CN113028625A - Air deflector assembly, air conditioner, control method and control device thereof, and air conditioning system - Google Patents
Air deflector assembly, air conditioner, control method and control device thereof, and air conditioning system Download PDFInfo
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- CN113028625A CN113028625A CN202110421042.2A CN202110421042A CN113028625A CN 113028625 A CN113028625 A CN 113028625A CN 202110421042 A CN202110421042 A CN 202110421042A CN 113028625 A CN113028625 A CN 113028625A
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- 238000000034 method Methods 0.000 title claims abstract description 53
- 238000004378 air conditioning Methods 0.000 title claims abstract description 14
- 238000009423 ventilation Methods 0.000 claims abstract description 78
- 238000007664 blowing Methods 0.000 claims description 29
- 230000006698 induction Effects 0.000 claims description 25
- 238000010438 heat treatment Methods 0.000 claims description 21
- 238000005057 refrigeration Methods 0.000 claims description 20
- 238000000071 blow moulding Methods 0.000 claims description 3
- 238000007599 discharging Methods 0.000 claims 3
- 230000000694 effects Effects 0.000 description 27
- 238000001816 cooling Methods 0.000 description 10
- 238000010586 diagram Methods 0.000 description 7
- 230000035807 sensation Effects 0.000 description 6
- 230000000712 assembly Effects 0.000 description 4
- 238000000429 assembly Methods 0.000 description 4
- 230000008569 process Effects 0.000 description 4
- 230000008878 coupling Effects 0.000 description 3
- 238000010168 coupling process Methods 0.000 description 3
- 238000005859 coupling reaction Methods 0.000 description 3
- 230000008859 change Effects 0.000 description 2
- 238000004891 communication Methods 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000000737 periodic effect Effects 0.000 description 2
- 238000004590 computer program Methods 0.000 description 1
- 239000006185 dispersion Substances 0.000 description 1
- 230000006870 function Effects 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 230000003287 optical effect Effects 0.000 description 1
- 239000000758 substrate Substances 0.000 description 1
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/08—Air-flow control members, e.g. louvres, grilles, flaps or guide plates
- F24F13/10—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers
- F24F13/14—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre
- F24F13/1413—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre using more than one tilting member, e.g. with several pivoting blades
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0007—Indoor units, e.g. fan coil units
- F24F1/0011—Indoor units, e.g. fan coil units characterised by air outlets
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/50—Control or safety arrangements characterised by user interfaces or communication
- F24F11/61—Control or safety arrangements characterised by user interfaces or communication using timers
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/64—Electronic processing using pre-stored data
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/65—Electronic processing for selecting an operating mode
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/70—Control systems characterised by their outputs; Constructional details thereof
- F24F11/72—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Signal Processing (AREA)
- Physics & Mathematics (AREA)
- Fuzzy Systems (AREA)
- Mathematical Physics (AREA)
- Human Computer Interaction (AREA)
- Air-Flow Control Members (AREA)
- Air Conditioning Control Device (AREA)
Abstract
The application provides an air deflector assembly, an air conditioner, a control method, a control device and an air conditioning system of the air deflector assembly, wherein the air deflector assembly comprises a first air deflector and a second air deflector, the first air deflector comprises an air inlet and an air outlet, and the first air deflector rotates along a first preset axis; the second air guide is sleeved on the periphery of the first air guide and comprises a ventilation part, a plurality of holes are formed in the ventilation part, and the second air guide rotates along a second preset axis. This aviation baffle subassembly can realize multiple air-out mode through rotatory first air guide and second air guide, satisfies the user to the demand of different air-out forms, has solved the problem that the air conditioner among the prior art can't satisfy the user to the demand of different air-out forms like this, has guaranteed that user experience feels better.
Description
Technical Field
The present application relates to the field of air conditioners, and in particular, to an air deflector assembly, an air conditioner, a control method thereof, a control device, a computer-readable storage medium, a processor, and an air conditioning system.
Background
The air outlet form of the wall-mounted air conditioner in the current market is single, and different requirements of users on air quantity, air speed, wind sensation and air supply distance of the air conditioner under different conditions cannot be met, so that the user experience feeling is poor.
Therefore, a novel air conditioner structure is needed to solve the problem that the air conditioner in the prior art cannot meet the requirements of users for different air outlet forms.
The above information disclosed in this background section is only for enhancement of understanding of the background of the technology described herein and, therefore, certain information may be included in the background that does not form the prior art that is already known in this country to a person of ordinary skill in the art.
Disclosure of Invention
The present application mainly aims to provide an air deflector assembly, an air conditioner, a control method thereof, a control device, a computer readable storage medium, a processor and an air conditioning system, so as to solve the problem that an air conditioner in the prior art cannot meet the requirements of users for different air outlet forms.
According to an aspect of an embodiment of the present invention, there is provided an air deflector assembly including a first air deflector including an air inlet and an air outlet, and a second air deflector including an air outlet, the first air deflector rotating along a first predetermined axis; the second air guide is sleeved on the periphery of the first air guide, the second air guide comprises a ventilation portion, a plurality of holes are formed in the ventilation portion, and the second air guide rotates along a second preset axis.
Optionally, the first air guide is a cylinder, and the air outlet and the air inlet are oppositely arranged on the side surface of the first air guide.
Optionally, the second wind guide member includes two bottom surfaces disposed opposite to each other and the ventilation portion connected between the two bottom surfaces.
Optionally, the opening area of the air inlet and the opening area of the air outlet are different.
According to another aspect of an embodiment of the present invention, there is provided an air conditioner including any one of the above air deflection assemblies.
Optionally, the air conditioner further comprises a bottom shell, an evaporator assembly and a cross-flow fan blade, wherein the bottom shell comprises an accommodating cavity and an opening, and the air guide plate assembly is located at the opening of the bottom shell; the evaporator assembly is positioned in the accommodating cavity; the cross-flow fan blade is positioned in the accommodating cavity.
According to still another aspect of an embodiment of the present invention, there is provided a control method of an air conditioner, including: acquiring preset operation modes, wherein the preset operation modes comprise a refrigeration mode, an air supply mode and a heating mode; acquiring an air outlet mode, wherein the air outlet mode comprises a breeze induction mode, a no-wind induction mode, a natural wind mode and a default mode; and controlling the air deflector assembly to be in a corresponding air outlet mode according to the preset operation mode and the air outlet mode.
Optionally, according to the predetermined operation mode and the air outlet mode, controlling the air deflector assembly to be in a corresponding air outlet mode includes: when the air outlet mode is the breeze sensing mode or the default mode, controlling the first air guide piece and the second air guide piece to rotate so that the air outlet is not shielded by the ventilation part; when the air outlet mode is the no-wind-feeling mode, at least controlling the second air guide piece to rotate so that the ventilation part shields the air outlet; and under the condition that the air outlet mode is the natural wind mode, controlling the first air guide piece and the second air guide piece to rotate so that the ventilation part periodically shields the air outlet.
Optionally, when the air outlet manner is the breeze sensing mode or the default mode, controlling the first air guide and the second air guide to rotate so that the vent portion does not block the air outlet includes: under the condition that the air outlet mode is the breeze induction mode, controlling the first air guide piece to rotate to a first position, and controlling the second air guide piece to rotate to a second position, wherein an included angle between a first connecting line corresponding to the first position and the height direction of the air conditioner is a first included angle, and the first connecting line is a connecting line between the midpoint of the air inlet and the midpoint of the air outlet; when the air outlet mode is the default mode and the preset operation mode is the refrigeration mode, controlling the first air guide to rotate to a third position, controlling the second air guide to rotate to the second position, and after the preset operation mode is stopped for a second preset time, controlling the first air guide to rotate to a fourth position, wherein an included angle between the first connecting line corresponding to the third position and the height direction is a second included angle, an included angle between the first connecting line corresponding to the fourth position and the height direction is a third included angle, the first included angle and the third included angle are both smaller than the second included angle, and the opening area of the air outlet at the first position is larger than that of the air outlet at the third position; when the air outlet mode is the default mode and the preset operation mode is the heating mode, controlling the first air guide to rotate to a fifth position, controlling the second air guide to rotate to the second position, and after the air outlet mode stays at a third preset time, controlling the first air guide to rotate to the fourth position, wherein an included angle between a first connecting line corresponding to the fifth position and the height direction is a fourth included angle, and the first included angle and the third included angle are both larger than the fourth included angle; and under the condition that the air outlet mode is the default mode and the preset operation mode is the air supply mode, controlling the first air guide to rotate to the fourth position and controlling the second air guide to rotate to the second position.
Optionally, when the air outlet manner is the no-wind-sensation mode, at least controlling the second air guide to rotate so that the ventilation portion covers the air outlet includes: and under the condition that the air outlet mode is the no-wind-sensation mode, controlling the second air guide member to rotate to a fourteenth position.
Optionally, when the air outlet mode is the natural wind mode, controlling the first air guide and the second air guide to rotate so that the ventilation portion periodically blocks the air outlet includes: when the air outlet mode is the natural air mode and the preset operation mode is the refrigeration mode or the air supply mode, controlling the first air guide member to rotate to a sixth position, controlling the second air guide member to rotate in a first time period, wherein an included angle between a first connecting line corresponding to the sixth position and the height direction of the air conditioner is a fifth included angle, and the first connecting line is a connecting line between the midpoint of the air inlet and the midpoint of the air outlet; and under the condition that the air outlet mode is the natural wind mode and the preset operation mode is the heating mode, controlling the first air guide to rotate in a second time period, controlling the second air guide to rotate in the first time period, wherein the first time period and the second time period are carried out simultaneously and have the same period duration.
Optionally, controlling the second wind guide to rotate for the first time period includes: a first rotation step of controlling the second wind guide member to rotate to a seventh position, then rotate from the seventh position to an eighth position, stay for a fourth predetermined time, rotate from the eighth position to the seventh position, and stay for a fifth predetermined time at the seventh position, wherein the second wind guide member passes through a ninth position when rotating between the seventh position and the eighth position, the ventilation part does not shield the air outlet at the seventh position and the eighth position, and the ventilation part shields the air outlet at the ninth position; and a first repeating step of controlling the second wind guide member to repeat the first rotating step at least once.
Optionally, controlling the first wind guide to rotate for a second time period includes: a second rotation step of controlling the first air guide to rotate to the sixth position, rotate from the sixth position to a ninth position, and rotate from the ninth position to the sixth position, wherein an included angle between the first connecting line corresponding to the ninth position and the height direction is a sixth included angle, and the fifth included angle is larger than the sixth included angle; and a second repeating step of controlling the first air guide member to repeat the second rotating step at least once.
Optionally, the air outlet manner further includes a first direct blowing mode and a second direct blowing mode, and the controlling the air deflector assembly to be in the corresponding air outlet mode according to the predetermined operation mode and the air outlet manner includes: when the air outlet mode is the first direct blow molding mode and the preset operation mode is the refrigeration mode or the air supply mode, controlling the first air guide member to rotate to a tenth position and controlling the second air guide member to rotate to an eleventh position, wherein the air outlet is not shielded by the ventilation part at the eleventh position, an included angle between a first connecting line corresponding to the tenth position and the height direction of the air conditioner is a seventh included angle, and the first connecting line is a connecting line between the midpoint of the air inlet and the midpoint of the air outlet; when the air outlet mode is the second direct blowing mode and the preset operation mode is the refrigeration mode, controlling the first air guide to rotate to a twelfth position, controlling the second air guide to rotate to an eleventh position, wherein an included angle between the first connecting line of the twelfth position and the height direction is an eighth included angle, and the eighth included angle is larger than the seventh included angle; and under the condition that the air outlet mode is the second direct blowing mode and the preset operation mode is the air supply mode, controlling the first air guide to rotate to the twelfth position or the thirteenth position, controlling the second air guide to rotate to the eleventh position, wherein an included angle between the first connecting line of the thirteenth position and the height direction is a ninth included angle, and the ninth included angle is larger than the eighth included angle.
Optionally, acquire the air-out mode, include: determining whether setting information is received, the setting information including information to set the breezy mode, the non-windy mode, or the natural wind mode; under the condition of receiving the setting information, determining the air outlet mode according to the setting information; and determining the air outlet mode to be the default mode under the condition that the setting information is not received.
According to another aspect of embodiments of the present invention, there is provided a control apparatus of an air conditioner, including a first obtaining unit, a second obtaining unit, and a control unit, wherein the first obtaining unit is configured to obtain predetermined operation modes, and the predetermined operation modes include a cooling mode, an air blowing mode, and a heating mode; the second acquisition unit is used for acquiring an air outlet mode, and the air outlet mode comprises a breeze induction mode, a no wind induction mode, a natural wind mode and a default mode; the control unit is used for controlling the air deflector assembly to be in a corresponding air outlet mode according to the preset operation mode and the air outlet mode.
According to a further aspect of embodiments of the present invention, there is provided a computer-readable storage medium including a stored program, wherein the program performs any one of the methods.
According to a further aspect of the embodiments of the present invention, there is provided a processor for executing a program, wherein the program executes to perform any one of the methods.
According to another aspect of the embodiments of the present invention, there is provided an air conditioning system including an air conditioner and a control device, wherein the air conditioner is the air conditioner; the control device comprises a control program which is operative to perform any of the methods.
The utility model provides an aviation baffle subassembly, including first air guide and second air guide, the second air guide cover is established the periphery of first air guide, first air guide includes air intake and air outlet, the second air guide includes ventilation portion, ventilation portion is last to have a plurality of trompils, first air guide with the second air guide all can be followed the rotation of prearranged axle. The utility model provides an air deflector assembly, second air guide establishes the periphery of first air guide is through rotatory first air guide with second air guide can realize multiple air-out mode, satisfies the user to the demand of different air-out forms, for example works as first air guide with second air guide is rotatory extremely during the portion of ventilating shelters from during the position of air outlet, because the portion of ventilating has the trompil, has weakened the air-out effect, can realize no wind sense form air-out, has solved the problem that the air conditioner among the prior art can't satisfy the user to the demand of different air-out forms like this, has guaranteed that user experience feels better.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the application and, together with the description, serve to explain the application and are not intended to limit the application. In the drawings:
fig. 1 shows a schematic view of a first wind guide and a second wind guide according to an embodiment of the present application;
fig. 2 shows a schematic diagram of an air conditioner according to an embodiment of the present application;
fig. 3 illustrates a schematic diagram of a control method of an air conditioner according to an embodiment of the present application;
fig. 4 shows a schematic view of a first wind guide rotated to a first position according to an embodiment of the present application;
fig. 5 shows a schematic view of a second wind guide rotated to a second position according to an embodiment of the present application;
fig. 6 shows a schematic view of a first wind guide rotated to a third position according to an embodiment of the present application;
fig. 7 shows a schematic view of a first wind guide rotated to a fourth position according to an embodiment of the present application;
fig. 8 shows a schematic view of a first wind guide rotated to a fifth position according to an embodiment of the present application;
fig. 9 is a schematic view illustrating a second wind guide rotated to a fourteenth position according to an embodiment of the present application;
fig. 10 shows a schematic view of a second wind guide rotated to an eighth position according to an embodiment of the present application;
FIG. 11 shows a schematic diagram of an air conditioner in a no-wind mode according to an embodiment of the present application;
fig. 12 shows a schematic diagram of a control apparatus of an air conditioner according to an embodiment of the present application.
Wherein the figures include the following reference numerals:
100. a first air guide member; 101. an air outlet; 102. an air inlet; 200. a second wind guide member; 201. a ventilation portion; 202. a bottom surface; 10. an air deflection assembly; 20. a bottom case; 30. an evaporator assembly; 40. and the cross-flow fan blade.
Detailed Description
It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.
In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.
It will be understood that when an element such as a layer, film, region, or substrate is referred to as being "on" another element, it can be directly on the other element or intervening elements may also be present. Also, in the specification and claims, when an element is described as being "connected" to another element, the element may be "directly connected" to the other element or "connected" to the other element through a third element.
As described in the background art, the air conditioner in the related art cannot satisfy the user's demands for different outlet air forms, and in order to solve the above problems, in an exemplary embodiment of the present application, an air guide plate assembly, an air conditioner, a control method thereof, a control device thereof, a computer-readable storage medium, a processor, and an air conditioning system are provided.
According to an exemplary embodiment of the present application, there is provided an air deflection assembly, as shown in fig. 1 and 2, the air deflection assembly includes a first air deflection member 100 and a second air deflection member 200, wherein the first air deflection member 100 includes an air inlet 102 and an air outlet 101, and the first air deflection member 100 rotates along a first predetermined axis; the second air guide 200 is fitted around the outer periphery of the first air guide 100, the second air guide 200 includes a ventilation portion 201, the ventilation portion 201 has a plurality of openings, and the second air guide 200 rotates along a second predetermined axis.
The air guide plate assembly comprises a first air guide piece and a second air guide piece, the second air guide piece is sleeved on the periphery of the first air guide piece, the first air guide piece comprises an air inlet and an air outlet, the second air guide piece comprises a ventilation portion, a plurality of openings are formed in the ventilation portion, and the first air guide piece and the second air guide piece can rotate along a preset axis. The utility model provides an above-mentioned air deflector assembly, above-mentioned second air deflector cover is established in the periphery of above-mentioned first air deflector, through rotatory above-mentioned first air deflector and above-mentioned second air deflector, multiple air-out mode can be realized, satisfy the user to the demand of different air-out forms, for example when above-mentioned first air deflector and above-mentioned second air deflector rotate to the position that above-mentioned ventilation portion sheltered from above-mentioned air outlet, because ventilation portion has the trompil, the air-out effect has been weakened, can realize no wind sense form air-out, the problem of the air conditioner unable demand that satisfies the user to different air-out forms among the prior art has been solved like this, user experience has been guaranteed and has felt better.
In a specific embodiment, the first predetermined axis and the second predetermined axis are the same, but the first predetermined axis and the second predetermined axis may be different.
According to a specific embodiment of the present invention, as shown in fig. 1 and 2, the first air guide 100 is a cylinder, and the air outlet 101 and the air inlet 102 are opened on a side surface of the first air guide 100 in an opposite manner. In addition, since the first air guide rotates along the first predetermined axis, the air outlet and the air inlet of the first air guide are opposite to each other, that is, the air outlet of the first air guide may be an air inlet and the air inlet may be an air outlet.
Specifically, the first air guide may be a cylindrical body, a rectangular parallelepiped, or another cylindrical body such as a square body.
According to another specific embodiment of the present invention, as shown in fig. 1 and 2, the second wind guide member includes two bottom surfaces 202 disposed opposite to each other and the ventilation portion 201 connected between the two bottom surfaces. When above-mentioned second air guide rotatory to above-mentioned ventilation portion shelter from the air outlet of above-mentioned first air guide, because have a plurality of trompils on the above-mentioned second air guide, compare directly through the air-out of air outlet, above-mentioned air deflector subassembly of this application can weaken the air-out effect, and is essentially calm.
In practical application, the surface of the ventilation part may be a plane or a curved surface. As shown in fig. 2, the ventilation part is a partial surface of the cylinder.
In another specific embodiment of the present application, an opening area of the air inlet is different from an opening area of the air outlet. Therefore, the air outlet forms air outlet modes such as air dispersion and jet flow, effects such as remote air supply and rapid refrigeration and heating are achieved, the air outlet modes are further ensured to be more, the requirements of users on different air outlet modes are further met, and the user experience is ensured to be better.
In order to ensure a better air outlet effect of the air guide plate assembly, according to a specific embodiment of the present application, the surface area of the ventilation portion is larger than the opening area of the air outlet, the opening penetrates through the first surface and the second surface of the ventilation portion, the area of the first surface is larger than the area of the air outlet, and the first surface and the second surface are opposite and equal in area. That is, when the first air guide and the second air guide are rotated to a position where the vent portion blocks the outlet, the vent portion can completely block the outlet.
According to another aspect of an embodiment of the present invention, there is provided an air conditioner, as shown in fig. 2, including any one of the above-described air deflection assemblies 10.
The air conditioner comprises any one of the air guide plate assemblies, wherein the second air guide plate is sleeved on the periphery of the first air guide plate, multiple air outlet modes can be realized by rotating the first air guide plate and the second air guide plate, and the requirements of users on different air outlet modes are met.
According to a specific embodiment of the present application, as shown in fig. 2, the air conditioner further includes a bottom casing 20, an evaporator assembly 30, and a cross-flow fan 40, wherein the bottom casing 20 includes an accommodating cavity and an opening, and the air guide plate assembly 10 is located at the opening of the bottom casing 20; the evaporator assembly 30 is located in the receiving cavity; the cross-flow fan blade 40 is located in the accommodating cavity.
According to an embodiment of the present application, there is provided a control method of the air conditioner described above.
Fig. 3 is a flowchart of the control method of the air conditioner according to the embodiment of the present application. As shown in fig. 3, the method comprises the steps of:
step S101, acquiring preset operation modes, wherein the preset operation modes comprise a refrigeration mode, an air supply mode and a heating mode;
step S102, acquiring an air outlet mode, wherein the air outlet mode comprises a breeze induction mode, a no-wind induction mode, a natural wind mode and a default mode;
and step S103, controlling the air deflector assembly to be in a corresponding air outlet mode according to the preset operation mode and the air outlet mode.
In the above control method of the air conditioner, first, a predetermined operation mode is acquired; and finally, controlling the air deflector assembly to be in a corresponding air outlet mode according to the preset operation mode and the air outlet mode. In the above-mentioned method of this application, it is rotatory through first air guide and the second air guide in the control air guide subassembly, the control air guide subassembly is in the air-out mode that corresponds, multiple air-out mode can be realized like this, satisfy the demand of user to different air-out forms, for example when above-mentioned first air guide and above-mentioned second air guide rotate to the position that above-mentioned ventilation portion sheltered from above-mentioned air outlet, because ventilation portion has the trompil, the air-out effect has been weakened, can realize no wind sense form air-out, the problem that the air conditioner among the prior art can't satisfy the demand of user to different air-out forms has been solved like this, it is better to have guaranteed that user experience feels.
In a specific embodiment of the present application, according to the predetermined operation mode and the air outlet mode, the air guide plate assembly is controlled to be in the corresponding air outlet mode, including: controlling the first air guide and the second air guide to rotate so that the ventilation part does not shield the air outlet when the air outlet mode is the breeze induction mode or the default mode; when the air outlet mode is the non-wind-sensation mode, at least the second air guide is controlled to rotate so that the ventilation part can shield the air outlet; when the air outlet mode is the natural wind mode, the first air guide and the second air guide are controlled to rotate so that the ventilation portion periodically blocks the air outlet. According to the method, the first air guide piece and the second air guide piece are controlled to rotate, so that the ventilation part does not shield the air outlet, the air outlet in a slight air induction mode or a default mode can be realized, the ventilation part shields the air outlet, the air outlet in a non-air induction mode can be realized, the ventilation part periodically shields the air outlet, and the air outlet in a natural air mode can be realized, so that the requirements of users on different air outlet modes can be further met, and the better experience of the users can be further ensured.
According to another specific embodiment of the present application, in a case where the air outlet mode is the breeze induction mode or the default mode, the air outlet control device controls the first air guide and the second air guide to rotate so that the air outlet is not blocked by the air vent portion, includes: when the air outlet mode is the breeze induction mode, controlling the first air guide to rotate to a first position, as shown in fig. 4, and controlling the second air guide to rotate to a second position, as shown in fig. 5, wherein an included angle between a first connecting line corresponding to the first position and the height direction of the air conditioner is a first included angle, and the first connecting line is a connecting line between the midpoint of the air inlet and the midpoint of the air outlet; when the air outlet mode is the default mode and the predetermined operation mode is the cooling mode, controlling the first air guide to rotate to a third position, as shown in fig. 6, controlling the second air guide to rotate to the second position, and after the predetermined operation mode is the cooling mode, controlling the first air guide to rotate to a fourth position, as shown in fig. 7, an included angle between the first connection line corresponding to the third position and the height direction is a second included angle, an included angle between the first connection line corresponding to the fourth position and the height direction is a third included angle, both the first included angle and the third included angle are smaller than the second included angle, and the opening area of the air outlet at the first position is larger than the opening area of the air outlet at the third position; when the air outlet mode is the default mode and the predetermined operation mode is the heating mode, controlling the first air guide to rotate to a fifth position, as shown in fig. 8, controlling the second air guide to rotate to the second position, and after a third predetermined time, controlling the first air guide to rotate to the fourth position, wherein an included angle between the first connection line corresponding to the fifth position and the height direction is a fourth included angle, and the first included angle and the third included angle are both greater than the fourth included angle; when the air outlet mode is the default mode and the predetermined operation mode is the air blowing mode, the first air guide is controlled to rotate to the fourth position, and the second air guide is controlled to rotate to the second position. In the method, when the air outlet mode is the breeze sensation mode, no matter which mode the predetermined operation mode is, the first air guide member is controlled to rotate to a first position, the second air guide member is controlled to rotate to a second position, a small-section opening (air inlet) of the first air guide member faces an air duct and a large-section opening (air outlet) faces an indoor space when the first position is adopted, air flows out of the air duct and forms a dispersed flow through the first air guide member, the air outlet angle is large, the air speed is small, a breeze effect is achieved, direct blowing of air is avoided in the air outlet mode, and a user can feel a relatively soft breeze sensation; when the air outlet mode is the default mode and the preset operation mode is the refrigeration mode, controlling the first air guide member to rotate to a third position, controlling the second air guide member to rotate to the second position, and controlling the first air guide member to rotate to a fourth position after staying at a second preset time, wherein the position of the second air guide member is unchanged, so that the air supply distance of air conditioner cold air is long, and quick and uniform refrigeration is realized; when the air outlet mode is the default mode and the preset operation mode is the heating mode, the first air guide member is controlled to rotate to a fifth position, the second air guide member is controlled to rotate to the second position, and after the preset operation mode stays for a third preset time, the first air guide member is controlled to rotate to the fourth position, so that the indoor temperature can be quickly increased, and a user can be warmed from feet due to the fact that the warm air direction faces the ground, and the comfort of heating experience of the user is further guaranteed to be good; and under the condition that the air outlet mode is the default mode and the preset operation mode is the air supply mode, controlling the first air guide to rotate to the fourth position and controlling the second air guide to rotate to the second position, so that better air blowing experience of a user is further ensured.
In a specific embodiment, the second predetermined time is 30min, and since the air supply distance is firstly ensured by default when the air conditioner is just started to refrigerate the room, the first air guide member is controlled to be located at the third position, and the air outlet faces to a far position, so that the air supply distance can be lengthened, the room can be uniformly cooled, after the room runs for 30min, the temperature of the room is reduced to a certain degree, the first air guide member is controlled to be located at the fourth position, and the air outlet of the first air guide member faces to a near position for supplying air. The third preset time is 60min, when the air conditioner is just started to heat the room, the user is firstly guaranteed to blow hot air in a short distance by default to increase the body surface temperature of the user, after the room runs for 60min, the body surface temperature of the user is considered to be increased to a certain program, and the hot air is blown to possibly feel hot, so that the air opening direction faces far away at the moment, and the room is uniformly heated. Of course, the second predetermined time and the third predetermined time may be other time values.
According to another specific embodiment of the present application, when the air outlet mode is the no-wind-sensation mode, the air outlet control device controls at least rotation of the second air guide so that the ventilation portion blocks the air outlet, and includes: when the air outlet mode is the no-wind-sensation mode, the second air guide is controlled to rotate to a fourteenth position, and as shown in fig. 9, the position of the first air guide may be any air outlet position. Because the ventilation part of the second air guide piece is provided with a plurality of small holes, the air is blown out through the air outlet of the first air guide piece, and is weakened and shunted through the small holes, so that the air finally blown out by the air conditioner is basically invisible to people, and the air is discharged in a non-wind-sensing mode.
In order to further ensure that the air outlet effect in the non-wind-sensation mode is good, in a more specific embodiment of the present application, when the air outlet mode is the non-wind-sensation mode, the air outlet control unit controls at least the second air guide to rotate so that the ventilation unit blocks the air outlet, and includes: when the air outlet mode is the no-wind-sensation mode, the first air guide is controlled to rotate to the first position, and the second air guide is controlled to rotate to the fourteenth position. At this time, the air from the air outlet of the first air guide member has a good flow dispersing effect.
According to another specific embodiment of the present application, when the air outlet mode is the natural wind mode, the air-conditioning apparatus controls the first air guide and the second air guide to rotate so that the ventilation portion periodically blocks the air outlet, includes: when the air outlet mode is the natural air mode and the preset operation mode is the refrigeration mode or the air supply mode, controlling the first air guide member to rotate to a sixth position, and controlling the second air guide member to rotate in a first time period, wherein an included angle between a first connecting line corresponding to the sixth position and the height direction of the air conditioner is a fifth included angle, and the first connecting line is a connecting line between the midpoint of the air inlet and the midpoint of the air outlet; when the air-out mode is the natural wind mode and the predetermined operation mode is the heating mode, the first air guide is controlled to rotate at a second time period, and the second air guide is controlled to rotate at the first time period, wherein the first time period and the second time period are performed simultaneously and have the same period duration. Therefore, the natural wind sense is simulated, the air outlet form of cold air or hot air of the air conditioner is changed periodically, the air outlet effect of the natural wind mode is better, and the experience effect of a user in the natural wind mode is better.
In another specific embodiment of the present application, the controlling the second wind guide to rotate in the first time period includes: a first rotation step of controlling the second air guide to rotate to a seventh position and then to rotate from the seventh position to an eighth position, the eighth position being, as shown in fig. 10, after staying at a fourth predetermined time, to rotate from the eighth position to the seventh position and staying at the seventh position for a fifth predetermined time, wherein the second air guide passes through a ninth position when rotating between the seventh position and the eighth position, the ventilation portion does not block the outlet at the seventh position and the eighth position, and the ventilation portion blocks the outlet at the ninth position; and a first repeating step of controlling the second wind guide member to repeat the first rotating step at least once. According to the method, through the first rotating step and the first repeating step, the periodic change of the air outlet form of the air conditioner is further ensured, and the good air outlet effect of the natural wind mode is further ensured.
In order to further ensure that the air outlet effect of the natural wind mode is better, another specific embodiment of the present application, the controlling the first air guide to rotate at a second time period includes: a second rotation step of controlling the first air guide to rotate to the sixth position, rotate from the sixth position to a ninth position, and rotate from the ninth position to the sixth position, where an angle between the first connection line corresponding to the ninth position and the height direction is a sixth angle, and the fifth angle is greater than the sixth angle; and a second repeating step of controlling the first wind guide member to repeat the second rotating step at least once.
In another specific embodiment, the fourth predetermined time and the fifth predetermined time are the same and are both 3 seconds, and of course, the fourth predetermined time and the fifth predetermined time may be different and may be other time values. The seventh position may be the same as the second position, but the seventh position may be different from the second position. The sixth position may be the same as the fourth position, but the sixth position may be another position. The ninth position may be the same as the fifth position, but the ninth position may be different from the fifth position.
In order to further ensure that the air conditioner can meet the requirements of users for different air outlet modes and further ensure that the experience of the users is better, according to another specific embodiment of the present application, the air outlet mode further includes a first direct blowing mode and a second direct blowing mode, and the air deflector assembly is controlled to be in the corresponding air outlet mode according to the predetermined operation mode and the air outlet mode, including: when the air outlet mode is the first direct blow molding mode and the predetermined operation mode is the cooling mode or the air blowing mode, controlling the first air guide member to rotate to a tenth position and controlling the second air guide member to rotate to an eleventh position, wherein the air outlet is not shielded by the ventilation part at the eleventh position, an included angle between a first connecting line corresponding to the tenth position and the height direction of the air conditioner is a seventh included angle, and the first connecting line is a connecting line between the midpoint of the air inlet and the midpoint of the air outlet; when the air outlet mode is the second direct blowing mode and the predetermined operation mode is the cooling mode, controlling the first air guide to rotate to a twelfth position, and controlling the second air guide to rotate to the eleventh position, wherein an included angle between the first connection line of the twelfth position and the height direction is an eighth included angle, and the eighth included angle is larger than the seventh included angle; when the air-out mode is the second direct blowing mode and the predetermined operation mode is the air-blowing mode, the first air guide is controlled to rotate to the twelfth position or the thirteenth position, and the second air guide is controlled to rotate to the eleventh position, an angle between the first connection line of the thirteenth position and the height direction is a ninth angle, and the ninth angle is larger than the eighth angle.
In another specific example of the present application, the tenth position may be the fifth position, the eleventh position may be the second position, the twelfth position may be the fourth position, and the thirteenth position may be the third position.
In actual application process, acquire the air-out mode, include: determining whether setting information is received, the setting information including information for setting the breezy mode, the non-windy mode, or the natural wind mode; under the condition of receiving the setting information, determining the air outlet mode according to the setting information; and determining the air outlet mode as the default mode when the setting information is not received. Therefore, the air outlet mode can be further ensured to meet the requirements of users, and the user experience is further ensured to be better.
FIG. 11 illustrates a schematic diagram of an air conditioner in a no-wind mode according to a specific embodiment of the present application.
The positions of the first air guide and the second air guide are not limited to those shown in the drawings, and may be other positions.
It should be noted that the steps illustrated in the flowcharts of the figures may be performed in a computer system such as a set of computer-executable instructions and that, although a logical order is illustrated in the flowcharts, in some cases, the steps illustrated or described may be performed in an order different than presented herein.
The embodiment of the present application further provides a control device of the air conditioner, and it should be noted that the control device of the air conditioner according to the embodiment of the present application may be used to execute the control method for the air conditioner according to the embodiment of the present application. The following describes the control device for the air conditioner according to the embodiment of the present application.
Fig. 12 is a schematic diagram of the control device of the air conditioner according to the embodiment of the present application. As shown in fig. 12, the apparatus includes a first obtaining unit 50, a second obtaining unit 60, and a control unit 70, wherein the first obtaining unit 50 is configured to obtain predetermined operation modes, and the predetermined operation modes include a cooling mode, an air blowing mode, and a heating mode; the second obtaining unit 60 is configured to obtain an air outlet mode, where the air outlet mode includes a breeze sensing mode, a no-wind sensing mode, a natural wind mode, and a default mode; the control unit 70 is configured to control the air guiding plate assembly to be in the corresponding air outlet mode according to the predetermined operation mode and the air outlet mode.
In the control device of the air conditioner, the first obtaining unit obtains a preset operation mode; and acquiring an air outlet mode through the second acquisition unit, and controlling the air deflector assembly to be in a corresponding air outlet mode through the control unit according to the preset operation mode and the air outlet mode. In the above-mentioned method of this application, it is rotatory through first air guide and the second air guide in the control air guide subassembly, the control air guide subassembly is in the air-out mode that corresponds, multiple air-out mode can be realized like this, satisfy the demand of user to different air-out forms, for example when above-mentioned first air guide and above-mentioned second air guide rotate to the position that above-mentioned ventilation portion sheltered from above-mentioned air outlet, because ventilation portion has the trompil, the air-out effect has been weakened, can realize no wind sense form air-out, the problem that the air conditioner among the prior art can't satisfy the demand of user to different air-out forms has been solved like this, it is better to have guaranteed that user experience feels.
In a specific embodiment of the present application, the control unit includes a first control module, a second control module, and a third control module, wherein the first control module is configured to control the first air guide and the second air guide to rotate so that the ventilation portion does not block the air outlet when the air outlet mode is the breeze induction mode or the default mode; the second control module is configured to control at least the second air guide to rotate so that the ventilation portion blocks the air outlet when the air outlet mode is the no-wind-sensation mode; the third control module is configured to control the first air guide and the second air guide to rotate so that the ventilation portion periodically blocks the outlet when the air outlet mode is the natural wind mode. According to the method, the first air guide piece and the second air guide piece are controlled to rotate, so that the ventilation part does not shield the air outlet, the air outlet in a slight air induction mode or a default mode can be realized, the ventilation part shields the air outlet, the air outlet in a non-air induction mode can be realized, the ventilation part periodically shields the air outlet, and the air outlet in a natural air mode can be realized, so that the requirements of users on different air outlet modes can be further met, and the better experience of the users can be further ensured.
According to another specific embodiment of the present application, the first control module includes a first control sub-module, a second control sub-module, a third control sub-module and a fourth control sub-module, where the first control sub-module is configured to control the first air guide to rotate to a first position when the air outlet mode is the breeze sensation mode, and control the second air guide to rotate to a second position as shown in fig. 4, where as shown in fig. 5, an included angle between a first connection line corresponding to the first position and a height direction of the air conditioner is a first included angle, and the first connection line is a connection line between a midpoint of the air inlet and a midpoint of the air outlet; the second control sub-module is configured to, when the air outlet mode is the default mode and the predetermined operation mode is the cooling mode, control the first air guiding element to rotate to a third position, as shown in fig. 6, control the second air guiding element to rotate to the second position, and after a second predetermined time, control the first air guiding element to rotate to a fourth position, as shown in fig. 7, an included angle between the first line corresponding to the third position and the height direction is a second included angle, an included angle between the first line corresponding to the fourth position and the height direction is a third included angle, both the first included angle and the third included angle are smaller than the second included angle, and an opening area of the air outlet at the first position is larger than an opening area of the air outlet at the third position; the third control sub-module is configured to, when the air outlet mode is the default mode and the predetermined operation mode is the heating mode, control the first air guiding member to rotate to a fifth position, as shown in fig. 8, control the second air guiding member to rotate to the second position, and after a third predetermined time, control the first air guiding member to rotate to the fourth position, where an included angle between the first connection line corresponding to the fifth position and the height direction is a fourth included angle, and both the first included angle and the third included angle are greater than the fourth included angle; the fourth control submodule is configured to control the first air guide member to rotate to the fourth position and the second air guide member to rotate to the second position when the air outlet mode is the default mode and the predetermined operation mode is the air blowing mode. In the method, when the air outlet mode is the breeze sensation mode, no matter which mode the predetermined operation mode is, the first air guide member is controlled to rotate to a first position, the second air guide member is controlled to rotate to a second position, a small-section opening (air inlet) of the first air guide member faces an air duct and a large-section opening (air outlet) faces an indoor space when the first position is adopted, air flows out of the air duct and forms a dispersed flow through the first air guide member, the air outlet angle is large, the air speed is small, a breeze effect is achieved, direct blowing of air is avoided in the air outlet mode, and a user can feel a relatively soft breeze sensation; when the air outlet mode is the default mode and the preset operation mode is the refrigeration mode, controlling the first air guide member to rotate to a third position, controlling the second air guide member to rotate to the second position, and controlling the first air guide member to rotate to a fourth position after staying at a second preset time, wherein the position of the second air guide member is unchanged, so that the air supply distance of air conditioner cold air is long, and quick and uniform refrigeration is realized; when the air outlet mode is the default mode and the preset operation mode is the heating mode, the first air guide member is controlled to rotate to a fifth position, the second air guide member is controlled to rotate to the second position, and after the preset operation mode stays for a third preset time, the first air guide member is controlled to rotate to the fourth position, so that the indoor temperature can be quickly increased, and a user can be warmed from feet due to the fact that the warm air direction faces the ground, and the comfort of heating experience of the user is further guaranteed to be good; and under the condition that the air outlet mode is the default mode and the preset operation mode is the air supply mode, controlling the first air guide to rotate to the fourth position and controlling the second air guide to rotate to the second position, so that better air blowing experience of a user is further ensured.
In a specific embodiment, the second predetermined time is 30min, and since the air supply distance is firstly ensured by default when the air conditioner is just started to refrigerate the room, the first air guide member is controlled to be located at the third position, and the air outlet faces to a far position, so that the air supply distance can be lengthened, the room can be uniformly cooled, after the room runs for 30min, the temperature of the room is reduced to a certain degree, the first air guide member is controlled to be located at the fourth position, and the air outlet of the first air guide member faces to a near position for supplying air. The third preset time is 60min, when the air conditioner is just started to heat the room, the user is firstly guaranteed to blow hot air in a short distance by default to increase the body surface temperature of the user, after the room runs for 60min, the body surface temperature of the user is considered to be increased to a certain program, and the hot air is blown to possibly feel hot, so that the air opening direction faces far away at the moment, and the room is uniformly heated. Of course, the second predetermined time and the third predetermined time may be other time values.
According to another specific embodiment of the present application, the second control module includes a fifth control sub-module, and the fifth control sub-module is configured to control the second air guide to rotate to a fourteenth position when the air outlet mode is the no-wind-sensation mode, and as shown in fig. 9, the position of the first air guide may be any air outlet position. Because the ventilation part of the second air guide piece is provided with a plurality of small holes, the air is blown out through the air outlet of the first air guide piece, and is weakened and shunted through the small holes, so that the air finally blown out by the air conditioner is basically invisible to people, and the air is discharged in a non-wind-sensing mode.
In order to further ensure that the air outlet effect in the non-wind-sensing mode is better, in a more specific embodiment of the present application, the second control module includes a sixth control submodule, and the sixth control submodule is configured to, when the air outlet mode is the non-wind-sensing mode, control the first air guide to rotate to the first position and control the second air guide to rotate to the fourteenth position. At this time, the air from the air outlet of the first air guide member has a good flow dispersing effect.
According to another specific embodiment of the present application, the third control module includes a seventh control sub-module and an eighth control sub-module, where the seventh control sub-module is configured to control the first air guide to rotate to a sixth position and control the second air guide to rotate in a first time period when the air outlet mode is the natural wind mode and the predetermined operation mode is the cooling mode or the air supply mode, an angle between a first connection line corresponding to the sixth position and a height direction of the air conditioner is a fifth angle, and the first connection line is a connection line between a midpoint of the air inlet and a midpoint of the air outlet; the eighth control submodule is configured to, when the air outlet mode is the natural wind mode and the predetermined operation mode is the heating mode, control the first air guide to rotate for a second time period and control the second air guide to rotate for the first time period, where the first time period and the second time period are performed simultaneously and have the same period duration. Therefore, the natural wind sense is simulated, the air outlet form of cold air or hot air of the air conditioner is changed periodically, the air outlet effect of the natural wind mode is better, and the experience effect of a user in the natural wind mode is better.
In yet another specific embodiment of the present application, the seventh control sub-module and the eighth control sub-module are further configured to perform a first rotation step of controlling the second wind guiding member to rotate to a seventh position and then rotate from the seventh position to an eighth position, the eighth position is, as shown in fig. 10, after a fourth predetermined time, rotate from the eighth position to the seventh position, and stop at the seventh position for a fifth predetermined time, wherein the second wind guiding member passes through a ninth position when rotating between the seventh position and the eighth position, the ventilation portion does not block the air outlet at the seventh position and the eighth position, and the ventilation portion blocks the air outlet at the ninth position; the seventh control sub-module and the eighth control sub-module are further configured to perform a first repeating step of controlling the second wind guide to repeat the first rotating step at least once. According to the method, through the first rotating step and the first repeating step, the periodic change of the air outlet form of the air conditioner is further ensured, and the good air outlet effect of the natural wind mode is further ensured.
In order to further ensure that the air outlet effect of the natural wind mode is good, in another specific embodiment of the present application, the eighth control submodule is further configured to perform a second rotation step, control the first air guide to rotate to the sixth position, rotate from the sixth position to a ninth position, and rotate from the ninth position to the sixth position, an included angle between the first connection line corresponding to the ninth position and the height direction is a sixth included angle, and the fifth included angle is greater than the sixth included angle; the eighth control submodule is further configured to perform a second repeating step of controlling the first air guide to repeat the second rotating step at least once.
In another specific embodiment, the fourth predetermined time and the fifth predetermined time are the same and are both 3 seconds, and of course, the fourth predetermined time and the fifth predetermined time may be different and may be other time values. The seventh position may be the same as the second position, but the seventh position may be different from the second position. The sixth position may be the same as the fourth position, but the sixth position may be another position. The ninth position may be the same as the fifth position, but the ninth position may be different from the fifth position.
In order to further ensure that the air conditioner can meet the requirements of users for different air outlet modes and further ensure that the experience of users is better, according to another specific embodiment of the present application, the air outlet mode further includes a first direct blowing mode and a second direct blowing mode, the control unit includes a fourth control module, a fifth control module and a sixth control module, wherein the fourth control module is configured to control the first air guide to rotate to a tenth position and the second air guide to rotate to an eleventh position when the air outlet mode is the first direct blowing mode and the predetermined operation mode is the cooling mode or the air blowing mode, the ventilation portion does not block the air outlet at the eleventh position, and an included angle between a first connecting line corresponding to the tenth position and an air-conditioned height direction is a seventh included angle, the first connecting line is a connecting line between the midpoint of the air inlet and the midpoint of the air outlet; the fifth control module is configured to control the first air guiding member to rotate to a twelfth position and control the second air guiding member to rotate to the eleventh position when the air outlet mode is the second direct blowing mode and the predetermined operation mode is the cooling mode, an angle between the first connection line of the twelfth position and the height direction is an eighth angle, and the eighth angle is greater than the seventh angle; the sixth control module is configured to control the first air guiding member to rotate to the twelfth position or the thirteenth position and control the second air guiding member to rotate to the eleventh position when the air outlet mode is the second direct blowing mode and the predetermined operation mode is the air blowing mode, an angle between the first connection line of the thirteenth position and the height direction is a ninth angle, and the ninth angle is larger than the eighth angle.
In another specific example of the present application, the tenth position may be the fifth position, the eleventh position may be the second position, the twelfth position may be the fourth position, and the thirteenth position may be the third position.
In an actual application process, the second obtaining unit includes a first determining module, a second determining module, and a third determining module, where the first determining module is configured to determine whether setting information is received, and the setting information includes information for setting the breezy mode, the non-windy mode, or the natural wind mode; the second determining module is used for determining the air outlet mode according to the setting information under the condition of receiving the setting information; the third determining module is configured to determine that the air outlet mode is the default mode when the setting information is not received. Therefore, the air outlet mode can be further ensured to meet the requirements of users, and the user experience is further ensured to be better.
FIG. 11 illustrates a schematic diagram of an air conditioner in a no-wind mode according to a specific embodiment of the present application.
The positions of the first air guide and the second air guide are not limited to those shown in the drawings, and may be other positions.
The control device of the air conditioner comprises a processor and a memory, wherein the first acquisition unit, the second acquisition unit, the control unit and the like are stored in the memory as program units, and the processor executes the program units stored in the memory to realize corresponding functions.
The processor comprises a kernel, and the kernel calls the corresponding program unit from the memory. The inner core can be set to be one or more than one, and the problem that the air conditioner in the prior art cannot meet the requirements of users on different air outlet forms is solved by adjusting inner core parameters.
The memory may include volatile memory in a computer readable medium, Random Access Memory (RAM) and/or nonvolatile memory such as Read Only Memory (ROM) or flash memory (flash RAM), and the memory includes at least one memory chip.
An embodiment of the present invention provides a computer-readable storage medium having a program stored thereon, the program implementing the control method of the air conditioner described above when executed by a processor.
The embodiment of the invention provides a processor, which is used for running a program, wherein the program executes the control method of the air conditioner when running.
The embodiment of the invention provides equipment, which comprises a processor, a memory and a program which is stored on the memory and can run on the processor, wherein when the processor executes the program, at least the following steps are realized:
step S101, acquiring preset operation modes, wherein the preset operation modes comprise a refrigeration mode, an air supply mode and a heating mode;
step S102, acquiring an air outlet mode, wherein the air outlet mode comprises a breeze induction mode, a no-wind induction mode, a natural wind mode and a default mode;
and step S103, controlling the air deflector assembly to be in a corresponding air outlet mode according to the preset operation mode and the air outlet mode.
The device herein may be a server, a PC, a PAD, a mobile phone, etc.
The present application further provides a computer program product adapted to perform a program of initializing at least the following method steps when executed on a data processing device:
step S101, acquiring preset operation modes, wherein the preset operation modes comprise a refrigeration mode, an air supply mode and a heating mode;
step S102, acquiring an air outlet mode, wherein the air outlet mode comprises a breeze induction mode, a no-wind induction mode, a natural wind mode and a default mode;
and step S103, controlling the air deflector assembly to be in a corresponding air outlet mode according to the preset operation mode and the air outlet mode.
According to still another exemplary embodiment of the present application, there is provided an air conditioning system including an air conditioner and a control device, wherein the air conditioner is the air conditioner described above; the control device comprises a control program, and the control program executes any one of the methods when running.
The air conditioning system comprises an air conditioner and a control device, wherein the air conditioner is any one of the air conditioners, and a control program in the control device runs to execute any one of the methods. The utility model provides an above-mentioned air conditioning system, it is rotatory through first air guide and the second air guide in the control air guide subassembly, the control air guide subassembly is in the air-out mode that corresponds, multiple air-out mode can be realized like this, satisfy the demand of user to different air-out forms, for example when above-mentioned first air guide and above-mentioned second air guide rotate to the position that above-mentioned ventilation portion sheltered from above-mentioned air outlet, because ventilation portion has the trompil, the air-out effect has been weakened, can realize no wind sense form air-out, the problem of the air conditioner unable demand of satisfying the user to different air-out forms among the prior art has been solved like this, user experience has been guaranteed and has felt better.
In the above embodiments of the present invention, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.
In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the above-described division of the units may be a logical division, and in actual implementation, there may be another division, for example, multiple units or components may be combined or may be integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, units or modules, and may be in an electrical or other form.
The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.
The integrated unit may be stored in a computer-readable storage medium if it is implemented in the form of a software functional unit and sold or used as a separate product. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the above methods according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and other various media capable of storing program codes.
From the above description, it can be seen that the above-described embodiments of the present application achieve the following technical effects:
1) the air guide plate assembly comprises a first air guide piece and a second air guide piece, wherein the second air guide piece is sleeved on the periphery of the first air guide piece, the first air guide piece comprises an air inlet and an air outlet, the second air guide piece comprises a ventilation portion, a plurality of openings are formed in the ventilation portion, and the first air guide piece and the second air guide piece can rotate along a preset axis. The utility model provides an above-mentioned air deflector assembly, above-mentioned second air deflector cover is established in the periphery of above-mentioned first air deflector, through rotatory above-mentioned first air deflector and above-mentioned second air deflector, multiple air-out mode can be realized, satisfy the user to the demand of different air-out forms, for example when above-mentioned first air deflector and above-mentioned second air deflector rotate to the position that above-mentioned ventilation portion sheltered from above-mentioned air outlet, because ventilation portion has the trompil, the air-out effect has been weakened, can realize no wind sense form air-out, the problem of the air conditioner unable demand that satisfies the user to different air-out forms among the prior art has been solved like this, user experience has been guaranteed and has felt better.
2) The air conditioner comprises any one of the air guide plate assemblies, wherein the second air guide plate is sleeved on the periphery of the first air guide plate, multiple air outlet modes can be realized by rotating the first air guide plate and the second air guide plate, and the requirements of users on different air outlet modes are met.
3) In the control method of the air conditioner of the present application, first, a predetermined operation mode is obtained; and finally, controlling the air deflector assembly to be in a corresponding air outlet mode according to the preset operation mode and the air outlet mode. In the above-mentioned method of this application, it is rotatory through first air guide and the second air guide in the control air guide subassembly, the control air guide subassembly is in the air-out mode that corresponds, multiple air-out mode can be realized like this, satisfy the demand of user to different air-out forms, for example when above-mentioned first air guide and above-mentioned second air guide rotate to the position that above-mentioned ventilation portion sheltered from above-mentioned air outlet, because ventilation portion has the trompil, the air-out effect has been weakened, can realize no wind sense form air-out, the problem that the air conditioner among the prior art can't satisfy the demand of user to different air-out forms has been solved like this, it is better to have guaranteed that user experience feels.
4) In the control method of the air conditioner, first, a predetermined operation mode is obtained; and finally, controlling the air deflector assembly to be in a corresponding air outlet mode according to the preset operation mode and the air outlet mode. In the above-mentioned method of this application, it is rotatory through first air guide and the second air guide in the control air guide subassembly, the control air guide subassembly is in the air-out mode that corresponds, multiple air-out mode can be realized like this, satisfy the demand of user to different air-out forms, for example when above-mentioned first air guide and above-mentioned second air guide rotate to the position that above-mentioned ventilation portion sheltered from above-mentioned air outlet, because ventilation portion has the trompil, the air-out effect has been weakened, can realize no wind sense form air-out, the problem that the air conditioner among the prior art can't satisfy the demand of user to different air-out forms has been solved like this, it is better to have guaranteed that user experience feels.
5) The air conditioning system comprises an air conditioner and a control device, wherein the air conditioner is any one of the air conditioners, and the control program in the control device runs to execute any one of the methods. The utility model provides an above-mentioned air conditioning system, it is rotatory through first air guide and the second air guide in the control air guide subassembly, the control air guide subassembly is in the air-out mode that corresponds, multiple air-out mode can be realized like this, satisfy the demand of user to different air-out forms, for example when above-mentioned first air guide and above-mentioned second air guide rotate to the position that above-mentioned ventilation portion sheltered from above-mentioned air outlet, because ventilation portion has the trompil, the air-out effect has been weakened, can realize no wind sense form air-out, the problem of the air conditioner unable demand of satisfying the user to different air-out forms among the prior art has been solved like this, user experience has been guaranteed and has felt better.
The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.
Claims (19)
1. An air deflection assembly, comprising:
the first air guide piece comprises an air inlet and an air outlet, and rotates along a first preset axis;
the second air guide is sleeved on the periphery of the first air guide, the second air guide comprises a ventilation portion, a plurality of holes are formed in the ventilation portion, and the second air guide rotates along a second preset axis.
2. The air deflection assembly of claim 1, wherein the first air deflection member is a cylinder, and the air outlet opening and the air inlet opening are disposed on opposite sides of the first air deflection member.
3. The air deflection assembly of claim 1, wherein the second air deflection member includes two oppositely disposed bottom surfaces and the plenum portion connected between the two bottom surfaces.
4. The air deflection assembly of claim 1, wherein the inlet opening area and the outlet opening area are different.
5. An air conditioner comprising the air deflection assembly of any one of claims 1 to 4.
6. An air conditioner according to claim 5, further comprising:
the bottom shell comprises an accommodating cavity and an opening, and the air guide plate assembly is positioned at the opening of the bottom shell;
an evaporator assembly located in the receiving cavity;
and the cross-flow fan blade is positioned in the accommodating cavity.
7. A control method of an air conditioner according to claim 5 or 6, characterized by comprising:
acquiring preset operation modes, wherein the preset operation modes comprise a refrigeration mode, an air supply mode and a heating mode;
acquiring an air outlet mode, wherein the air outlet mode comprises a breeze induction mode, a no-wind induction mode, a natural wind mode and a default mode;
and controlling the air deflector assembly to be in a corresponding air outlet mode according to the preset operation mode and the air outlet mode.
8. The method of claim 7, wherein controlling the air deflector assembly to be in the corresponding air outlet mode according to the predetermined operation mode and the air outlet mode comprises:
when the air outlet mode is the breeze sensing mode or the default mode, controlling the first air guide piece and the second air guide piece to rotate so that the air outlet is not shielded by the ventilation part;
when the air outlet mode is the no-wind-feeling mode, at least controlling the second air guide piece to rotate so that the ventilation part shields the air outlet;
and under the condition that the air outlet mode is the natural wind mode, controlling the first air guide piece and the second air guide piece to rotate so that the ventilation part periodically shields the air outlet.
9. The method according to claim 8, wherein controlling the first air guide member and the second air guide member to rotate so that a ventilation portion does not block an outlet when the air outlet mode is the breeze induction mode or the default mode, comprises:
under the condition that the air outlet mode is the breeze induction mode, controlling the first air guide piece to rotate to a first position, and controlling the second air guide piece to rotate to a second position, wherein an included angle between a first connecting line corresponding to the first position and the height direction of the air conditioner is a first included angle, and the first connecting line is a connecting line between the midpoint of the air inlet and the midpoint of the air outlet;
when the air outlet mode is the default mode and the preset operation mode is the refrigeration mode, controlling the first air guide to rotate to a third position, controlling the second air guide to rotate to the second position, and after the preset operation mode is stopped for a second preset time, controlling the first air guide to rotate to a fourth position, wherein an included angle between the first connecting line corresponding to the third position and the height direction is a second included angle, an included angle between the first connecting line corresponding to the fourth position and the height direction is a third included angle, the first included angle and the third included angle are both smaller than the second included angle, and the opening area of the air outlet at the first position is larger than that of the air outlet at the third position;
when the air outlet mode is the default mode and the preset operation mode is the heating mode, controlling the first air guide to rotate to a fifth position, controlling the second air guide to rotate to the second position, and after the air outlet mode stays at a third preset time, controlling the first air guide to rotate to the fourth position, wherein an included angle between a first connecting line corresponding to the fifth position and the height direction is a fourth included angle, and the first included angle and the third included angle are both larger than the fourth included angle;
and under the condition that the air outlet mode is the default mode and the preset operation mode is the air supply mode, controlling the first air guide to rotate to the fourth position and controlling the second air guide to rotate to the second position.
10. The method according to claim 8, wherein, when the air-out mode is the no-wind mode, controlling at least rotation of the second air guide member so that the ventilation portion blocks the outlet includes:
and under the condition that the air outlet mode is the no-wind-sensation mode, controlling the second air guide member to rotate to a fourteenth position.
11. The method according to claim 8, wherein, when the air outlet mode is the natural wind mode, controlling the first air guide and the second air guide to rotate so that the ventilation portion periodically blocks the air outlet includes:
when the air outlet mode is the natural air mode and the preset operation mode is the refrigeration mode or the air supply mode, controlling the first air guide member to rotate to a sixth position, controlling the second air guide member to rotate in a first time period, wherein an included angle between a first connecting line corresponding to the sixth position and the height direction of the air conditioner is a fifth included angle, and the first connecting line is a connecting line between the midpoint of the air inlet and the midpoint of the air outlet;
and under the condition that the air outlet mode is the natural wind mode and the preset operation mode is the heating mode, controlling the first air guide to rotate in a second time period, controlling the second air guide to rotate in the first time period, wherein the first time period and the second time period are carried out simultaneously and have the same period duration.
12. The method of claim 11, wherein controlling the second wind guide to rotate for the first period of time comprises:
a first rotation step of controlling the second wind guide member to rotate to a seventh position, then rotate from the seventh position to an eighth position, stay for a fourth predetermined time, rotate from the eighth position to the seventh position, and stay for a fifth predetermined time at the seventh position, wherein the second wind guide member passes through a ninth position when rotating between the seventh position and the eighth position, the ventilation part does not shield the air outlet at the seventh position and the eighth position, and the ventilation part shields the air outlet at the ninth position;
and a first repeating step of controlling the second wind guide member to repeat the first rotating step at least once.
13. The method of claim 11, wherein controlling the first wind guide to rotate for a second period of time comprises:
a second rotation step of controlling the first air guide to rotate to the sixth position, rotate from the sixth position to a ninth position, and rotate from the ninth position to the sixth position, wherein an included angle between the first connecting line corresponding to the ninth position and the height direction is a sixth included angle, and the fifth included angle is larger than the sixth included angle;
and a second repeating step of controlling the first air guide member to repeat the second rotating step at least once.
14. The method of claim 7, wherein the wind discharging modes further include a first direct blowing mode and a second direct blowing mode, and controlling the wind deflector assembly to be in the corresponding wind discharging mode according to the predetermined operation mode and the wind discharging mode comprises:
when the air outlet mode is the first direct blow molding mode and the preset operation mode is the refrigeration mode or the air supply mode, controlling the first air guide member to rotate to a tenth position and controlling the second air guide member to rotate to an eleventh position, wherein the air outlet is not shielded by the ventilation part at the eleventh position, an included angle between a first connecting line corresponding to the tenth position and the height direction of the air conditioner is a seventh included angle, and the first connecting line is a connecting line between the midpoint of the air inlet and the midpoint of the air outlet;
when the air outlet mode is the second direct blowing mode and the preset operation mode is the refrigeration mode, controlling the first air guide to rotate to a twelfth position, controlling the second air guide to rotate to an eleventh position, wherein an included angle between the first connecting line of the twelfth position and the height direction is an eighth included angle, and the eighth included angle is larger than the seventh included angle;
and under the condition that the air outlet mode is the second direct blowing mode and the preset operation mode is the air supply mode, controlling the first air guide to rotate to the twelfth position or the thirteenth position, controlling the second air guide to rotate to the eleventh position, wherein an included angle between the first connecting line of the thirteenth position and the height direction is a ninth included angle, and the ninth included angle is larger than the eighth included angle.
15. The method of claim 7, wherein obtaining the air outlet mode comprises:
determining whether setting information is received, the setting information including information to set the breezy mode, the non-windy mode, or the natural wind mode;
under the condition of receiving the setting information, determining the air outlet mode according to the setting information;
and determining the air outlet mode to be the default mode under the condition that the setting information is not received.
16. A control device for an air conditioner according to claim 5 or 6, comprising:
the system comprises a first acquisition unit, a second acquisition unit and a control unit, wherein the first acquisition unit is used for acquiring preset operation modes, and the preset operation modes comprise a refrigeration mode, an air supply mode and a heating mode;
the second acquisition unit is used for acquiring an air outlet mode, wherein the air outlet mode comprises a breeze induction mode, a no wind induction mode, a natural wind mode and a default mode;
and the control unit is used for controlling the air deflector assembly to be in a corresponding air outlet mode according to the preset operation mode and the air outlet mode.
17. A computer-readable storage medium, characterized in that the computer-readable storage medium comprises a stored program, wherein the program performs the method of any one of claims 7 to 15.
18. A processor, configured to run a program, wherein the program when running performs the method of any one of claims 7 to 15.
19. An air conditioning system, comprising:
an air conditioner according to claim 5 or 6;
control apparatus comprising a control program which when executed performs the method of any one of claims 7 to 15.
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CN202110421042.2A CN113028625B (en) | 2021-04-19 | Air deflector assembly, air conditioner, control method and device of air deflector assembly and air conditioning system |
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CN202110421042.2A CN113028625B (en) | 2021-04-19 | Air deflector assembly, air conditioner, control method and device of air deflector assembly and air conditioning system |
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