conditioner is biased to the lower side to supply air, the hot air is pressed downwards, the fourth mode is particularly suitable for a heating mode, and user experience can be improved.

As shown in fig. 10 and 13, wherein an arrow toward the air conditioner indicates an air inlet direction, an arrow away from the air conditioner indicates an air outlet direction, the second air guiding plate 400 rotates to a seventh angle, an included angle between the second air guiding plate 400 and the extension line of the air dispersing assembly 300 toward the housing portion on the casing 100 is an acute angle, and an air guiding surface of the second air guiding plate 400 faces the first air guiding plate 200 side; the first air guiding plate 200 rotates to the eighth angle or the first air guiding plate 200 slides to open the air outlet 104, so that the air is conveniently supplied to the lower side of the air conditioner through the air outlet 104 of the air conditioner.

As shown in fig. 6 and 11, in the fifth mode, the air diffusing member 300 moves to close the air outlet 104, and when the air conditioner is operated, the air is discharged through the air diffusing member 300, so that the air supply without wind sensation can be realized, and when the air conditioner is closed, the air diffusing member 300 shields the air outlet 104, and the air diffusing member 300, the first air deflector 200 and the casing 100 have an integrated appearance, so that the product grade is improved.

EXAMPLE eleven

As shown in fig. 6 to 13, in addition to any of the above embodiments, an embodiment of the present invention provides an air conditioner, in which a housing 100 has a receiving portion 110, and at least a part of an air diffusing member 300 is received in the receiving portion.

In this embodiment, the housing 100 further includes an accommodating portion 110, at least a portion of the air diffusing assembly 300 is accommodated in the accommodating portion 110, and the accommodating portion 110 can fix and accommodate the air diffusing assembly 300, so as to prevent the air diffusing assembly 300 from being separated from the air conditioner due to the pushing action of the air supply when the air supply of the air conditioner flows through the air diffusing assembly 300, thereby improving the service life of the air conditioner, reducing the maintenance frequency, and further improving the use experience of the product.

As shown in fig. 6 to 13, the accommodating portion 110 further includes an accommodating groove 112, and the air diffusing member 300 is slidably connected to the accommodating groove 112, wherein the air diffusing member 300 slides relative to the accommodating groove 112 to extend out of the accommodating groove 112 or be accommodated in the accommodating groove 112.

In this embodiment, the receiving portion 110 further includes a receiving groove 112, the air diffusing member 300 is slidably connected to the receiving groove 112, and the air diffusing member 300 can slide relative to the receiving groove 112 to extend out of the receiving groove 112 or be received in the receiving groove 112. Holding tank 112 simple structure, and easy manufacturing, be favorable to reduction in production cost, wind subassembly 300 and holding tank 112 sliding connection loose, when wind subassembly 300 that looses is accomodate in holding tank 112, the dispersion effect of wind subassembly 300 to the air supply that looses has been reduced, make air conditioner normally supply air, when wind subassembly 300 that looses stretches out in holding tank 112, make wind subassembly 300 that looses can slide into holding tank 112 in order to realize accomodating of wind subassembly 300 that looses, and can also become the cavity in order to realize the no wind sense air-out by holding tank 112 roll-off and wind-guiding portion amalgamation, make air conditioner use more convenient.

As shown in fig. 6 to 13, further, the housing 100 further includes a face frame 114 and a panel 116, the opening portion 102 is formed on the face frame 114, and the panel 116 and the face frame 114 define the receiving portion 110; the receiving portion 110 is located at the front of the housing 100.

In this embodiment, the housing 100 further includes a panel 116, which further provides a location for the receptacle 110. The panel 116 is convenient for forming the containing part 110, and the air conditioner is more beautiful; the accommodating part 110 is located at the front part of the casing 100, so that the air diffusing assembly 300 can be accommodated at the front side of the casing 100, when the air conditioner is started in the no-wind-sensing air outlet mode, the air diffusing assembly 300 directly extends out of the accommodating part 110 at the front side of the casing 100 to be spliced with the first carrier to form a cavity, and the accommodating part 110 is arranged at the front side of the casing 100, so that the increase of the height of the air conditioner is avoided.

Example twelve

An embodiment of the utility model provides a control method of air conditioner for the air conditioner of any above-mentioned embodiment, include: and receiving a control instruction, and controlling the air diffusing assembly to move according to the control instruction so as to open or close the air outlet.

The utility model provides a control method of air conditioner, through receiving the control command, further according to the motion of the scattered wind subassembly of control command control in order to open or close the air outlet, when the air conditioner was closed, the scattered wind subassembly that can control the air conditioner closed the air outlet, make scattered wind subassembly and air conditioner form the integral type outward appearance, simultaneously, when the air conditioner was opened, under the state that scattered wind subassembly closed the air outlet, also can realize the non-wind mode air supply or control the scattered wind subassembly of air conditioner and open the air outlet through scattered wind subassembly, the air conditioner air supply directly sees off through the air outlet, can improve the air conditioner refrigeration or heat the effect; meanwhile, when the air conditioner does not work, the air outlet can be closed by controlling the air dispersion assembly through the control instruction, so that the air dispersion assembly, the first air deflector and the shell have an integrated appearance, and the product grade can be improved.

Specifically, the control instruction may include various instructions, such as a shutdown instruction and a startup instruction, the startup instruction may further include a heating instruction and a cooling instruction, the cooling instruction further includes a normal air supply instruction and a no-wind-sensation air supply instruction, and the no-wind-sensation air supply instruction further includes a front-side no-wind-sensation air supply instruction and a lower-side no-wind-sensation air supply instruction. The air supply system comprises a shutdown instruction, an air supply instruction, an air outlet and an air supply instruction, wherein the shutdown instruction and the air supply instruction without wind sensation are used for controlling an air dispersion assembly to move to close the air outlet; the normal air supply instruction and the heating instruction are used for controlling the air dispersing component to move to open the air outlet.

EXAMPLE thirteen

An embodiment of the utility model provides a control method of air conditioner, include: and receiving a first instruction, and controlling the air dispersing assembly to close the air outlet according to the first instruction.

In the embodiment, a first instruction is received, and the air diffusing assembly is controlled to close the air outlet according to the first instruction. Specifically, the first instruction may be a front-side no-wind-feeling air supply instruction for controlling the wind diffusing assembly to close the air outlet to realize no wind feeling at the wind diffusing assembly side of the air conditioner.

Example fourteen

An embodiment of the utility model provides a control method of air conditioner, include: receiving a first instruction, and controlling the air diffusing assembly to close the air outlet according to the first instruction; and controlling a second air deflector of the air conditioner to rotate to a first angle, controlling a first air deflector to rotate to a second angle, and controlling a second fan blade of the air conditioner to be positioned at a first position.

Example fifteen

An embodiment of the utility model provides a control method of air conditioner for the air conditioner of any above-mentioned embodiment, include: receiving a first instruction, and controlling the air diffusing assembly to close the air outlet according to the first instruction; and controlling a second air deflector of the air conditioner to rotate to a first angle, controlling the first air deflector to slide so as to be matched with the air dispersing component in a butting mode, and controlling the second fan blade to be located at a first position.

In this embodiment, a step after the step of receiving the first instruction and controlling the air diffusing assembly to close the air outlet according to the first instruction is further provided, by which the air supply of the air conditioner can be preferentially guided downwards to realize front-side non-wind-feeling air supply, specifically, the air outlet is located at the front part of the casing, the air diffusing assembly is used for closing or opening the air supply outlet and is also located at the front part of the casing, the air outlet is formed between the first air deflector and the casing, the first air deflector is located at the bottom of the casing, the air supply of the air conditioner is distributed to the first air deflector through the rotation of the second air deflector to a first angle, the second fan is located at a first position, so that a gap between the second fan blade on the second fan blade and the first fan blade on the first fan blade is small, the difficulty of the air supply being discharged through the air diffusing assembly is large, and the rotation of the first air deflector to a second angle or the sliding of the first air deflector is matched, gaps between the first air deflector and the air dispersing assembly are small, so that most air flow is discharged through the first air deflector, the front side of the air conditioner is free of air, and user experience can be improved.

Example sixteen

An embodiment of the utility model provides a control method of air conditioner for the air conditioner of any above-mentioned embodiment, include: and receiving a second instruction, and controlling the air dispersion assembly to move according to the second instruction so as to close the air outlet.

In this embodiment, the second instruction is received, and the air outlet is closed by controlling the air diffusing assembly according to the second instruction. Specifically, the second instruction may be a lower non-wind-sensing air supply instruction, which is used to control the air diffusing assembly to close the air outlet to achieve non-wind-sensing of the first air guiding plate side of the air conditioner.

Example seventeen

An embodiment of the utility model provides a control method of air conditioner for the air conditioner of any above-mentioned embodiment, include: receiving a second instruction, and controlling the air dispersion assembly to move according to the second instruction so as to close the air outlet; and controlling the second air deflector of the air conditioner to rotate to a third angle, controlling the first air deflector to rotate to a fourth angle, and controlling the second fan blade of the air conditioner to be positioned at a second position.

EXAMPLE eighteen

An embodiment of the utility model provides a control method of air conditioner for the air conditioner of any above-mentioned embodiment, include: receiving a second instruction, and controlling the air dispersion assembly to move according to the second instruction so as to close the air outlet; and controlling the second air deflector of the air conditioner to rotate to a third angle, controlling the first air deflector to slide so as to be matched with the air dispersing component in a butting mode, and controlling the second fan blade to be located at a second position.

In this embodiment, a step of receiving a second instruction and controlling the air diffusing component to move according to the second instruction to close the air outlet is further provided, through this embodiment, the air supply of the air conditioner can be guided forward preferentially, and the air supply without wind sensation at the lower side can be realized, specifically, the air outlet is located at the front part of the casing, the air diffusing component is used for closing or opening the air supply outlet and also located at the front part of the casing, the air outlet is formed between the first air deflector and the casing, the first air deflector is located at the bottom of the casing, the air supply of the air conditioner is distributed to the air diffusing component by rotating the second air deflector to a third angle, and the second fan is located at the second position, so that the gap between the second fan blade on the second fan blade and the first fan blade on the first fan blade is large, the resistance of the air outflow is small, so that most of the air flow is discharged by the air diffusing component, and the air absence at the lower side of the air conditioner can be realized, user experience can be improved.

Example nineteen

An embodiment of the utility model provides a control method of air conditioner for the air conditioner of any above-mentioned embodiment, include: receiving a control instruction, and controlling the air diffusing assembly to move according to the control instruction so as to open or close the air outlet; the second fan blade is controlled to switch between the first position and the second position.

The second fan blade is positioned at the first position and is kept for a first time period, and the second fan blade is positioned at the second position and is kept for a second time period.

In this embodiment, the second fan blade is switched between the first position and the second position, and further the second fan blade is kept for a first duration when being located at the first position, and the second fan blade is kept for a second duration when being located at the second position, so that the size of the gap between the second blade on the second fan blade and the second blade on the first fan blade is changed alternately, and the air supply flowing through the air dispersing component can be cut, and further the air supply of the air conditioner is diffused, thereby realizing the non-wind-sensation air supply, and further improving the user experience.

Example twenty

An embodiment of the utility model provides a control method of air conditioner for the air conditioner of any above-mentioned embodiment, include: and receiving a third instruction, and controlling the air dispersion assembly to move according to the third instruction so as to open the air outlet.

In the embodiment, a third instruction is received, and the air diffusing assembly is controlled to move according to the third instruction so as to open the air outlet. Specifically, the third instruction may be a normal air supply instruction in the refrigeration instruction, and is used to control the air diffusing assembly to open the air outlet to realize normal refrigeration and air supply of the air conditioner.

Example twenty one

An embodiment of the utility model provides a control method of air conditioner for the air conditioner of any above-mentioned embodiment, include: receiving a third instruction, and controlling the air dispersion assembly to move according to the third instruction so as to open the air outlet; and controlling the second air deflector of the air conditioner to rotate to a fifth angle, and controlling the first air deflector to rotate to a sixth angle.

Example twenty two

An embodiment of the utility model provides a control method of air conditioner for the air conditioner of any above-mentioned embodiment, include: receiving a third instruction, and controlling the air dispersion assembly to move according to the third instruction so as to open the air outlet; and controlling the second air deflector of the air conditioner to rotate to a fifth angle, and controlling the first air deflector to slide so as to open the air outlet.

In this embodiment, a step of receiving a third instruction and controlling the air diffusing assembly to move according to the third instruction to open the air outlet is further provided, normal cooling air supply of the air conditioner can be realized through the embodiment, specifically, the air outlet is located in the front of the housing, the air diffusing assembly is used for closing or opening the air supply outlet and also located in the front of the housing, an air outlet is formed between the first air deflector and the housing, the first air deflector is located at the bottom of the housing, the air supply of the air conditioner is guided to the air outlet through the rotation of the second air deflector to the fifth angle, the first air deflector rotates to the sixth angle or slides to open the air outlet, the air outlet direction faces the upper portion of the housing, the air supply of the air conditioner is facilitated to realize inclined air supply, the uniform settlement of cold air and non-direct blowing are realized, the air conditioner is particularly suitable for a cooling mode.

Example twenty three

An embodiment of the utility model provides a control method of air conditioner for the air conditioner of any preceding embodiment, including receiving the fourth instruction, according to the motion of fourth instruction control air dispersion subassembly in order to open the air outlet.

In the embodiment, a fourth instruction is received, and the air diffusing component is controlled to move according to the fourth instruction so as to open the air outlet. Specifically, the fourth instruction may be a heating instruction, which is used to control the air dissipation assembly to open the air outlet to heat the air conditioner.

Example twenty-four

An embodiment of the utility model provides a control method of air conditioner for the air conditioner of any above-mentioned embodiment, include: receiving a fourth instruction, and controlling the air dispersion assembly to move according to the fourth instruction so as to open the air outlet; and controlling the second air deflector of the air conditioner to rotate to a seventh angle, and controlling the first air deflector to rotate to an eighth angle.

Example twenty-five

An embodiment of the utility model provides a control method of air conditioner for the air conditioner of any above-mentioned embodiment, include: receiving a fourth instruction, and controlling the air dispersion assembly to move according to the fourth instruction so as to open the air outlet; and controlling the second air deflector of the air conditioner to rotate to a seventh angle, and controlling the first air deflector to slide to open the air outlet.

In this embodiment, a step after receiving a fourth instruction and controlling the air dispersing component to move according to the fourth instruction to open the air outlet is further provided, and heating of the air conditioner can be realized through this embodiment. Specifically, the air outlet is located the front portion of casing, the subassembly that looses the wind is used for closing or opening the anterior that the supply-air outlet is located the casing equally, form the air outlet between first aviation baffle and the casing, first aviation baffle is located the bottom of casing, rotate to the seventh angle through the second aviation baffle and distribute the first aviation baffle direction with the air conditioner air supply, first aviation baffle rotates to eighth angle or first aviation baffle slides in order to open the air outlet, make the air outlet towards the downside of air conditioner, be convenient for the air supply of air conditioner realizes partial downside air supply, realize hot-blast pushing down, the specially adapted mode of heating, user experience can be improved.

Example twenty-six

An embodiment of the utility model provides a control method of air conditioner for the air conditioner of any above-mentioned embodiment, include: and receiving a shutdown instruction, and controlling the air dispersing assembly to move according to the shutdown instruction so as to close the air outlet.

In this embodiment, the control instruction further includes a shutdown instruction, and when the shutdown instruction is received, the air diffusing component is controlled to move according to the shutdown instruction to close the air outlet, and at this time, the air diffusing component, the first air deflector and the shell have an integrated appearance, so that the product grade is improved.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

In this embodiment, the air conditioner has a housing 100, a bottom plate 500, a wind dispersing assembly 300, and a wind inlet grille 600, wherein the back of the air conditioner housing 100 is provided with a wind inlet, the wind inlet grille 600 is arranged at the wind inlet, and the wind inlet is provided with a sufficient wind inlet area.

In the air conditioner of this embodiment, the external air enters the casing 100 to exchange heat with the heat exchanger 700 and then is discharged through the air inlet.

Further, an air outlet 104 is formed in the front of the face frame 114 of the housing 100, the air outlet 104 penetrates through the bottom of the air outlet frame, side openings 106 are formed in end covers of the left and right sides of the face frame 114, an air diffusing assembly 300 capable of moving up and down is arranged in front of the face frame 114 to open and close the air outlet 104, and the air diffusing assembly 300 closes the air outlet 104 and has an air diffusing function in the no-wind mode.

Further, the housing 100 further includes a panel 116, and the panel 116 is located at the front of the face frame 114 and above the air outlet 104. The face frame 114 and the face plate 116 define a receptacle 110 therebetween adapted to receive at least a portion of the air dispersion assembly 300.

Further, the air conditioner includes a rotatable first air deflector 200, the air diffusing assembly 300 forms a part of the appearance of the product in the shutdown state, and more specifically, the second air deflector 400 is disposed inside the air outlet 104, the rotatable first air deflector 200 is added to the bottom side of the air outlet 104, and the first air deflector 200 may be planar or arc. The first air guiding plate 200 and the air diffusing assembly 300 may be overlapped to form a non-wind-sensing mode in the non-wind-sensing air outlet mode, and the second air guiding plate 400 may be configured to have one or more of a through hole, an air outlet grille and an air diffusing rotary vane.

Further, the first air deflector 200 capable of sliding is included, the air diffusing component 300 forms a part of the product appearance in the shutdown state, more specifically, the second air deflector 400 is disposed inside the air outlet 104, the first air deflector 200 capable of extending or contracting along the air outlet direction is added at the bottom side of the air outlet 104, the first air deflector 200 in the non-wind sensing air outlet mode and the air diffusing component 300 can be overlapped to form the non-wind sensing mode, and the second air deflector 400 can be disposed to have one or more of a through hole, an air outlet grille and a wind diffusing rotary vane.

Furthermore, the air inlet of the air conditioner is arranged on the back and the top, the air outlet 104 is arranged on the bottom, and the non-wind-sensing component is integrated with the appearance of the whole air conditioner.

Further, when the air diffusing assembly 300 is in a working state, a cavity is formed among the air outlet 104, the air diffusing assembly 300, the housing 100 and the first air guiding plate 200. This cavity side, openly, the bottom all has the wind gap air-out, realizes under the no wind sense mode, realizes weakening wind promptly, has the air-out of realization different angles, avoids cold wind to blow the people, solves the air conditioner at weak wind sense, the not enough problem of cold volume under the no wind sense. When the air dispersing component 300 does not work, the operation of the cooling and heating modes of the conventional air conditioner is not influenced.

Further, in the air conditioner heating mode: the second air deflector 400 is rotated to the heating position, and the first air deflector 200 is also rotated or slid to the position advantageous for heating toward the bottom side of the casing 100; in the air conditioner cooling mode: the second air guide plate 400 rotates to the refrigerating position, and the first air guide plate 200 rotates to the position which is flush with the extension line of the air duct towards the front side, so that refrigeration is facilitated.

In the embodiment, an air conditioner control method is further provided.

The method for controlling the air conditioner to work in the first mode comprises the following steps: the controller drives the motor to rotate to drive the second air deflector to rotate to a first angle around the shaft, and air supply deflected to the bottom side is realized by downward air guiding; the controller drives the motor to rotate to drive the first air deflector to rotate to a second angle around the shaft, and air supply deflected to the bottom side is realized by downward air guiding; the controller driving motor rotates to drive the air dispersing component to slide downwards to close the air outlet, and the controller driving motor rotates to drive the second fan blade to rotate around the shaft by 65 degrees, so that the second blade on the second fan blade is staggered with the first blade, and the front side air is conveyed to be dispersed all around through the gap air guide of the second blade and the first blade, and the front side airless effect is realized.

The non-wind feeling of the front side of the air conditioner is realized by controlling the mutual matching action of the first air deflector, the second air deflector and the air dispersing assembly.

The step of controlling the air conditioner to work in a second mode according to the air conditioner control method specifically comprises the following steps: the controller drives the motor to rotate to drive the second air deflector to rotate to a third angle around the shaft, and the air is deflected to the front side by upward air guiding; the controller drives the motor to rotate to drive the first air deflector to rotate to a fourth angle around the shaft, and the air is deflected to the front side to supply air through upward air guiding; the bottom-side outlet air is scattered by the through holes on the second air deflector and the first air deflector; the controller driving motor rotates to drive the air dispersing component to slide downwards to close the air outlet, and the controller driving motor rotates to drive the second fan blade to rotate around the shaft by 65 degrees, so that the second blade on the second fan blade is superposed with the first blade, and air is guided to supply air to the front side through the blade gap.

The non-wind feeling of the bottom side of the air conditioner is realized by controlling the mutual matching action of the first air deflector, the second air deflector and the wind dispersing component.

Controlling the air conditioner to work in a third mode according to the air conditioner control method, which specifically comprises the following steps: the controller drives the motor to rotate to drive the second air deflector to rotate to a fifth angle around the shaft, and air supply deflected to the upper side is realized by downward air guiding; the controller drives the motor to rotate to drive the first air deflector to rotate to a sixth angle around the shaft, and air supply deflected to the upper side is realized through downward air guiding in the same way; the controller drives the motor to rotate to drive the air dispersing assembly to slide downwards to open the air outlet.

The air conditioner can realize the air supply to the upper side in the refrigeration/air supply mode of the air conditioner by controlling the mutual matching action of the first air deflector, the second air deflector and the air dispersion assembly, and realizes the uniform settlement and non-direct blowing of cold air.

Controlling the air conditioner to work in a fourth mode according to the air conditioner control method, which specifically comprises the following steps: the controller drives the motor to rotate to drive the second air deflector to rotate to a seventh preset angle around the shaft, and air supply deflected to the lower side is realized by downward air guiding; the controller drives the motor to rotate to drive the first air deflector to rotate to an eighth preset angle around the shaft, and air supply deflected to the lower side is realized through downward air guiding in the same way; the controller drives the motor to rotate to drive the air dispersing assembly to slide downwards to open the air outlet.

The mutual matching action of the first air deflector, the second air deflector and the air dispersion assembly is controlled, so that air is supplied to the lower side of the air conditioner in a heating mode, and hot air is pressed downwards.

Controlling the air conditioner to operate in a normal mode according to the air conditioner control method: the controller drives the motor to rotate to drive the second air deflector to rotate to a first preset angle position around the shaft; the controller drives the motor to rotate to drive the first air deflector with the slidable bottom to keep a closed position; the controller drives the motor to rotate to drive the air dispersing assembly to slide downwards to open the air outlet.

As shown in fig. 12, the maximum cooling capacity air supply of the air conditioner under normal conditions is realized by controlling the mutual matching action of the first air deflector, the second air deflector and the air dispersing assembly.

Controlling the air conditioner to be in a no-wind-sense mode according to the air conditioner control method: the controller drives the motor to rotate to drive the second air deflector to rotate to a third preset angle position around the shaft, and air supply deflected to the front side is achieved by upward air guiding; the controller drives the motor to rotate to drive the first air deflector with the slidable bottom to slide to a fourth preset angle position, and the bottom-side air outlet is scattered due to the micropores on the slidable bottom air deflector; the controller driving motor rotates to drive the air dispersing assembly to slide downwards to close the air outlet, and the controller driving motor rotates to drive the second fan blades to switch between the first position and the second position.

The specific steps of switching the second fan blade between the first position and the second position include:

a, the controller drives the motor to rotate the second fan blade to drive the second fan blade of the second fan blade to rotate around the shaft by 65 degrees and then stagger with the first fan blade;

b, driving a motor to drive the second fan blade to stay at the current position for 15 s;

c, the controller drives the motor to rotate to drive the second fan blade to rotate around the shaft for 65 degrees continuously and then to be overlapped with the first fan blade;

d driving the motor to drive the current position of the second fan blade to stay for 15 s.

As shown in fig. 13, the above-mentioned structure realizes the no-wind feeling of the air conditioner by controlling the mutual cooperation of the first air deflector, the second air deflector and the air dispersing assembly.

The air conditioner control method of the embodiment has the following beneficial effects:

double-sided no wind sense: no wind is felt under the front surface; the distribution proportion of the cold energy in the shell towards the front or downwards is adjusted through a second air deflector; the bidirectional cold quantity regulation is realized by regulating the forward or downward distribution proportion of cold quantity through regulating the opening and closing of the air dispersing component in the front of the shell, and the free control without wind and cool feeling is realized.

Under the no wind sense mode, the cold quantity of the front surface and the lower surface can be adjusted, and when the cold quantity is conveyed by emphasizing on the front surface or the bottom surface, the corresponding air quantity is not less than 50% of the total air quantity.

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

1. An air conditioner, comprising:

a housing provided with an opening portion;

the first air deflector is connected with the shell, and an air outlet is defined by the first air deflector and the opening part;

the air dispersing component is formed on the air dispersing component and is suitable for air flow to pass through and for the air flow passing through to diffuse and flow, wherein the air dispersing component is suitable for moving relative to the shell, and the air outlet is opened or closed by the movement of the air dispersing component.

2. The air conditioner according to claim 1,

the opening part is provided with a notch, and the first air deflector is suitable for shielding a part of the notch and defines the air outlet together with the notch.

3. The air conditioner according to claim 1,

the first air deflector is rotatably arranged and is suitable for rotating to change the air outlet direction of the air outlet.

4. The air conditioner according to claim 1,

the first air deflector is arranged in a sliding mode and is suitable for moving between sliding out of the shell and sliding into the shell.

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

the first air deflector is suitable for being matched with the air dispersing component in a lap joint mode to define a cavity, and the cavity is communicated with the air outlet.

6. The air conditioner according to claim 5,

side openings are formed in the two ends of the shell along the length direction of the splicing line of the first air deflector and the air dispersing assembly respectively, and the side openings are communicated with the cavity.

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

the first air deflector is provided with an air outlet part.

8. The air conditioner according to claim 7,

the air outlet part comprises a through hole; or

The air outlet part comprises an air outlet grid; or

The air outlet part comprises air dispersing rotary blades which are suitable for air flow to pass through and are suitable for air flow passing through to diffuse and flow.

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

the first air deflector is provided with an air guide surface;

the air guide surface is at least partially defined as an arc surface, or the air guide surface is at least partially defined as a plane.

10. The air conditioner according to any one of claims 1 to 4, wherein the air dispersing member comprises:

a first fan blade having a first blade;

the second flabellum, the second flabellum has the second blade, the second flabellum with first flabellum sets up along the axial, the second flabellum is suitable for the rotation, just the second flabellum is suitable for and rotates to primary importance and second place, wherein, works as the second flabellum is in the primary importance, the second blade with first blade is followed the axial of the part that looses the wind staggers, works as the second flabellum is in the second place, the second blade with first blade is followed the axial of the part that looses the wind at least part coincidence.

11. The air conditioner according to claim 10, further comprising:

the second air deflector is arranged at the air outlet and is suitable for rotating so as to adjust the air quantity flowing from the air outlet to the first air deflector and the air dispersing component.

12. The air conditioner according to claim 11, further comprising:

the air conditioner is in a first shape, the air outlet is closed by the air dispersion assembly, the second air deflector rotates to a first angle, the second fan blade is in a first position, and the first air deflector rotates to a second angle or slides to be matched with the air dispersion assembly in a lap joint manner; and/or

The air conditioner is in a second state, the air dispersing component moves to close the air outlet, the second air deflector rotates to a third angle, the second fan blade is in a second position, and the first air deflector rotates to a fourth angle or slides to be matched with the air dispersing component in a lap-joint mode; and/or

The air conditioner is in a third state, the air dispersing assembly moves to open the air outlet, the second air deflector rotates to a fifth angle, and the first air deflector rotates to a sixth angle or slides to open the air outlet; and/or

The air conditioner is in a fourth state, the air dispersing assembly moves to open the air outlet, the second air deflector rotates to a seventh angle, and the first air deflector rotates to an eighth angle or slides to open the air outlet; and/or

The air conditioner is in a fifth state, and the air dispersing component moves to close the air outlet.

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

the shell is provided with a containing part, and at least one part of the air diffusing assembly is contained in the containing part.

14. The air conditioner according to claim 13,

the accommodating part comprises an accommodating groove, and the air diffusing assembly is connected with the accommodating groove in a sliding manner, wherein the air diffusing assembly slides relative to the accommodating groove to extend out of or be accommodated in the accommodating groove.

15. The air conditioner according to claim 14,

the shell further comprises a face frame and a face plate, the opening part is formed in the face frame, and the face plate and the face frame define the accommodating part;

wherein the receiving portion is located at a front portion of the housing.