CN110260404A - The heat-production control method of air conditioner, the refrigeration control method of air conditioner and air conditioner - Google Patents
The heat-production control method of air conditioner, the refrigeration control method of air conditioner and air conditioner Download PDFInfo
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- CN110260404A CN110260404A CN201910562629.8A CN201910562629A CN110260404A CN 110260404 A CN110260404 A CN 110260404A CN 201910562629 A CN201910562629 A CN 201910562629A CN 110260404 A CN110260404 A CN 110260404A
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- Prior art keywords
- wind
- air conditioner
- air
- air outlet
- guiding component
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Classifications
-
- 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
- F24F1/0014—Indoor units, e.g. fan coil units characterised by air outlets having two or more outlet openings
-
- 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
- F24F1/0018—Indoor units, e.g. fan coil units characterised by fans
- F24F1/0033—Indoor units, e.g. fan coil units characterised by fans having two or more fans
-
- 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
- F24F11/67—Switching between heating and cooling modes
-
- 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
- F24F11/79—Control systems characterised by their outputs; Constructional details thereof for controlling the supply of treated air, e.g. its pressure for controlling the direction of the supplied air
-
- 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
- F24F13/1426—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre characterised by actuating means
-
- 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
- F24F13/20—Casings or covers
-
- 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
- F24F13/1426—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre characterised by actuating means
- F24F2013/1446—Air-flow control members, e.g. louvres, grilles, flaps or guide plates movable, e.g. dampers built up of tilting members, e.g. louvre characterised by actuating means with gearings
-
- 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
- F24F13/20—Casings or covers
- F24F2013/205—Mounting a ventilator fan therein
Landscapes
- 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)
- Air-Flow Control Members (AREA)
Abstract
The invention discloses a kind of air conditioners, the refrigeration control method of air conditioner and the heat-production control method of air conditioner, air conditioner includes panel component and fan part, panel component includes front panel and wind guiding component, there is at least one air outlet on front panel, a wind guiding component is respectively equipped at each air outlet, wind guiding component includes the driver of the wind scooper and driving wind scooper rotation set on air outlet, fan part limits at least four vent passages being provided spaced, each vent passages are respectively equipped at least one fan assembly, so that vent passages are blown outward by air outlet.Air conditioner according to the present invention, may be implemented the air-out effect of natural wind, and enrich air-supply effect, be easy to implement a variety of refrigeration modes and/or a variety of heating modes.
Description
Technical field
The present invention relates to air conditioner technical fields, more particularly, to a kind of air conditioner, the refrigeration control method of air conditioner
With the heat-production control method of air conditioner.
Background technique
Air conditioner can the parameters such as temperature, humidity, cleanliness, flow velocity to surrounding air in building or structures adjust
Section and control.In the related technology, for air conditioner in refrigeration, operational mode is single, and usually cold wind is blown upwards, it would still be possible to which blow-through is used
Family causes user's comfort to be not added;Air conditioner heat-production, operational mode is single, and usually hot wind is blown downwards, however since structure is set
It counts unreasonable, however it remains the bad problem of heating effect.
Summary of the invention
The present invention is directed at least solve one of the technical problems existing in the prior art.Therefore, the present invention intends to propose one
Kind air conditioner, the air-out effect of natural wind may be implemented in the air conditioner, and enriches air-supply effect, is easy to implement a variety of refrigeration
Mode and/or a variety of heating modes.
The present invention also proposes a kind of refrigeration control method of air conditioner.
The present invention also proposes a kind of heat-production control method of air conditioner.
Air conditioner according to a first aspect of the present invention, comprising: panel component, the panel component include front panel and wind-guiding
Component has at least one air outlet on the front panel, is respectively equipped with the wind guiding component at each air outlet,
The wind guiding component includes the driver set on the wind scooper of the air outlet and the driving wind scooper rotation;Fan part,
The fan part limits at least four vent passages being provided spaced, and each vent passages are respectively equipped at least
One fan assembly, so that the vent passages are blown outward by the air outlet.
Face outlet air may be implemented in air conditioner according to the present invention, air conditioner, and air conditioner air-out is more dispersed, so that user has
There is Sensurround, the air-out effect of natural wind is realized conducive to air conditioner, and more combination may be implemented at least four vent passages
Wind sense meets the differentiated demand of user, moreover, the wind guiding component at air outlet can direct flow into different directions,
The air-supply effect of air conditioner is further enriched, realizes that there is a variety of refrigeration modes and/or a variety of heating modes convenient for air conditioner,
The comfort of user is improved, to improve the applicability of air conditioner.
According to some embodiments of the present invention, the wind scooper includes the first framework, has first in first framework
Grid, first framework are circular frame, and the wind guiding component is configured to the wind scooper around the central axis of first framework
Line can be rotated.
According to some embodiments of the present invention, the periphery of first framework has gear ring structure, and the driver includes
Driving motor and gear mechanism, the gear mechanism include at least one gear and with gear ring structure engaged transmission, it is described
Driving motor drives the wind scooper rotation by the engaged transmission.
According to some embodiments of the present invention, first framework includes the first central part and first annular circle, and described the
It is outer and first annular space is limited between first central part that one annular ring is located at first central part, and described first
Grid is located in the first annular space and including multiple first grizzly bar disposed in parallel, and each first grizzly bar limits
The wind-guiding face of the central axis setting of first framework is favoured out.
According to some embodiments of the present invention, each first grizzly bar is linear grizzly bar.
According to some embodiments of the present invention, the wind guiding component further includes mounting bracket, and the wind scooper is pivotly
It is installed on the mounting bracket, can be rotated around the central axis of first framework.
According to some embodiments of the present invention, the mounting bracket includes second framework, has the in the second framework
Two grids, second grid are located at the upstream of the wind scooper.
According to some embodiments of the present invention, the second framework is circular frame, and the second framework includes the second center
Portion and the second annular ring, second annular ring are located at outside second central part and limit between second central part
Second annular space, second grid are located in second annular space and including multiple second grizzly bars, and multiple described the
Circumferentially-spaced distribution of two grizzly bars along second annular ring.
According to some embodiments of the present invention, each second grizzly bar is curved shape grizzly bar.
According to some embodiments of the present invention, there is mounting ear, the mounting bracket passes through described in the mounting bracket
Mounting ear is mounted on the inside of the front panel.
According to some embodiments of the present invention, the air outlet is at least six and the including being arranged successively from top to bottom
Air port is discharged in one discharge air port, second row air outlet and third, and the first row air outlet includes spaced from right to left
First air outlet and the second air outlet, the second row air outlet include spaced third air outlet and the 4th from right to left
Air outlet, the third discharge air port include spaced 5th air outlet and the 6th air outlet from right to left, the wind-guiding
Component be at least six and including be set to first air outlet the first wind guiding component, set on the second of second air outlet
Wind guiding component, the 4th wind guiding component set on the 4th air outlet, is set the third wind guiding component set on the third air outlet
The 4th wind guiding component in the 4th air outlet, is set to the described 6th at the 5th wind guiding component set on the 5th air outlet
6th wind guiding component of air outlet.
The refrigeration control method of air conditioner according to a second aspect of the present invention, the air conditioner are according to the present invention above-mentioned the
The air conditioner of one side section Example, the air conditioner has normal refrigeration mode and fast-refrigerating mode, in the air-conditioning
When device is switched to the fast-refrigerating mode, controls first wind guiding component to the 6th wind guiding component and rotate, so that institute
State the whole air-supply upwards of first row air outlet, whole two Lateral supplies to the left and right of the second row air outlet, third discharge wind
The whole air-supply downwards of mouth.
The refrigeration control method of air conditioner according to the present invention, air conditioner have a variety of refrigeration modes, and in fast-refrigerating
Under mode, full room fast-refrigerating is may be implemented in air conditioner, quickly to reduce indoor environment temperature, avoids cold wind blow-through user, tool
There is good fast-refrigerating effect, improves the comfort of user.
According to some embodiments of the present invention, when the air conditioner is switched to the normal refrigeration mode, described in control
First wind guiding component to the 6th wind guiding component rotates, so that the first row air outlet whole two Lateral supplies, institute to the left and right
State whole two Lateral supplies to the left and right of second row air outlet, whole two Lateral supply to the left and right in third discharge air port.
According to some embodiments of the present invention, first wind guiding component to each of the 6th wind guiding component wraps
Multiple wind-guiding grizzly bars disposed in parallel are included, each wind-guiding grizzly bar limits the central axis for favouring the corresponding air outlet
The wind-guiding inclined-plane of line setting, the length direction of the whole wind-guiding grizzly bar in each wind guiding component is horizontal direction and institute
When stating wind-guiding inclined-plane inclination extending upwards, the wind guiding component is located at 0 ° of position, and the wind guiding component is from 0 ° of inverse position
The angle that the angle that hour hands turn over is positive-angle, turns over clockwise is negative angle, is switched to the quick system in the air conditioner
When cold mode, angle position locating for first wind guiding component is controlled are as follows: -15 °~15 °, control second wind guiding component
Locating angle position are as follows: -15 °~15 °, control angle position locating for the third wind guiding component are as follows: 255 °~285 °, control
Make angle position locating for the 4th wind guiding component are as follows: 75 °~105 °, control angle position locating for the 5th wind guiding component
It is set to: 165 °~195 °, controlling angle position locating for the 6th wind guiding component are as follows: 165 °~195 °.
According to some embodiments of the present invention, when the air conditioner is switched to the normal refrigeration mode, described in control
Angle position locating for first wind guiding component are as follows: 255 °~285 °, control angle position locating for second wind guiding component are as follows:
75 °~105 °, control angle position locating for the third wind guiding component are as follows: 255 °~285 °, control the 4th wind-guiding group
Angle position locating for part are as follows: 75 °~105 °, control angle position locating for the 5th wind guiding component are as follows: 255 °~285 °,
Control angle position locating for the 6th wind guiding component are as follows: 75 °~105 °.
According to some embodiments of the present invention, the air conditioner includes first blower fan group opposite with first air outlet
Part, second fan assembly opposite with second air outlet, the third fan assembly opposite with the third air outlet and institute
State the opposite four fan device component of the 4th air outlet, fiveth fan assembly opposite with the 5th air outlet and the described 6th
The 6th opposite fan assembly of air outlet controls first wind when the air conditioner is switched to the fast-refrigerating mode
The revolving speed of thermomechanical components revolving speed and second fan assembly is all larger than in the third fan assembly and the four fan device component
The revolving speed of any one, the revolving speed for controlling the third fan assembly revolving speed and the four fan device component are all larger than the tendencies
The revolving speed of any of thermomechanical components and the 6th fan assembly.
According to some embodiments of the present invention, when the air conditioner is switched to the fast-refrigerating mode, described in control
The revolving speed of first fan assembly revolving speed and second fan assembly is 1.1~1.3 times of preset rotation speed, controls the third
The revolving speed of fan assembly revolving speed and the four fan device component is 0.9~1.1 times of the preset rotation speed, control the described 5th
The revolving speed of fan assembly revolving speed and the 6th fan assembly is 0.6~0.9 times of the preset rotation speed.
According to some embodiments of the present invention, when the air conditioner is switched to the normal refrigeration mode, described in control
The revolving speed of first fan assembly revolving speed and second fan assembly is 0.9~1.1 times of the preset rotation speed, described in control
The revolving speed of third fan assembly revolving speed and the four fan device component is 0.8~1.0 times of the preset rotation speed, described in control
The revolving speed of 5th fan assembly revolving speed and the 6th fan assembly is 0.7~0.9 times of the preset rotation speed.
According to some embodiments of the present invention, when the air conditioner receives refrigeration instruction, the air conditioner detects institute
The inlet air temperature for stating air conditioner, when the inlet air temperature of detection is greater than the first setting value, control the air conditioner be switched to it is described
Fast-refrigerating mode.
According to some embodiments of the present invention, under the normal refrigeration mode, sky described in the air conditioner real-time detection
Adjust device inlet air temperature, when the inlet air temperature of detection be greater than the first setting value when, control the air conditioner be switched to it is described quickly
Refrigeration mode.
According to some embodiments of the present invention, under the fast-refrigerating mode, sky described in the air conditioner real-time detection
The inlet air temperature for adjusting device, when the inlet air temperature of detection is less than or equal to the second setting value, control the air conditioner be switched to it is described
Normal refrigeration mode.
The heat-production control method of air conditioner according to a third aspect of the present invention, the air conditioner are according to the present invention above-mentioned the
The air conditioner of one side section Example, the air conditioner has common heating mode and quick heating mode, in the air-conditioning
When device is switched to the quick heating mode, controls first wind guiding component to the 6th wind guiding component and rotate, so that institute
State the whole air-supply downwards of whole two Lateral supplies to the left and right of first row air outlet, the second row air outlet, third discharge wind
The whole air-supply downwards of mouth.
The heat-production control method of air conditioner according to the present invention, air conditioner has a variety of heating modes, and is quickly heating
Under mode, air conditioner may be implemented full room and quickly heat, and with fast lifting indoor environment temperature, have good quick heating effect
Fruit improves the comfort of user.
According to some embodiments of the present invention, when the air conditioner is switched to the common heating mode, described in control
First wind guiding component to the 6th wind guiding component rotates, so that the first row air outlet whole two Lateral supplies, institute to the left and right
State whole two Lateral supplies to the left and right of second row air outlet, the whole air-supply downwards in third discharge air port.
According to some embodiments of the present invention, first wind guiding component to each of the 6th wind guiding component wraps
Multiple wind-guiding grizzly bars disposed in parallel are included, each wind-guiding grizzly bar limits the central axis for favouring the corresponding air outlet
The wind-guiding inclined-plane of line setting, the length direction of the whole wind-guiding grizzly bar in each wind guiding component is horizontal direction and institute
When stating wind-guiding inclined-plane inclination extending upwards, the wind guiding component is located at 0 ° of position, and the wind guiding component is from 0 ° of inverse position
The angle that the angle that hour hands turn over is positive-angle, turns over clockwise is negative angle, is switched to the quick system in the air conditioner
When heat pattern, angle position locating for first wind guiding component is controlled are as follows: 255 °~285 °, control second wind guiding component
Locating angle position are as follows: 75 °~105 °, control angle position locating for the third wind guiding component are as follows: 165 °~195 °, control
Make angle position locating for the 4th wind guiding component are as follows: 165 °~195 °, control angle locating for the 5th wind guiding component
Position are as follows: 165 °~195 °, control angle position locating for the 6th wind guiding component are as follows: 165 °~195 °.
According to some embodiments of the present invention, when the air conditioner is switched to the common heating mode, described in control
Angle position locating for first wind guiding component are as follows: 255 °~285 °, control angle position locating for second wind guiding component are as follows:
75 °~105 °, control angle position locating for the third wind guiding component are as follows: 255 °~285 °, control the 4th wind-guiding group
Angle position locating for part are as follows: 75 °~105 °, control angle position locating for the 5th wind guiding component are as follows: 165 °~195 °,
Control angle position locating for the 6th wind guiding component are as follows: 165 °~195 °.
According to some embodiments of the present invention, the air conditioner includes first blower fan group opposite with first air outlet
Part, second fan assembly opposite with second air outlet, the third fan assembly opposite with the third air outlet and institute
State the opposite four fan device component of the 4th air outlet, fiveth fan assembly opposite with the 5th air outlet and the described 6th
The 6th opposite fan assembly of air outlet controls the tendencies when the air conditioner is switched to the quick heating mode
The revolving speed of thermomechanical components revolving speed and the 6th fan assembly is all larger than in the third fan assembly and the four fan device component
The revolving speed of any one, the revolving speed for controlling the third fan assembly revolving speed and the four fan device component are all larger than first wind
The revolving speed of any of thermomechanical components and second fan assembly.
According to some embodiments of the present invention, when the air conditioner is switched to the quick heating mode, described in control
The revolving speed of first fan assembly revolving speed and second fan assembly is 1.0~1.2 times of preset rotation speed, controls the third
The revolving speed of fan assembly revolving speed and the four fan device component is 0.9~1.1 times of the preset rotation speed, control the described 5th
The revolving speed of fan assembly revolving speed and the 6th fan assembly is 1.1~1.3 times of the preset rotation speed.
According to some embodiments of the present invention, when the air conditioner is switched to the common heating mode, described in control
The revolving speed of first fan assembly revolving speed and second fan assembly is 0.7~0.9 times of the preset rotation speed, described in control
The revolving speed of third fan assembly revolving speed and the four fan device component is 0.8~1.0 times of the preset rotation speed, described in control
The revolving speed of 5th fan assembly revolving speed and the 6th fan assembly is 1.0~1.2 times of the preset rotation speed.
According to some embodiments of the present invention, when the air conditioner receives heating instruction, the air conditioner detects institute
The inlet air temperature for stating air conditioner, when the inlet air temperature of detection is less than third setting value, control the air conditioner be switched to it is described
Quick heating mode.
According to some embodiments of the present invention, under the common heating mode, sky described in the air conditioner real-time detection
Adjust device inlet air temperature, when the inlet air temperature of detection be less than third setting value when, control the air conditioner be switched to it is described quickly
Heating mode.
According to some embodiments of the present invention, under the quick heating mode, sky described in the air conditioner real-time detection
The inlet air temperature for adjusting device, when the inlet air temperature of detection is more than or equal to four setting values, control the air conditioner be switched to it is described
Common heating mode.
Additional aspect and advantage of the invention will be set forth in part in the description, and will partially become from the following description
Obviously, or practice through the invention is recognized.
Detailed description of the invention
Fig. 1 is the explosive view of air conditioner according to an embodiment of the invention;
Fig. 2 is the structural schematic diagram of wind guiding component shown in Fig. 1;
Fig. 3 is the explosive view of wind guiding component shown in Fig. 2;
Fig. 4 is the rotation schematic diagram of wind guiding component shown in Fig. 1;
Fig. 5 is blower stator blade shown in Fig. 1 and motor scheme of installation;
Fig. 6 is the control flow schematic diagram of air conditioner according to an embodiment of the invention.
Appended drawing reference:
Air conditioner 100;
Panel component 1;Front panel 11;Air outlet 111;
First row air outlet 111A;First air outlet 111a;Second air outlet 111b;
Second row air outlet 111B;Third air outlet 111c;4th air outlet 111d;
Air port 111C is discharged in third;5th air outlet 111e;6th air outlet 111f;
Wind guiding component 12;
First wind guiding component 12a;Second wind guiding component 12b;Third wind guiding component 12c;
4th wind guiding component 12d;5th wind guiding component 12e;6th wind guiding component 12f;
Wind scooper 121;
First framework 1211;
First central part 1211A;Pivot hole 1211A1;
First annular circle 1211B;Gear ring structure 1211B1;
First grid 1212;
First grizzly bar 1212A;Wind-guiding face 1212A1;
Wind-guiding grizzly bar D;Wind-guiding inclined-plane E;
Driver 122;
Driving motor 1221;Electric machine support G;Gear mechanism 1222;Gear F;
Mounting bracket 123;
Second framework 1231;
Second central part 1231A;Second annular ring 1231B;
Second grid 1232;
Second grizzly bar 1232A;
Mounting ear 1233;
Fan part 2;Fan assembly 21;Wind wheel 211;Motor 212;Mounting bracket 212A;
First fan assembly 21a;Second fan assembly 21b;Third fan assembly 21c;
Four fan device component 21d;5th fan assembly 21e;6th fan assembly 21f;
Air-ducting ring 22;Vent passages 220;
First vent passages 220a;Second vent passages 220b;Third venting channel 220c;
4th vent passages 220d;5th vent passages 220e;6th vent passages 220f;
Frame plate 23;
Blower stator blade 24;
Rear panel component 3;Base member 4;Electric control gear 5;Heat-exchanger rig 6.
Specific embodiment
The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end
Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached
The embodiment of figure description is exemplary, it is intended to is used to explain the present invention, and is not considered as limiting the invention.
Following disclosure provides many different embodiments or example is used to realize different structure of the invention.For letter
Change disclosure of the invention, hereinafter the component of specific examples and setting are described.Certainly, they are merely examples, and
It is not intended to limit the present invention.In addition, the present invention can in different examples repeat reference numerals and/or letter.It is this heavy
It is for purposes of simplicity and clarity, itself not indicate the relationship between discussed various embodiments and/or setting again.This
Outside, the present invention provides various specific techniques and material example, but those of ordinary skill in the art may be aware that
The applicable property of other techniques and/or the use of other materials.
In the following, describing air conditioner 100 according to an embodiment of the present invention referring to attached drawing.
As shown in Figure 1, air conditioner 100 may include panel component 1, panel component 1 includes front panel 11 and wind guiding component
12, there is on front panel 11 at least one air outlet 111, i.e., can have one or more air outlets 111 on front panel 11;Often
A wind guiding component 12 is respectively equipped at a air outlet 111, wind guiding component 12 includes 121 He of wind scooper set on air outlet 111
The driver 122 for driving wind scooper 121 to rotate, wind scooper 121 can be provide with at air outlet 111, and wind scooper 121 can be used
Air-flow flowing at guidance air outlet 111, since driver 122 can drive wind scooper 121 to rotate, so that wind scooper 121
Channeling direction can change, be advantageously implemented the different air-supply effect of air conditioner 100.
As shown in Figure 1, air conditioner 100 can also include fan part 2, fan part 2, which limit, to be provided spaced
At least four vent passages 220, obtaining can be mutually indepedent between these vent passages 220, the operation of each vent passages 220 with
It is non-interference between remaining vent passages 220, these vent passages 220 can " parallel connection " setting so that each vent passages 220
It can realize independent air-feeding.As a result, by least four vent passages 220 of setting, go out so that face may be implemented in air conditioner 100
Wind, 100 outlet air of air conditioner is more dispersed, so that user has Sensurround, the outlet air effect of natural wind is realized conducive to air conditioner 100
Fruit promotes the comfort level of user.
Each vent passages 220 are respectively equipped at least one fan assembly 21, fan assembly 21 at least partly can position
In in vent passages 220, so that vent passages 220 are blown outward by air outlet 111, i.e., each vent passages 220 are set respectively
There are a fan assembly 21 or multiple fan assemblies 21, fan assembly 21 is at least four, the corresponding ventilation of the driving of fan assembly 21
Air flow direction air outlet 111 in channel 220 realizes the outlet air of air conditioner 100.
Wherein, when vent passages 220 are equipped with multiple fan assemblies 21, multiple fan assemblies 21 can be along vent passages
220 airflow direction is set gradually, at this point, the air-flow of vent passages 220 can be followed by multiple fan assemblies 21, Huo Zheduo
A fan assembly 21 can be arranged side by side on the airflow direction of vent passages 220, and the air-flow of vent passages 220 can be same at this time
The multiple fan assemblies 21 of Shi Liujing;But not limited to this.The quantity of fan assembly 21 in vent passages 220 can be identical or not
Together;In the description of the present invention, the meaning of " plurality " is two or more.
It will be appreciated by persons skilled in the art that passing through the fan assembly 21 that all vent passages 220 are specifically arranged
Design parameter and relationship is cooperated with each other, more air-supply effects can be obtained, further such that air conditioner 100 may be implemented
A variety of different air-supply effects, preferably to meet user to the differentiated demand of 100 air-out effect of air conditioner.Wherein, each
Fan assembly 21 can be controlled individually, so that air conditioner 100 can be adapted for different application scenarios.
Air conditioner 100 according to an embodiment of the present invention is made by the way that at least four vent passages 220 spaced apart from each other are arranged
Obtaining air conditioner 100 may be implemented face outlet air, and 100 outlet air of air conditioner is more dispersed, so that user has Sensurround, be conducive to air conditioner
100 realize the air-out effect of natural wind, and more combination wind sense may be implemented at least four vent passages 220, meets user
Differentiated demand, it is further rich moreover, the wind guiding component 12 at air outlet 111 can direct flow into different directions
The rich air-supply effect of air conditioner 100, realizes there is a variety of refrigeration modes and/or a variety of heating modes convenient for air conditioner 100, mentions
The comfort of user is risen, to improve the applicability of air conditioner 100.
In some embodiments of the invention, as shown in Figures 2 and 3, wind scooper 121 includes the first framework 1211,
First framework 1211 is circular frame, in order to the setting of wind scooper 121, allow wind scooper 121 preferably with air outlet 111
Match;There is the first grid 1212 in first framework 1211, the first grid 1212 can be arranged with 111 face of air outlet, the
The air-flow that one grid 1212 can be used for guiding at air outlet 111 flows, and wind guiding component 12 is configured to wind scooper 121 around the first frame
The central axis of body 1211 can be rotated, then driver 122 can drive wind scooper 121 to turn around the central axis of the first framework 1211
Dynamic, the first grid 1212 can follow the first framework 1211 around the center axis thereof of the first framework 1211, to change outlet air side
To.121 structure of wind scooper is simple as a result, is easy to implement.
Specifically, in the example of Fig. 2 and Fig. 3, the periphery of the first framework 1211 has gear ring structure 1211B1, driver
122 include driving motor 1221 and gear mechanism 1222, and driver 122 can be directly or indirectly located on front panel 11, for example,
Driver 122 may include electric machine support G, and driving motor 1221 is fixedly mounted on electric machine support G, and electric machine support G can be straight
It connects or is indirectly attached on front panel 11;Gear mechanism 1222 includes at least one gear F, and gear mechanism 1222 and gear ring knot
Structure 1211B1 engaged transmission, driving motor 1221 are rotated by above-mentioned engaged transmission driving wind scooper 121.Driver 122 as a result,
Structure is simple, stable.
It is understood that the mode that driver 122 drives wind scooper 121 to rotate is without being limited thereto.
As shown in Figure 1-Figure 3, the first framework 1211 includes the first central part 1211A and first annular circle 1211B, the first ring
Shape circle 1211B is located at outside the first central part 1211A, and first annular circle 1211B and the first interval central part 1211A are arranged, and first
Annular ring 1211B can be coaxially disposed with the first central part 1211A, and first annular circle 1211B and the first central part 1211A it
Between limit first annular space, the first grid 1212 is located in first annular space, then the outer end of the first grid 1212 can be with
It is connected with first annular circle 1211B, the inner end of the first grid 1212 can be connected with the first central part 1211A;First grid
1212 include multiple first grizzly bar 1212A disposed in parallel, the multiple interval first grizzly bar 1212A settings, the gas at air outlet 111
Stream passes through the interval blowout between two neighboring first grizzly bar 1212A;Each first grizzly bar 1212A, which is limited, favours first
The wind-guiding face 1212A1 of the central axis setting of framework 1211, the wind-guiding face 1212A1 of each first grizzly bar 1212A can be formed
In the side of the thickness direction of the first grizzly bar 1212A, central axis of the wind-guiding face 1212A1 relative to corresponding first framework 1211
It is obliquely installed, so that wind-guiding face 1212A1 has certain wind-guiding angle, the air-flow at air outlet 111 can be along wind-guiding face
1212A1 flowing realizes that the whole extending direction towards wind-guiding face 1212A1 of corresponding air outlet 111 is blown.
Wherein, wind-guiding face 1212A1 can from inside to outside, towards at air outlet 111 air-flow downstream side direction extend, lead
The wind-guiding angle of wind face 1212A1 can be interior in 10 °~30 ° ranges (including endpoint value), but not limited to this.It should be noted that
Direction "inner" can be for close to the direction of the central axis of the first framework 1211, opposite direction be defined as "outside".
It is understood that the wind-guiding face 1212A1 of multiple first grizzly bar 1212A can be arranged substantially in parallel, then allow more
A first grizzly bar 1212A has certain foozle, installation error etc., convenient for the setting of wind scooper 121.In addition, wind scooper
The wind-guiding angle of 121 multiple first grizzly bar 1212A can remain constant;Alternatively, multiple first grizzly bars of wind scooper 121
At least one of 1212A can be rotated around the straight line extended along its length, so that at least one the first grizzly bar 1212A
The wind-guiding adjustable angle of wind-guiding face 1212A1, such as the wind-guiding adjustable angle of all the first grizzly bar 1212A in wind scooper 121
When, allow wind scooper 121 it is more flexible guidance air outlet 111 at airflow direction, the channeling direction of multiple wind scoopers 121
Can be identical or different, so that air conditioner 100 can have a variety of air-out effects, preferably to meet the differentiation need of user
It asks.Wherein, the wind-guiding angle of the first grizzly bar 1212A can be adjusted by the control device of air conditioner 100 and/or user adjusts manually
Section.
It should be noted that " multiple first grizzly bar 1212A are arranged in parallel " can be to the center of the multiple first grid 1212A
Line is arranged in parallel, and the center line of the first grizzly bar 1212A can be straight line or curve, i.e. the first grizzly bar 1212A can prolong along straight line
It stretches or extends along curve.For example, in the figure 2 example, each first grizzly bar 1212A is linear grizzly bar, it is further simplified
The structure of wind scooper 121, it is easy to process.
In further embodiment of the present invention, as shown in Figures 2 and 3, wind guiding component 12 further includes mounting bracket 123,
Mounting bracket 123 can be directly or indirectly fixed on front panel 11, and wind scooper 121 may be pivotally mounted to mounting bracket
123, it can be rotated around the central axis of the first framework 1211, such as could be formed with pivoting hole 1211A1 on wind scooper 121, pacify
It could be formed with pivotal axis on dress bracket 123, pivotal axis is rotatably assorted with pivoting hole 1211A1, realizes wind scooper 121 and installation
Bracket 123 is rotatedly connected;Certainly, pivotal axis may be formed as the component independently of wind scooper 121 and mounting bracket 123.
Mounting bracket 123 can play a supporting role to wind scooper 121 as a result, facilitate the installation of wind scooper 121, while convenient for real
The rotation of existing wind scooper 121.
Wherein, when the first framework 1211 includes the first central part 1211A and first annular circle 1211B, pivoting hole can be with
It is formed on the first central part 1211A.
The specific structure of mounting bracket 123 can be specifically arranged according to practical application;For example, in the example of Fig. 2 and Fig. 3
In, mounting bracket 123 includes second framework 1231, has the second grid 1232 in second framework 1231, the second grid 1232 can
To be arranged with 111 face of air outlet, and the second grid 1232 is located at the upstream of wind scooper 121, to a certain extent, the second grid
1232 can play the role of wind-guiding, so that the air-flow flowing at air outlet 111 is more steady, relieve heat be avoided to influence air conditioner 100
Air output.For example, when fan assembly 21 includes axial-flow windwheel 211, on the flow direction of air-flow, the second grid 1232
Between axial-flow windwheel 211 and the first grid 1212, the second grid 1232 can mitigate the relieve heat of axial-flow windwheel 211, so that axis
The outlet air of stream wind wheel 211 more concentratedly blows to air outlet 111.Certainly, the structure of mounting bracket 123 may be formed as cross
Bracket, but not limited to this.
Specifically, as shown in Figures 2 and 3, second framework 1231 is that circular frame makes in order to the setting of mounting bracket 123
Obtaining mounting bracket 123 can preferably match with air outlet 111, and mounting bracket 123 is avoided to influence air output;Second framework
1231 include that the second central part 1231A and the second annular ring 1231B, the second annular ring 1231B is located at the second central part 1231A
Outside, the second annular ring 1231B and the second interval central part 1231A are arranged, the second annular ring 1231B and the second central part 1231A
It can be coaxially disposed, and limit the second annular space, the second lattice between the second annular ring 1231B and the second central part 1231A
Grid 1232 are located in the second annular space, then the outer end of the second grid 1232 can be connected with the second annular ring 1231B, the second lattice
The inner end of grid 1232 can be connected with the second central part 1231A;Second grid 1232 includes multiple second grizzly bar 1232A, multiple
For second grizzly bar 1232A along the circumferentially-spaced distribution of the second annular ring 1231B, air-flow at air outlet 111 passes through two neighboring the
Interval blowout between two grizzly bar 1232A.
Wherein, the wind-guiding face 1212A1 of the second grizzly bar 1232A can be with the centerline axis parallel of second framework 1231.
Optionally, as shown in Fig. 2, each second grizzly bar 1232A is curved shape grizzly bar, convenient for simplifying mounting bracket 123
Structure.
Specifically, as shown in Fig. 2, having mounting ear 1233 in mounting bracket 123, mounting bracket 123 passes through mounting ear
1233 are forward-mounted the inside of plate 11, and mounting ear 1233 can be located at the edge of mounting bracket 123, so that mounting bracket
123 have biggish operating space in disassembly process, convenient for the operation of operating personnel.
In some embodiments of the invention, air outlet 111 be at least six, and multiple air outlets 111 include from
Air port 111C, the first discharge is discharged in first row air outlet 111A, the second row air outlet 111B and third that top to bottm is arranged successively
Air port 111A includes spaced first air outlet 111a and the second air outlet 111b, second row air outlet 111B from right to left
Including spaced third air outlet 111c and the 4th air outlet 111d from right to left, it includes from the right side that air port 111C, which is discharged, in third
To left spaced 5th air outlet 111e and the 6th air outlet 111f, six air outlets 111 in multiple air outlets 111 are in
Multiple lines and multiple rows arrangement, so that 111 rule arrangement of multiple air outlets, facilitates the processing of front panel 11.
It is understood that the arrangement of air outlet 111 is without being limited thereto.
Wind guiding component 12 is at least six, and multiple wind guiding components 12 include the first wind-guiding set on the first air outlet 111a
Component 12a, set on the second wind guiding component 12b of the second air outlet 111b, set on the third wind guiding component of third air outlet 111c
12c, the 4th wind guiding component 12d set on the 4th air outlet 111d, the 4th wind guiding component 12d set on the 4th air outlet 111d,
Set on the 5th wind guiding component 12e of the 5th air outlet 111e, set on the 6th wind guiding component 12f of the 6th air outlet 111f.As a result,
By at least six air outlets 111 and at least six wind guiding components 12, a variety of air-out effects of air conditioner 100 may be implemented, with
Preferably meet the refrigeration and/or heating needs of air conditioner 100.
It is understood that air outlet 111 and wind guiding component 12 can be six or more, such as air outlet 111 and lead
Wind component 12 can be eight, and air outlet 111 can be formed as four rows at this time, and every row's tool is but unlimited there are two air outlet 111
In this.
Optionally, the quantity of air outlet 111 is less than the quantity of vent passages 220, and at least two vent passages 220 pass through same
One air outlet 10 is blown outward, i.e., at least two vent passages 220 share the same air outlet 111;Alternatively, air outlet 111
Quantity be equal to the quantity of vent passages 220, multiple vent passages 220 and multiple air outlets 111 one by one face to blow outward,
Any two in i.e. multiple vent passages 220 do not share the same air outlet 111;Alternatively, the quantity of air outlet 111 is greater than
The quantity of vent passages 220, at least one vent passages 220 pass through at least two air-supplies outward of air outlet 111.
For example, in the example of fig. 1, the quantity of air outlet 111 is equal to the quantity of vent passages 220, air outlet 111 and logical
Wind channel 220 can be respectively six, and six air outlets are respectively that the first air outlet 111a, the second air outlet 111b, third go out
Air port 111c, the 4th air outlet 111d, the 5th air outlet 111e and the 6th air outlet 111f, six vent passages 220 are respectively
First vent passages 220a, the second vent passages 220b, third venting channel 220c, the 4th vent passages 220d, the 5th ventilation
Channel 220e and the 6th vent passages 220f;First vent passages 220a is corresponding with the first air outlet 111a and the first ventilation is logical
Road 220a is blown outward by the first air outlet 111a, and the second vent passages 220b is corresponding with the second air outlet 111b and second
Vent passages 220b is blown outward by the second air outlet 111b, third venting channel 220c is corresponding with third air outlet 111c,
And third venting channel 220c is blown outward by third air outlet 111c, the 4th vent passages 220d and the 4th air outlet 111d
Corresponding and the 4th vent passages 220d is blown outward by the 4th air outlet 111d, the 5th vent passages 220e and the 5th outlet air
Mouthful 111e is corresponding and the 5th vent passages 220e is blown outward by the 5th air outlet 111e, the 6th vent passages 220f and the
Six air outlet 111f are corresponding and the 6th vent passages 220f is blown outward by the 6th air outlet 111f.
As shown in Figure 1, fan part 2 can also include air-ducting ring 22, each vent passages 220 can be by a wind-guiding
Circle 22 limits, that is to say, that there are at least four air-ducting rings 22 in air conditioner 100, it can be mutual between multiple air-ducting rings 22
It is independent, guarantee that each vent passages 220 can blow by corresponding fan assembly 21.
Wherein, each air-ducting ring 22 can be generally formed into tubular structure, and air-ducting ring 22 is set in corresponding fan assembly 21
Outside.Each air-ducting ring 22 is shaped on the same frame plate 23 (as shown in Figure 1), so that multiple air-ducting rings 22 and frame
Plate 23, which is formed as a single piece, can not be split, and ensure that the connection reliability of air-ducting ring 22 Yu frame plate 23;Alternatively, each wind-guiding
Circle 22 is removably installed on the same frame plate 23, and air-ducting ring 22 and frame plate 23 are mutual independent component at this time, is used
The means of assembly link together, so that air conditioner 100 has good dismounting flexibility, are convenient for later maintenance;Alternatively, each
Air-ducting ring 22 is set on panel component 1, and each air-ducting ring 22 can be shaped on panel component 1 at this time, so that multiple
Air-ducting ring 22 is formed as that an entirety can not be split or each air-ducting ring 22 can be removably installed in panel component 1
On panel component 1, in order to the later maintenance of air conditioner 100.
Wherein, frame plate 23 can be installed in air conditioner 100;For example, in the example of fig. 1, air conditioner 100 may include
Base member 4, base member 4 are located at the bottom of air conditioner 100, and frame plate 23 is fixedly mounted on base member 4, base member 4
On the electric control gear 5 of air conditioner 100 can also be installed.
As shown in Figure 1, air conditioner 100 can have rear panel component 3, rear panel component 3 can be with 1 front and back of panel component
Setting, and rear panel component 3 is connected with panel component 1, the air inlet of air conditioner 100 can be formed on rear panel component 3.It is empty
Adjusting the heat-exchanger rig 6 of device 100 can be located between the air inlet and air outlet 111 of air conditioner 100 in the direction of the air flow, heat exchange dress
The bottom for setting 6 is equipped with drip tray, to collect condensed water and discharge condensed water;Each fan assembly 21 is each provided at 1 He of panel component
Between the heat-exchanger rig 6 of air conditioner 100, then in the direction of the air flow, each fan assembly 21 can be located under heat-exchanger rig 6
Trip.
Each fan assembly 21 includes motor 212 and at least one wind wheel 211, when fan assembly 21 includes a wind wheel
When 211, motor 212 drives the wind wheel 211 rotation, and when fan assembly 21 includes multiple wind wheels 211, motor 212 drives multiple
The rotation of at least one of wind wheel 211, multiple wind wheels 211 can be set gradually along the airflow direction of vent passages 220, but unlimited
In this.Wherein, the diameter of each wind wheel 211 is all larger than equal to 120mm and is less than or equal to 450mm, so that each wind wheel 211 has
There is suitable wind pressure, and meets the air output and air supplying distance of air conditioner 100, while the diameter of each wind wheel 211 is set
Rationally, processing, installation convenient for wind wheel 211 so that wind wheel 211 can be adapted for different air conditioners 100, while making to have leisure meter
It adjusts device 100 that there is suitable width, air conditioner 100 is avoided to occupy excessive space.Wherein, the diameter of wind wheel 211 is understood that
For the inswept diameter of a circle of wind wheel blade.
On the direction perpendicular to panel component 1, close to the blower fan group of the setting of heat-exchanger rig 6 in each vent passages 220
The distance between part 21 and heat-exchanger rig 6 are in the value range of 0.18D-0.55D, then when vent passages 220 are equipped with a wind
When thermomechanical components 21, the distance between the fan assembly 21 and heat-exchanger rig 6 meet above-mentioned requirements, when vent passages 220 are equipped with more
It is full close to the distance between one of the setting of heat-exchanger rig 6 and heat-exchanger rig 6 in multiple fan assemblies 21 when a fan assembly 21
Sufficient above-mentioned requirements.Wherein, D is that the diameter for all wind wheels 211 being arranged in whole vent passages 220 close to heat-exchanger rig 6 is average
Value.
The too small air inlet for leading to fan assembly 21 of the distance between fan assembly 21 and heat-exchanger rig 6 is avoided as a result, to make an uproar
Sound rises, while also avoiding that the distance between fan assembly 21 and heat-exchanger rig 6 are excessive to cause air conditioner 100 perpendicular to face
Size on 1 direction of plate component is larger, to take between the occupied space of air conditioner 100 and the inflow noise of fan assembly 21
Good balance was obtained, ensure that the applicability and practicability of air conditioner 100.
For example, in the example of fig. 1, wind wheel 211 is axial-flow windwheel 211, and fan part 2 can also include at least one wind
Machine stator blade 24, blower stator blade 24, which can be fixed, to be located on frame plate 23 or panel component 1, and blower stator blade 24 remains static, and
Blower stator blade 24 is located at the downstream of corresponding wind wheel 211, to reduce the relieve heat in 211 downstream side of wind wheel, guarantees the outlet air of air conditioner 100
Amount.As shown in Figure 1 and Figure 5, blower stator blade 24 and fan assembly 21 are respectively six, six blower stator blades 24 and six blower fan groups
Correspondence is arranged part 21 one by one, and each fan assembly 21 includes motor 212 and at least one wind wheel 211, blower stator blade 24
It is located at the downstream of corresponding wind wheel 211, the inside of the wheel hub of each blower stator blade 24 can be equipped with mounting bracket 212A, mounting bracket
212A is fixedly mounted on blower stator blade 24, and motor 212 is fixedly installed in corresponding mounting bracket 212A, in order to motor 212
Installation, and the vibration that blower stator blade 24 is transferred in 212 operational process of motor can be mitigated.
It is understood that when air conditioner 100 includes blower stator blade 24 and mounting bracket 123, the of mounting bracket 123
The structure of two grids 1232 can be identical as the structure of the wind guide vane of blower stator blade 24, in order to simplify structure, and effectively reduces
The relieve heat in corresponding 211 downstream side of wind wheel.
In the following, describing the refrigeration control method of air conditioner 100 according to an embodiment of the present invention referring to attached drawing.
Air conditioner 100 can have normal refrigeration mode and fast-refrigerating mode, be switched to fast-refrigerating in air conditioner 100
When mode, control the first wind guiding component 12a to the 6th wind guiding component 12f is rotated, so that first row air outlet 111A is integrally upward
Air-supply, whole two Lateral supplies to the left and right of second row air outlet 111B, the whole air-supply downwards of third discharge air port 111C, it is complete to realize
Room fast-refrigerating.
For example, in the example of Fig. 1, Fig. 2, Fig. 4 and Fig. 6, when air conditioner 100 is switched to fast-refrigerating mode, control the
One wind guiding component 12a, the second wind guiding component 12b, third wind guiding component 12c, the 4th wind guiding component 12d, the 5th wind guiding component 12e
It is rotated with the 6th wind guiding component 12f, the first wind guiding component 12a is turned to so that the air-flow at the first air outlet 111a is integrally upward
Blowout, the second wind guiding component 12b turn to the whole blowout upwards of air-flow so that at the second air outlet 111b, third wind guiding component
12c is turned to so that the air-flow at third air outlet 111c is integrally blown out to the right, and the 4th wind guiding component 12d is turned to so that the 4th
Air-flow at air outlet 111d is integrally blown out to the left, and the 5th wind guiding component 12e turns to the gas so that at the 5th air outlet 111e
The whole blowout downwards of stream, the 6th wind guiding component 12f turn to the whole blowout downwards of air-flow so that at the 6th air outlet 111f.
As a result, under fast-refrigerating mode, the cold wind of air conditioner 100 can be since the first row air outlet being arranged above and below
111A, second row air outlet 111B and third discharge air port 111C are sent out, and the first row air outlet 111A being located above is whole
Air-supply upwards, the underlying whole air-supply downwards of third discharge air port 111C, is located at first row air outlet 111A and third is arranged
Whole two Lateral supply to the left and right of second row air outlet 111B between air outlet 111C, may be implemented full room fast-refrigerating, with fast
Speed reduces indoor environment temperature, has good fast-refrigerating effect, improves the refrigerating efficiency of air conditioner 100.Wherein, " on
Side ", " lower section " are not necessarily referring to the top of air conditioner 100, lower section, but relative concept, i.e. first row air outlet 111A are relative to the
Two discharge air port 111B and third discharge air port 111C are located above, and air port 111C is discharged relative to first row air outlet in third
111A and second row air outlet 111B are located below.
It should be noted that " whole air-supply upwards " not only refers to that air-flow is blown out straight up, it can also refer to discharge air port
Air-flow at 111 tilts upward blowout relative to up and down direction, for example, air-flow can from left to right, bottom-up inclination blowout,
Or air-flow can from right to left, bottom-up inclination blowout, that is to say, that " upwards whole air-supply " may include straight up
Blow and tilt upward air-supply;Equally, " whole air-supply downwards " may include air-supply straight down and blow diagonally downward, " whole
Body is blown to the left " it may include that horizontal air-supply to the left and inclination are blown to the left, " whole to blow to the right " may include horizontally to the right
Air-supply and inclination are blown to the right.
In some embodiments of the invention, when air conditioner 100 is switched to normal refrigeration mode, the first wind-guiding group is controlled
Part 12a to the 6th wind guiding component 12f is rotated, so that first row air outlet 111A whole two Lateral supplies, second row outlet air to the left and right
Whole two Lateral supplies to the left and right of mouth 111B, whole two Lateral supply to the left and right of third discharge air port 111C, to maintain indoor environment temperature
Degree.
For example, in the example of Fig. 1, Fig. 2, Fig. 4 and Fig. 6, when air conditioner 100 is switched to normal refrigeration mode, control the
One wind guiding component 12a, the second wind guiding component 12b, third wind guiding component 12c, the 4th wind guiding component 12d, the 5th wind guiding component 12e
It is rotated with the 6th wind guiding component 12f, the first wind guiding component 12a is turned to so that the air-flow at the first air outlet 111a is whole to the right
Blowout, the second wind guiding component 12b is turned to so that air-flow the second air outlet 111b at is whole blows out to the left, third wind guiding component
12c is turned to so that the air-flow at third air outlet 111c is integrally blown out to the right, and the 4th wind guiding component 12d is turned to so that the 4th
Air-flow at air outlet 111d is integrally blown out to the left, and the 5th wind guiding component 12e turns to the gas so that at the 5th air outlet 111e
Stream is whole to be blown out to the right, and the 6th wind guiding component 12f is turned to so that the air-flow at the 6th air outlet 111f is integrally blown out to the left.
As a result, under normal refrigeration mode, the cold wind of air conditioner 100 can be since the first row air outlet being arranged above and below
111A, second row air outlet 111B and third discharge air port 111C are sent out, and the first row air outlet 111A being located above is whole
Two Lateral supply to the left and right, whole two Lateral supply to the left and right of underlying third discharge air port 111C, is located at first row air outlet
Whole two Lateral supply to the left and right of second row air outlet 111B between 111A and third discharge air port 111C, thus air conditioner 100
Encircling type air-supply may be implemented, avoid cold wind blow-through user, ensure that the comfort of user, while to a certain extent, it can be with
Maintain indoor environment temperature.
In some embodiments of the invention, each of first wind guiding component 12a to the 6th wind guiding component 12f is equal
Including multiple wind-guiding grizzly bar D disposed in parallel, each wind-guiding grizzly bar D limits the central axis for favouring corresponding air outlet 111
The wind-guiding inclined-plane E of line setting.For example, in the example of Fig. 1-Fig. 4, the first wind guiding component 12a, the second wind guiding component 12b, third
Each of wind guiding component 12c, the 4th wind guiding component 12d, the 5th wind guiding component 12e and the 6th wind guiding component 12f include
Multiple wind-guiding grizzly bar D, and multiple wind-guiding grizzly bar D of above-mentioned each wind guiding component 12 are arranged in parallel, and multiple intervals wind-guiding grizzly bar D
It is arranged, the air-flow at air outlet 111 passes through the interval blowout between two neighboring wind-guiding grizzly bar D, the wind-guiding of each wind-guiding grizzly bar D
Inclined-plane E can be formed in at least side of the thickness direction of wind-guiding grizzly bar D, and wind-guiding inclined-plane E is relative in corresponding air outlet 111
Mandrel line is obliquely installed, so that wind-guiding inclined-plane E has certain wind-guiding angle, the air-flow at air outlet 111 can be oblique along wind-guiding
E flowing in face realizes that the whole extending direction towards wind-guiding inclined-plane E of corresponding air outlet 111 is blown.
Wherein, wind-guiding grizzly bar D can be previously described " the first grizzly bar 1212A ", and wind-guiding inclined-plane E can be described previously
" wind-guiding face 1212A1 ".Wind-guiding inclined-plane E can extend from inside to outside, towards the direction in the downstream side of air-flow at air outlet 111,
The wind-guiding angle of wind-guiding inclined-plane E can be interior in 10 °~30 ° ranges (including endpoint value), but not limited to this.It should be noted that
Direction "inner" can be for close to the direction of the central axis of air outlet 111, opposite direction be defined as "outside".
It is understood that the wind-guiding inclined-plane E of multiple wind-guiding grizzly bar D can be arranged substantially in parallel, then allow multiple wind-guidings
Grizzly bar D has certain foozle, installation error etc., convenient for the setting of wind guiding component 12.In addition, wind guiding component 12 is multiple
The wind-guiding angle of wind-guiding grizzly bar D can remain constant;Alternatively, at least one in multiple wind-guiding grizzly bar D of wind guiding component 12
It is a to be rotated around the straight line extended along its length, so that the wind-guiding angle of the wind-guiding inclined-plane E of at least one wind-guiding grizzly bar D
It is adjustable, for example, whole wind-guiding grizzly bar D in wind guiding component 12 wind-guiding adjustable angle when, wind guiding component 12 is flexibly drawn
The airflow direction at air port 111 is exported, the channeling direction of multiple wind guiding components 12 can be identical or different, thus air conditioner 100
It can have a variety of air-out effects, preferably to meet the differentiated demand of user.Wherein, the wind-guiding angle of wind-guiding grizzly bar D can
To be manually adjusted by the adjusting of the control device of air conditioner 100 and/or user.
It should be noted that " multiple wind-guiding grizzly bar D are arranged in parallel " can refer to that the centerline parallel of multiple wind-guiding grizzly bar D is set
It sets, the center line of wind-guiding grizzly bar D can be straight line or curve, i.e. wind-guiding grizzly bar D can extend along linear extension or along curve.
As shown in figs 2-4, the length direction of whole wind-guiding grizzly bar D in each wind guiding component 12 is horizontal direction, and
When the wind-guiding inclined-plane E of whole wind-guiding grizzly bar D in each wind guiding component 12 tilts extension upwards, wind guiding component 12 is located at 0 ° of position
It sets, wind guiding component 12 can make the air-flow at air outlet 111 blow out straight up at this time.Wherein, wind guiding component 12 is from 0 ° of position
Set that the angle turned over counterclockwise is positive-angle, the angle that turns over clockwise is negative angle.
When air conditioner 100 is switched to fast-refrigerating mode, angle position locating for the first wind guiding component 12a is controlled are as follows:-
15 °~15 °, so that the whole blowout upwards of air-flow at the first air outlet 111a, controls angle locating for the second wind guiding component 12b
Position are as follows: -15 °~15 °, so that the whole blowout upwards of air-flow at the second air outlet 111b, controls third wind guiding component 12c institute
The angle position at place are as follows: 255 °~285 °, so that the air-flow at third air outlet 111c is integrally blown out to the right, control the 4th wind-guiding
Angle position locating for component 12d are as follows: 75 °~105 °, so that the air-flow at the 4th air outlet 111d is integrally blown out to the left, control
Angle position locating for 5th wind guiding component 12e are as follows: 165 °~195 °, so that the air-flow at the 5th air outlet 111e is integrally downward
Blowout controls angle position locating for the 6th wind guiding component 12f are as follows: and 165 °~195 °, so that the gas at the 6th air outlet 111f
The whole blowout downwards of stream.When air conditioner 100 is switched to fast-refrigerating mode as a result, first row air outlet 111A is integrally sent upwards
The whole air-supply downwards of whole two Lateral supplies to the left and right of wind, second row air outlet 111B, third discharge air port 111C, realizes that full room is fast
Speed refrigeration.
It should be noted that above-mentioned " angle position " can indicate corresponding wind guiding component 12 on the basis of 0 ° of position
Target position under fast-refrigerating mode;For example, when air conditioner 100 is switched to fast-refrigerating mode, the first wind-guiding of control
Angle position locating for component 12a is -15 °~15 °, it can be understood as, when air conditioner 100 switches to fast-refrigerating mode, the
One wind guiding component 12a can be turned in -15 °~15 ° of target area, and the first wind guiding component 12a can the clockwise or inverse time
Needle turns to above-mentioned zone, and the first wind guiding component 12a may remain in any position in the region, can also be in the region
Interior reciprocating rotation need to only guarantee under fast-refrigerating mode that the first wind guiding component 12a is in always in the region.
In another example when air conditioner 100 is switched to fast-refrigerating mode, angle locating for control third wind guiding component 12c
Position is 255 °~285 °, it can be understood as, when air conditioner 100 switches to fast-refrigerating mode, third wind guiding component 12c can be with
It turning in 255 °~285 ° of target area, third wind guiding component 12c can be rotated clockwise or counterclockwise to above-mentioned zone,
And third wind guiding component 12c may remain in any position in the region, can also reciprocating rotation in the area, only need to protect
Under fast-refrigerating mode, third wind guiding component 12c is in the region card always.Wherein, 255 °~285 ° of region
- 105 °~-75 ° can also be denoted as.
For another example when air conditioner 100 is switched to fast-refrigerating mode, angle locating for the 5th wind guiding component 12e of control
Position is 165 °~195 °, it can be understood as, when air conditioner 100 switches to fast-refrigerating mode, the 5th wind guiding component 12e can be with
It turning in 165 °~195 ° of target area, the 5th wind guiding component 12e can be rotated clockwise or counterclockwise to above-mentioned zone,
And the 5th wind guiding component 12e may remain in any position in the region, can also reciprocating rotation in the area, only need to protect
Under fast-refrigerating mode, the 5th wind guiding component 12e is in the region card always.Wherein, 165 °~195 ° of region
- 195 °~-165 ° can also be denoted as.
It is understood that air conditioner 100, before switching to fast-refrigerating mode, the first wind guiding component 12a, second are led
Wind component 12b, third wind guiding component 12c, the 4th wind guiding component 12d, the 5th wind guiding component 12e and the 6th wind guiding component 12f can
To be in unspecified angle position, and it is not limited to 0 ° of position;For example, air conditioner 100 is before switching to fast-refrigerating mode, first
Wind guiding component 12a is in -15 °~15 ° of region, if air conditioner 100 switches to fast-refrigerating mode at this time, first is led
Wind component 12a may not need movement, and to simplify the control logic of air conditioner 100, certainly, the first wind guiding component 12a can also be by
It is acted according to the corresponding control logic of air conditioner 100, and it is without being limited thereto.
In a specific example of the invention, when air conditioner 100 is switched to fast-refrigerating mode, the first wind-guiding is controlled
Angle position locating for component 12a is 0 °, so that the roughly vertical upward blowout of air-flow at the first air outlet 111a, control second
Angle position locating for wind guiding component 12b is 0 °, so that the roughly vertical upward blowout of air-flow at the second air outlet 111b, control
Angle position locating for third wind guiding component 12c is 270 °, is blown to the right so that the air-flow at third air outlet 111c is approximate horizontal
Out, controlling angle position locating for the 4th wind guiding component 12d is 90 °, so that the air-flow at the 4th air outlet 111d is approximate horizontal
It blows out to the left, controlling angle position locating for the 5th wind guiding component 12e is 180 °, so that the air-flow at the 5th air outlet 111e is big
Cause is blown out straight down, and controlling angle position locating for the 6th wind guiding component 12f is 180 °, so that at the 6th air outlet 111f
The roughly vertical downward blowout of air-flow.
Specifically, when air conditioner 100 is switched to normal refrigeration mode, angle locating for the first wind guiding component 12a is controlled
Position are as follows: 255 °~285 °, so that the air-flow at the first air outlet 111a is integrally blown out to the right, control the second wind guiding component 12b
Locating angle position are as follows: 75 °~105 °, so that the air-flow at the second air outlet 111b is integrally blown out to the left, control third is led
Angle position locating for wind component 12c are as follows: 255 °~285 °, so that the air-flow at third air outlet 111c is integrally blown out to the right,
Control angle position locating for the 4th wind guiding component 12d are as follows: 75 °~105 °, so that the air-flow at the 4th air outlet 111d is whole
It blows out to the left, controls angle position locating for the 5th wind guiding component 12e are as follows: 255 °~285 °, so that at the 5th air outlet 111e
Air-flow integrally blow out to the right, control the 6th wind guiding component 12f locating for angle position are as follows: 75 °~105 ° so that the 6th outlet air
Air-flow at mouth 111f is integrally blown out to the left.When air conditioner 100 is switched to normal refrigeration mode as a result, first row air outlet
Whole two Lateral supplies to the left and right of 111A, whole two Lateral supplies to the left and right of second row air outlet 111B, third discharge air port 111C are whole
Two Lateral supplies to maintain indoor environment temperature avoids cold wind blow-through user to body to the left and right.
In a specific example of the invention, when air conditioner 100 is switched to normal refrigeration mode, the first wind-guiding is controlled
Angle position locating for component 12a is 270 °, is blown out to the right so that air-flow the first air outlet 111a at is approximate horizontal, controls the
Angle position locating for two wind guiding component 12b is 90 °, is blown out to the left so that the air-flow at the second air outlet 111b is approximate horizontal,
Controlling angle position locating for third wind guiding component 12c is 270 ° so that air-flow at third air outlet 111c it is approximate horizontal to
Right blowout, controlling angle position locating for the 4th wind guiding component 12d is 90 °, so that the air-flow at the 4th air outlet 111d is substantially
Level is blown out to the left, and controlling angle position locating for the 5th wind guiding component 12e is 270 °, so that the gas at the 5th air outlet 111e
Flow it is approximate horizontal blow out to the right, control the 6th wind guiding component 12f locating for angle position be 90 ° so that the 6th air outlet 111f
The air-flow at place is approximate horizontal to be blown out to the left.
For example, in the example of fig. 1, air conditioner 100 includes first fan assembly opposite with the first air outlet 111a
21a, the second fan assembly 21b opposite with the second air outlet 111b, the third fan assembly opposite with third air outlet 111c
21c, the four fan device component 21d opposite with the 4th air outlet 111d, fiveth fan assembly opposite with the 5th air outlet 111e
The first outlet air may be implemented in 21e, the 6th fan assembly 21f opposite with the 6th air outlet 111f, the first fan assembly 21a operation
The second air outlet 111b outlet air, third fan assembly 21c operation may be implemented in mouth 111a outlet air, the second fan assembly 21b operation
Third air outlet 111c outlet air may be implemented, four fan device component 21d, which is run, may be implemented the 4th air outlet 111d outlet air, and the 5th
The 5th air outlet 111e outlet air may be implemented in fan assembly 21e operation, and the 6th outlet air may be implemented in the 6th fan assembly 21f operation
Mouth 111f outlet air.
When air conditioner 100 is switched to fast-refrigerating mode, the first fan assembly 21a revolving speed and the second fan assembly are controlled
The revolving speed of 21b is all larger than the revolving speed of any of third fan assembly 21c and four fan device component 21d, controls third blower fan group
The revolving speed of part 21c revolving speed and four fan device component 21d are all larger than any in the 5th fan assembly 21e and the 6th fan assembly 21f
A revolving speed.Specifically, when air conditioner 100 is switched to fast-refrigerating mode, the revolving speed of the first fan assembly 21a is greater than third wind
The revolving speed of the revolving speed of thermomechanical components 21c and the first fan assembly 21a are greater than the revolving speed of four fan device component 21d, the second fan assembly
The revolving speed of revolving speed of the revolving speed of 21b greater than third fan assembly 21c and the second fan assembly 21b are greater than four fan device component 21d
Revolving speed, the revolving speed of the revolving speed of the revolving speed of third fan assembly 21c greater than the 5th fan assembly 21e and third fan assembly 21c
Greater than the revolving speed of the 6th fan assembly 21f, revolving speed of the revolving speed greater than the 5th fan assembly 21e of four fan device component 21d and the
The revolving speed of four fan device component 21d is greater than the revolving speed of the 6th fan assembly 21f.
Accordingly, for first row air outlet 111A, second row air outlet 111B and the third row set gradually from top to bottom
For air outlet 111C, the revolving speed of the corresponding fan assembly 21 of first row air outlet 111A is corresponding greater than second row air outlet 111B
The revolving speed of fan assembly 21 be greater than the revolving speed of the corresponding fan assembly 21 of third discharge air port 111C, air output is up big and down small
(such as can be distinguished with the center of the line of centres for the air outlet 111 being arranged above and below up and down, but not limited to this), so that quick
Under refrigeration mode, most of cold wind of air conditioner 100 is principally from above and the left and right sides is sent out, and small part cold wind is sent from below
Out, since the density of cold air is greater than atmospheric density, there is downward trend, further ensure the quick system of air conditioner 100
Cold effect, and under fast-refrigerating mode, the cold wind of air conditioner 100 will not blow to the foot of user, waist, further ensure
The comfort of user.
Specifically, when air conditioner 100 is switched to fast-refrigerating mode, the first fan assembly 21a revolving speed and second is controlled
The revolving speed of fan assembly 21b is 1.1~1.3 times of preset rotation speed, controls third fan assembly 21c revolving speed and four fan device group
The revolving speed of part 21d is 0.9~1.1 times of preset rotation speed, controls the 5th fan assembly 21e revolving speed and the 6th fan assembly 21f
Revolving speed be 0.6~0.9 times of preset rotation speed.Thereby it is ensured that the refrigerating capacity of air conditioner 100, while fan assembly 21 is transported
Turn stabilization, revolving speed setting rationally, to a certain extent, can play the role of energy-efficient.
Wherein, preset rotation speed can be located between the minimum speed and maximum (top) speed of corresponding fan assembly 21, i.e., note is default
Revolving speed is N, minimum speed Nmin, maximum (top) speed Nmax, then Nmin< N < Nmax;For example, the first fan assembly 21a's is default
Maximum (top) speed of the revolving speed less than the first fan assembly 21a and the minimum speed for being greater than the first fan assembly 21a.Optionally, first
The preset rotation speed of fan assembly 21a to the 6th fan assembly 21f can be identical.
Optionally, under fast-refrigerating mode, the revolving speed of the first fan assembly 21a can be with the second fan assembly 21b's
Revolving speed is equal, and the revolving speed of third fan assembly 21c can be equal with the revolving speed of four fan device component 21d, the 5th fan assembly 21e
Revolving speed can be equal with the revolving speed of the 6th fan assembly 21f, to simplify the control logic of air conditioner 100.But not limited to this.
In a specific example of the invention, when air conditioner 100 is switched to fast-refrigerating mode, the first blower is controlled
The revolving speed of the revolving speed of component 21a and the second fan assembly 21b are 1.2 times of preset rotation speed, control third fan assembly 21c's
The revolving speed of revolving speed and four fan device component 21d are preset rotation speed, control the 5th fan assembly 21e revolving speed and the 6th fan assembly
The revolving speed of 21f is 0.7 times of preset rotation speed.
Specifically, when air conditioner 100 is switched to normal refrigeration mode, the first fan assembly 21a revolving speed and second is controlled
The revolving speed of fan assembly 21b is 0.9~1.1 times of preset rotation speed, controls third fan assembly 21c revolving speed and four fan device group
The revolving speed of part 21d is 0.8~1.0 times of preset rotation speed, controls the 5th fan assembly 21e revolving speed and the 6th fan assembly 21f
Revolving speed be 0.7~0.9 times of preset rotation speed.Air conditioner 100 can be maintained as a result, with the low-speed running of fan assembly 21
Indoor environment temperature, energy saving.
Optionally, when air conditioner 100 is switched to normal refrigeration mode, can control the first fan assembly 21a revolving speed and
The revolving speed of second fan assembly 21b is all larger than the revolving speed of any of third fan assembly 21c and four fan device component 21d, control
The revolving speed of third fan assembly 21c revolving speed and four fan device component 21d processed is all larger than the 5th fan assembly 21e and the 6th blower fan group
The revolving speed of any of part 21f.Accordingly, for first row air outlet 111A, the second row air outlet set gradually from top to bottom
For 111B and third discharge air port 111C, the revolving speed of the corresponding fan assembly 21 of first row air outlet 111A is greater than the second discharge
The revolving speed of the corresponding fan assembly 21 of air port 111B is greater than the revolving speed of the corresponding fan assembly 21 of third discharge air port 111C, so that
Under normal refrigeration mode, most of cold wind of air conditioner 100 is mainly sent out from the left and right sides, and the cold wind lower of top
Cold wind is more, since the density of cold air is greater than atmospheric density, has downward trend, convenient for guaranteeing that indoor environment temperature is more equal
Weighing apparatus.
Optionally, under normal refrigeration mode, the revolving speed of the first fan assembly 21a can be with the second fan assembly 21b's
Revolving speed is equal, and the revolving speed of third fan assembly 21c can be equal with the revolving speed of four fan device component 21d, the 5th fan assembly 21e
Revolving speed can be equal with the revolving speed of the 6th fan assembly 21f, to simplify the control logic of air conditioner 100.But not limited to this.
In a specific example of the invention, when air conditioner 100 is switched to normal refrigeration mode, the first blower is controlled
The revolving speed of the revolving speed of component 21a and the second fan assembly 21b are preset rotation speed, control third fan assembly 21c revolving speed and
The revolving speed of four fan device component 21d is 0.9 times of preset rotation speed, controls the 5th fan assembly 21e revolving speed and the 6th blower fan group
The revolving speed of part 21f is 0.8 times of preset rotation speed.
In some embodiments of the invention, as shown in fig. 6, when air conditioner 100 receives refrigeration instruction, air conditioner
The inlet air temperature of 100 detection air conditioners 100, when the inlet air temperature of detection is greater than the first setting value, control air conditioner 100 switches
For fast-refrigerating mode.Specifically, refrigeration instruction can be issued by user, such as when user opens air conditioner 100 and inputs system
When cold finger enables, air conditioner 100 detects inlet air temperature, if inlet air temperature is greater than the first setting value, air conditioner 100 is switched to fastly
Fast refrigeration mode meets user demand to quickly reduce indoor environment temperature to carry out fast-refrigerating to full room.Wherein,
One setting value can be set by the user.
It is understood that when air conditioner 100 receives refrigeration instruction, if the inlet air temperature of detection is less than or equal to first
Setting value, air conditioner 100 can enter normal refrigeration mode, but not limited to this.
In addition, after air conditioner 100 is switched to fast-refrigerating mode, air conditioner 100 can with real-time detection inlet air temperature, if
Inlet air temperature is still greater than the first setting value, then air conditioner 100 may remain in fast-refrigerating mode, if inlet air temperature be less than etc.
In the first setting value, indoor environment temperature is to meet user demand, and air conditioner 100 may not need continuation fast-refrigerating, this space-time
Device 100 is adjusted to switch to other mode operations such as normal refrigeration mode or be continually maintained in fast-refrigerating mode.
In some embodiments of the invention, as shown in fig. 6, under normal refrigeration mode, 100 real-time detection of air conditioner is empty
The inlet air temperature for adjusting device 100, when the inlet air temperature of detection is greater than the first setting value, control air conditioner 100 is switched to quick system
Cold mode.It specifically, can be with real-time detection inlet air temperature, if inlet air temperature is big when air conditioner 100 is in normal refrigeration mode
In the first setting value, indoor environment temperature is unable to satisfy user demand, and air conditioner 100 can be switched to fast-refrigerating mode, with
To full room fast cooling, guarantee the comfort of indoor environment.
It is understood that under normal refrigeration mode, it is empty if the inlet air temperature of detection is less than or equal to the first setting value
Adjust device 100 that can be continually maintained in normal refrigeration mode, but not limited to this.
In some embodiments of the invention, as shown in fig. 6, under fast-refrigerating mode, 100 real-time detection of air conditioner is empty
The inlet air temperature for adjusting device 100, when the inlet air temperature of detection is less than or equal to the second setting value, control air conditioner 100 is switched to general
Logical refrigeration mode.It specifically, can be with real-time detection inlet air temperature, if air inlet temperature when air conditioner 100 is in fast-refrigerating mode
Degree is less than or equal to the second setting value, and indoor environment temperature has met user demand, and air conditioner 100 can be switched to common refrigeration mould
Formula guarantees the comfort of indoor environment to maintain room temperature.Wherein, the second setting value can be set by the user, the second setting
Value can be equal with the first setting value or differs.
It is understood that under fast-refrigerating mode, if the inlet air temperature of detection is greater than the second setting value, air conditioner
100 can be continually maintained in fast-refrigerating mode, but not limited to this.
In the following, describing the heat-production control method of air conditioner 100 according to an embodiment of the present invention referring to attached drawing.
Air conditioner 100 can have common heating mode and quick heating mode, be switched to quick heating in air conditioner 100
When mode, control the first wind guiding component 12a to the 6th wind guiding component 12f is rotated, so that first row air outlet 111A is whole to the left
The whole air-supply downwards of right two Lateral supplies, second row air outlet 111B, the whole air-supply downwards of third discharge air port 111C, it is complete to realize
Room quickly heats.
For example, in the example of Fig. 1, Fig. 2, Fig. 4 and Fig. 6, when air conditioner 100 is switched to quick heating mode, control the
One wind guiding component 12a, the second wind guiding component 12b, third wind guiding component 12c, the 4th wind guiding component 12d, the 5th wind guiding component 12e
It is rotated with the 6th wind guiding component 12f, the first wind guiding component 12a is turned to so that the air-flow at the first air outlet 111a is whole to the right
Blowout, the second wind guiding component 12b is turned to so that air-flow the second air outlet 111b at is whole blows out to the left, third wind guiding component
12c is turned to so that air-flow whole blowout, the 4th wind guiding component 12d downwards at third air outlet 111c are turned to so that the 4th
The whole blowout downwards of air-flow at air outlet 111d, the 5th wind guiding component 12e rotate the air-flow so that at the 5th air outlet 111e
Whole blowout downwards, the 6th wind guiding component 12f rotate the whole blowout downwards of air-flow so that at the 6th air outlet 111f.
As a result, under quick heating mode, the hot wind of air conditioner 100 can be since the first row air outlet being arranged above and below
111A, second row air outlet 111B and third discharge air port 111C are sent out, and the first row air outlet 111A being located above is whole
Two Lateral supply to the left and right, to accelerate indoor air flow flowing, enhancing indoor air flow disturbance, air port 111C is discharged in underlying third
Whole air-supply downwards, the second row air outlet 111B between first row air outlet 111A and third discharge air port 111C are whole
Air-supply downwards, may be implemented full room and quickly heats, and with fast lifting indoor environment temperature, have good quick heating efficiency,
Improve the heating efficiency of air conditioner 100.
Wherein, " top ", " lower section " are not necessarily referring to the top of air conditioner 100, lower section, but relative concept, i.e., the first discharge
Air port 111A is located above relative to second row air outlet 111B and third discharge air port 111C, and it is opposite that air port 111C is discharged in third
It is located below in first row air outlet 111A and second row air outlet 111B.
It should be noted that " whole air-supply downwards " not only refers to that air-flow is blown out straight down, it can also refer to discharge air port
Air-flow at 111 is blown out diagonally downward relative to up and down direction, such as air-flow can tilt blowout from left to right, from up to down,
Or air-flow can tilt blowout from right to left, from up to down, that is to say, that " whole air-supply downwards " may include straight down
It blows and blows diagonally downward;Equally, " whole to blow to the left " may include that horizontal air-supply to the left and inclination are blown to the left, " whole
Body is blown to the right " it may include blowing and tilting horizontally to the right to blow to the right.
In some embodiments of the invention, when air conditioner 100 is switched to common heating mode, the first wind-guiding group is controlled
Part 12a to the 6th wind guiding component 12f is rotated, so that first row air outlet 111A whole two Lateral supplies, second row outlet air to the left and right
Whole two Lateral supplies to the left and right of mouth 111B, third discharge air port 111C entirety are blown downwards.
For example, in the example of Fig. 1, Fig. 2, Fig. 4 and Fig. 6, when air conditioner 100 is switched to common heating mode, control the
One wind guiding component 12a, the second wind guiding component 12b, third wind guiding component 12c, the 4th wind guiding component 12d, the 5th wind guiding component 12e
It is rotated with the 6th wind guiding component 12f, the first wind guiding component 12a is turned to so that the air-flow at the first air outlet 111a is whole to the right
Blowout, the second wind guiding component 12b is turned to so that air-flow the second air outlet 111b at is whole blows out to the left, third wind guiding component
12c is turned to so that the air-flow at third air outlet 111c is integrally blown out to the right, and the 4th wind guiding component 12d is turned to so that the 4th
Air-flow at air outlet 111d is integrally blown out to the left, and the 5th wind guiding component 12e turns to the gas so that at the 5th air outlet 111e
The whole blowout downwards of stream, the 6th wind guiding component 12f turn to the whole blowout downwards of air-flow so that at the 6th air outlet 111f.
As a result, under common heating mode, the hot wind of air conditioner 100 can be since the first row air outlet being arranged above and below
111A, second row air outlet 111B and third discharge air port 111C are sent out, and the first row air outlet 111A being located above is whole
Two Lateral supply to the left and right, the whole air-supply downwards of underlying third discharge air port 111C, be located at first row air outlet 111A and
Whole two Lateral supply to the left and right of the second row air outlet 111B between the 111C of air port is discharged in third, so that air conditioner 100 can be real
Existing encircling type air-supply, ensure that the comfort of user, while to a certain extent, can maintain indoor environment temperature.
In some embodiments of the invention, each of first wind guiding component 12a to the 6th wind guiding component 12f is equal
Including multiple wind-guiding grizzly bar D disposed in parallel, each wind-guiding grizzly bar D limits the central axis for favouring corresponding air outlet 111
The wind-guiding inclined-plane E of line setting.For example, in the example of Fig. 2 and Fig. 3, the first wind guiding component 12a, the second wind guiding component 12b,
Each of three wind guiding component 12c, the 4th wind guiding component 12d, the 5th wind guiding component 12e and the 6th wind guiding component 12f are wrapped
Multiple wind-guiding grizzly bar D are included, and multiple wind-guiding grizzly bar D of above-mentioned each wind guiding component 12 are arranged in parallel, each wind-guiding grizzly bar D's leads
Wind inclined-plane E can be formed in at least side of the thickness direction of wind-guiding grizzly bar D, and wind-guiding inclined-plane E is relative to corresponding air outlet 111
Central axis is obliquely installed, so that wind-guiding inclined-plane E has certain wind-guiding angle, the air-flow at air outlet 111 can be along wind-guiding
E flowing in inclined-plane realizes that the whole extending direction towards wind-guiding inclined-plane E of corresponding air outlet 111 is blown.
Wherein, wind-guiding inclined-plane E can extend from inside to outside, towards the direction in the downstream side of air-flow at air outlet 111, wind-guiding
The wind-guiding angle of inclined-plane E can be interior in 10 °~30 ° ranges (including endpoint value), but not limited to this.It should be noted that direction
"inner" can be for close to the direction of the central axis of air outlet 111, opposite direction be defined as "outside".
It is understood that the wind-guiding inclined-plane E of multiple wind-guiding grizzly bar D can be arranged substantially in parallel, then allow multiple wind-guidings
Grizzly bar D has certain foozle, installation error etc., convenient for the setting of wind guiding component 12.In addition, wind guiding component 12 is multiple
The wind-guiding angle of wind-guiding grizzly bar D can remain constant;Alternatively, at least one in multiple wind-guiding grizzly bar D of wind guiding component 12
It is a to be rotated around the straight line extended along its length, so that the wind-guiding angle of the wind-guiding inclined-plane E of at least one wind-guiding grizzly bar D
It is adjustable, for example, whole wind-guiding grizzly bar D in wind guiding component 12 wind-guiding adjustable angle when, wind guiding component 12 is flexibly drawn
The airflow direction at air port 111 is exported, the channeling direction of multiple wind guiding components 12 can be identical or different, thus air conditioner 100
It can have a variety of air-out effects, preferably to meet the differentiated demand of user.Wherein, the wind-guiding angle of wind-guiding grizzly bar D can
To be manually adjusted by the adjusting of the control device of air conditioner 100 and/or user.
It should be noted that " multiple wind-guiding grizzly bar D are arranged in parallel " can refer to that the centerline parallel of multiple wind-guiding grizzly bar D is set
It sets, the center line of wind-guiding grizzly bar D can be straight line or curve, i.e. wind-guiding grizzly bar D can extend along linear extension or along curve.
As shown in figs 2-4, the length direction of whole wind-guiding grizzly bar D in each wind guiding component 12 is horizontal direction, and
When the wind-guiding inclined-plane E of whole wind-guiding grizzly bar D in each wind guiding component 12 tilts extension upwards, wind guiding component 12 is located at 0 ° of position
It sets, wind guiding component 12 can make the air-flow at air outlet 111 blow out straight up at this time.Wherein, wind guiding component 12 is from 0 ° of position
Set that the angle turned over counterclockwise is positive-angle, the angle that turns over clockwise is negative angle.
When air conditioner 100 is switched to quick heating mode, angle position locating for the first wind guiding component 12a is controlled are as follows:
255 °~285 °, so that the air-flow at the first air outlet 111a is integrally blown out to the right, control angle locating for the second wind guiding component 12b
Spend position are as follows: 75 °~105 °, so that the air-flow at the second air outlet 111b is integrally blown out to the left, control third wind guiding component 12c
Locating angle position are as follows: 165 °~195 °, so that the whole blowout downwards of air-flow at third air outlet 111c, control the 4th are led
Angle position locating for wind component 12d are as follows: 165 °~195 °, so that the whole blowout downwards of air-flow at the 4th air outlet 111d,
Control angle position locating for the 5th wind guiding component 12e are as follows: 165 °~195 °, so that the air-flow at the 5th air outlet 111e is whole
Blowout downwards controls angle position locating for the 6th wind guiding component 12f are as follows: and 165 °~195 °, so that at the 6th air outlet 111f
The whole blowout downwards of air-flow.When air conditioner 100 is switched to quick heating mode as a result, first row air outlet 111A it is whole to
The whole air-supply downwards of air port 111C, air conditioner is discharged in left and right sides air-supply, the whole air-supply downwards of second row air outlet 111B, third
100 most of hot wind can be blown out downwards, realize that full room quickly heats.
Relative in traditional technology, the higher air output for leading to poor, the round cabinet of heating effect of the outlet air open height of square cabinet is insufficient,
Good heating effect may be implemented by the way that reasonable air supply direction, air output is arranged in air conditioner 100 in the application.
It should be noted that above-mentioned " angle position " can indicate corresponding wind guiding component 12 on the basis of 0 ° of position
Target position under quick heating mode;For example, when air conditioner 100 is switched to quick heating mode, the first wind-guiding of control
Angle position locating for component 12a is 255 °~285 °, it can be understood as, when air conditioner 100 switches to fast-refrigerating mode, the
One wind guiding component 12a can be turned in 255 °~285 ° of target area, and the first wind guiding component 12a can the clockwise or inverse time
Needle turns to above-mentioned zone, and the first wind guiding component 12a may remain in any position in the region, can also be in the region
Interior reciprocating rotation need to only guarantee under quick heating mode that the first wind guiding component 12a is in always in the region.Wherein,
255 °~285 ° of region can also be denoted as -105 °~-75 °.
In another example when air conditioner 100 is switched to quick heating mode, angle locating for the 5th wind guiding component 12e of control
Position is 165 °~195 °, it can be understood as, when air conditioner 100 switches to quick heating mode, the 5th wind guiding component 12e can be with
It turning in 165 °~195 ° of target area, the 5th wind guiding component 12e can be rotated clockwise or counterclockwise to above-mentioned zone,
And the 5th wind guiding component 12e may remain in any position in the region, can also reciprocating rotation in the area, only need to protect
Under quick heating mode, the 5th wind guiding component 12e is in the region card always.Wherein, 165 °~195 ° of region
- 195 °~-165 ° can also be denoted as.
It is understood that air conditioner 100, before switching to quick heating mode, the first wind guiding component 12a, second are led
Wind component 12b, third wind guiding component 12c, the 4th wind guiding component 12d, the 5th wind guiding component 12e and the 6th wind guiding component 12f can
To be in unspecified angle position, and it is not limited to 0 ° of position;For example, air conditioner 100 is before switching to quick heating mode, first
Wind guiding component 12a is in 255 °~285 ° of region, if air conditioner 100 switches to quick heating mode at this time, first
Wind guiding component 12a may not need movement, and to simplify the control logic of air conditioner 100, certainly, the first wind guiding component 12a can be with
It is acted according to the corresponding control logic of air conditioner 100, and it is without being limited thereto.
In a specific example of the invention, when air conditioner 100 is switched to quick heating mode, the first wind-guiding is controlled
Angle position locating for component 12a is 270 °, is blown out to the right so that air-flow the first air outlet 111a at is approximate horizontal, controls the
Angle position locating for two wind guiding component 12b is 90 °, is blown out to the left so that the air-flow at the second air outlet 111b is approximate horizontal,
Controlling angle position locating for third wind guiding component 12c is 180 ° so that air-flow at third air outlet 111c it is roughly vertical to
Lower blowout, controlling angle position locating for the 4th wind guiding component 12d is 180 °, so that the air-flow at the 4th air outlet 111d is substantially
It blows out straight down, controlling angle position locating for the 5th wind guiding component 12e is 180 °, so that the gas at the 5th air outlet 111e
Roughly vertical downward blowout is flowed, controlling angle position locating for the 6th wind guiding component 12f is 180 °, so that the 6th air outlet 111f
The roughly vertical downward blowout of the air-flow at place.
Specifically, when air conditioner 100 is switched to common heating mode, angle locating for the first wind guiding component 12a is controlled
Position are as follows: 255 °~285 °, so that the air-flow at the first air outlet 111a is integrally blown out to the right, control the second wind guiding component 12b
Locating angle position are as follows: 75 °~105 °, so that the air-flow at the second air outlet 111b is integrally blown out to the left, control third is led
Angle position locating for wind component 12c are as follows: 255 °~285 °, so that the air-flow at third air outlet 111c is integrally blown out to the right,
Control angle position locating for the 4th wind guiding component 12d are as follows: 75 °~105 °, so that the air-flow at the 4th air outlet 111d is whole
It blows out to the left, controls angle position locating for the 5th wind guiding component 12e are as follows: 165 °~195 °, so that at the 5th air outlet 111e
The whole blowout downwards of air-flow, control angle position locating for the 6th wind guiding component 12f are as follows: 165 °~195 ° so that the 6th goes out
The whole blowout downwards of air-flow at the 111f of air port.Air conditioner 100 is switched to common heating mode, first row air outlet as a result,
Whole two Lateral supplies to the left and right of 111A, whole two Lateral supplies to the left and right of second row air outlet 111B, third discharge air port 111C are whole
Body is blown downwards, to maintain indoor environment temperature, guarantees the comfort of user.
In a specific example of the invention, when air conditioner 100 is switched to common heating mode, the first wind-guiding is controlled
Angle position locating for component 12a is 270 °, is blown out to the right so that air-flow the first air outlet 111a at is approximate horizontal, controls the
Angle position locating for two wind guiding component 12b is 90 °, is blown out to the left so that the air-flow at the second air outlet 111b is approximate horizontal,
Controlling angle position locating for third wind guiding component 12c is 270 ° so that air-flow at third air outlet 111c it is approximate horizontal to
Right blowout, controlling angle position locating for the 4th wind guiding component 12d is 270 °, so that the air-flow at the 4th air outlet 111d is substantially
Level is blown out to the left, and controlling angle position locating for the 5th wind guiding component 12e is 180 °, so that the gas at the 5th air outlet 111e
Roughly vertical downward blowout is flowed, controlling angle position locating for the 6th wind guiding component 12f is 180 °, so that the 6th air outlet 111f
The roughly vertical downward blowout of the air-flow at place.
For example, in the example of fig. 1, air conditioner 100 includes first fan assembly opposite with the first air outlet 111a
21a, the second fan assembly 21b opposite with the second air outlet 111b, the third fan assembly opposite with third air outlet 111c
21c, the four fan device component 21d opposite with the 4th air outlet 111d, fiveth fan assembly opposite with the 5th air outlet 111e
The first outlet air may be implemented in 21e, the 6th fan assembly 21f opposite with the 6th air outlet 111f, the first fan assembly 21a operation
The second air outlet 111b outlet air, third fan assembly 21c operation may be implemented in mouth 111a outlet air, the second fan assembly 21b operation
Third air outlet 111c outlet air may be implemented, four fan device component 21d, which is run, may be implemented the 4th air outlet 111d outlet air, and the 5th
The 5th air outlet 111e outlet air may be implemented in fan assembly 21e operation, and the 6th outlet air may be implemented in the 6th fan assembly 21f operation
Mouth 111f outlet air.
When air conditioner 100 is switched to quick heating mode, the 5th fan assembly 21e revolving speed and the 6th fan assembly are controlled
The revolving speed of 21f is all larger than the revolving speed of any of third fan assembly 21c and four fan device component 21d, controls third blower fan group
The revolving speed of part 21c revolving speed and four fan device component 21d are all larger than with any of fan assembly 21 and the second fan assembly 21b
Revolving speed.Specifically, when air conditioner 100 is switched to quick heating mode, the revolving speed of the 5th fan assembly 21e is greater than the first blower
The revolving speed of the revolving speed of component 21a and the 5th fan assembly 21e are greater than the revolving speed of the second fan assembly 21b, the 6th fan assembly
The revolving speed of revolving speed of the revolving speed of 21f greater than the first fan assembly 21a and the 6th fan assembly 21f are greater than the second fan assembly 21b
Revolving speed, the revolving speed of the revolving speed of the revolving speed of the first fan assembly 21a greater than third fan assembly 21c and the first fan assembly 21a
Greater than the revolving speed of four fan device component 21d, revolving speed of the revolving speed greater than third fan assembly 21c of the second fan assembly 21b and the
The revolving speed of two fan assembly 21b is greater than the revolving speed of four fan device component 21d.
Accordingly, for first row air outlet 111A, second row air outlet 111B and the third row set gradually from top to bottom
For air outlet 111C, the revolving speed that the corresponding fan assembly 21 of air port 111C is discharged in third is corresponding greater than second row air outlet 111B
Fan assembly 21 revolving speed be greater than the corresponding fan assembly 21 of first row air outlet 111A revolving speed so that quickly heating mould
Under formula, most of hot wind of air conditioner 100 is mainly sent out from below, since the density of hot-air is smaller, has the trend risen,
Further ensure the quick heating effect of air conditioner 100 so that air output it is up-small and down-big (such as can be arranged above and below go out
The center of the line of centres in air port 111 is distinguished up and down, but not limited to this), meet heating needs, and due to the fan assembly of lower section
21 revolving speed is larger, and the wind speed of lower section air outlet 111 is larger, pressure is small, can further inhale down wind above, realizes heating
When largely flow downward, further ensure the comfort of user.
Specifically, when air conditioner 100 is switched to quick heating mode, the revolving speed and the of the first fan assembly 21a is controlled
The revolving speed of two fan assembly 21b is 1.0~1.2 times of preset rotation speed, controls the revolving speed and the 4th wind of third fan assembly 21c
The revolving speed of thermomechanical components 21d is 0.9~1.1 times of preset rotation speed, controls the revolving speed and the 6th blower fan group of the 5th fan assembly 21e
The revolving speed of part 21f is 1.1~1.3 times of preset rotation speed.Thereby it is ensured that the heating capacity of air conditioner 100, while fan assembly
21 operatings are stablized, revolving speed setting is reasonable, to a certain extent, can be played the role of energy-efficient.
Wherein, preset rotation speed can be located between the minimum speed and maximum (top) speed of corresponding fan assembly 21, i.e., note is default
Revolving speed is N, minimum speed Nmin, maximum (top) speed Nmax, then Nmin< N < Nmax;For example, the first fan assembly 21a's is default
Maximum (top) speed of the revolving speed less than the first fan assembly 21a and the minimum speed for being greater than the first fan assembly 21a.Optionally, first
The preset rotation speed of fan assembly 21a to the 6th fan assembly 21f can be identical.
Optionally, under quick heating mode, the revolving speed of the first fan assembly 21a can be with the second fan assembly 21b's
Revolving speed is equal, and the revolving speed of third fan assembly 21c can be equal with the revolving speed of four fan device component 21d, the 5th fan assembly 21e
Revolving speed can be equal with the revolving speed of the 6th fan assembly 21f, to simplify the control logic of air conditioner 100.But not limited to this.
In a specific example of the invention, when air conditioner 100 is switched to quick heating mode, the first blower is controlled
The revolving speed of the revolving speed of component 21a and the second fan assembly 21b are 1.1 times of preset rotation speed, control third fan assembly 21c's
The revolving speed of revolving speed and four fan device component 21d are preset rotation speed, control the revolving speed and the 6th blower fan group of the 5th fan assembly 21e
The revolving speed of part 21f is 1.3 times of preset rotation speed.
Specifically, when air conditioner 100 is switched to common heating mode, the revolving speed and the of the first fan assembly 21a is controlled
The revolving speed of two fan assembly 21b is 0.7~0.9 times of preset rotation speed, controls the revolving speed and the 4th wind of third fan assembly 21c
The revolving speed of thermomechanical components 21d is 0.8~1.0 times of preset rotation speed, controls the 5th fan assembly 21e revolving speed and the 6th fan assembly
The revolving speed of 21f is 1.0~1.2 times of preset rotation speed.Air conditioner 100 can be come as a result, with the low-speed running of fan assembly 21
Maintain indoor environment temperature, energy saving.
In a specific example of the invention, when air conditioner 100 is switched to common heating mode, the first blower is controlled
The revolving speed of the revolving speed of component 21a and the second fan assembly 21b are 0.8 times of preset rotation speed, control third fan assembly 21c's
The revolving speed of revolving speed and four fan device component 21d are preset rotation speed, control the 5th fan assembly 21e revolving speed and the 6th fan assembly
The revolving speed of 21f is preset rotation speed.
In some embodiments of the invention, as shown in fig. 6, when air conditioner 100 receives heating instruction, air conditioner
The inlet air temperature of 100 detection air conditioners 100, when the inlet air temperature of detection is less than third setting value, control air conditioner 100 switches
For quick heating mode.Specifically, heating instruction can be issued by user, such as when user opens air conditioner 100 and inputs system
When heat instruction, air conditioner 100 detects inlet air temperature, if inlet air temperature is less than third setting value, air conditioner 100 is switched to fastly
Fast heating mode, quickly to be heated to full room, so that fast lifting indoor environment temperature, meets user demand.Wherein,
Three setting values can be set by the user.
It is understood that when air conditioner 100 receives heating instruction, if the inlet air temperature of detection is more than or equal to third
Setting value, air conditioner 100 can enter common heating mode, but not limited to this.
In addition, after air conditioner 100 is switched to quick heating mode, air conditioner 100 can with real-time detection inlet air temperature, if
Inlet air temperature is still less than third setting value, then air conditioner 100 may remain in quick heating mode, if inlet air temperature be greater than etc.
In third setting value, for indoor environment temperature to meet user demand, air conditioner 100 may not need continuation quickly heating, this space-time
Device 100 is adjusted to switch to for example common heating mode of other mode operations or be continually maintained in quick heating mode.
In some embodiments of the invention, as shown in fig. 6, under common heating mode, 100 real-time detection of air conditioner is empty
The inlet air temperature for adjusting device 100, when the inlet air temperature of detection is less than third setting value, control air conditioner 100 is switched to quick system
Heat pattern.It specifically, can be with real-time detection inlet air temperature, if inlet air temperature is small when air conditioner 100 is in common heating mode
In third setting value, indoor environment temperature is unable to satisfy user demand, and air conditioner 100 can be switched to quick heating mode, with
It is rapidly heated to full room, guarantees the comfort of indoor environment.
It is understood that under common heating mode, it is empty if the inlet air temperature of detection is more than or equal to the first setting value
Adjust device 100 that can be continually maintained in common heating mode, but not limited to this.
In some embodiments of the invention, as shown in fig. 6, under quick heating mode, 100 real-time detection of air conditioner is empty
The inlet air temperature for adjusting device 100, when the inlet air temperature of detection is more than or equal to four setting values, control air conditioner 100 is switched to general
Logical heating mode.It specifically, can be with real-time detection inlet air temperature, if air inlet temperature when air conditioner 100 is in quick heating mode
Degree is more than or equal to the 4th setting value, and indoor environment temperature has met user demand, and air conditioner 100 can be switched to common heating mould
Formula guarantees the comfort of indoor environment to maintain room temperature.Wherein, the 4th setting value can be set by the user, the 4th setting
Value can be equal with third setting value or differs.
It is understood that under quick heating mode, if the inlet air temperature of detection is less than the second setting value, air conditioner
100 can be continually maintained in quick heating mode, but not limited to this.
For example, air conditioner 100 can freeze or heat in the example of Fig. 1-Fig. 6, air conditioner 100 be can have
Fast-refrigerating mode, normal refrigeration mode, quick heating mode and common heating mode, the control method of air conditioner 100 can be with
Including refrigeration control method and heat-production control method.
In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ",
" thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " up time
The orientation or positional relationship of the instructions such as needle ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " be orientation based on the figure or
Positional relationship is merely for convenience of description of the present invention and simplification of the description, rather than the device or element of indication or suggestion meaning must
There must be specific orientation, be constructed and operated in a specific orientation, therefore be not considered as limiting the invention.
In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance
Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or
Implicitly include one or more of the features.In the description of the present invention, the meaning of " plurality " is two or more,
Unless otherwise specifically defined.
In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " fixation " etc.
Term shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral;It can be mechanical connect
It connects, is also possible to be electrically connected, can also be communication;It can be directly connected, can also indirectly connected through an intermediary, it can be with
It is the interaction relationship of the connection or two elements inside two elements.For the ordinary skill in the art, may be used
To understand the concrete meaning of above-mentioned term in the present invention as the case may be.
In the present invention unless specifically defined or limited otherwise, fisrt feature in the second feature " on " or " down " can be with
It is that the first and second features directly contact or the first and second features pass through intermediary mediate contact.Moreover, fisrt feature exists
Second feature " on ", " top " and " above " but fisrt feature be directly above or diagonally above the second feature, or be merely representative of
First feature horizontal height is higher than second feature.Fisrt feature can be under the second feature " below ", " below " and " below "
One feature is directly under or diagonally below the second feature, or is merely representative of first feature horizontal height less than second feature.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show
The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example
Point is included at least one embodiment or example of the invention.In the present specification, schematic expression of the above terms are not
It must be directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be in office
It can be combined in any suitable manner in one or more embodiment or examples.In addition, without conflicting with each other, the skill of this field
Art personnel can tie the feature of different embodiments or examples described in this specification and different embodiments or examples
It closes and combines.
Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that: not
A variety of change, modification, replacement and modification can be carried out to these embodiments in the case where being detached from the principle of the present invention and objective, this
The range of invention is defined by the claims and their equivalents.
Claims (31)
1. a kind of air conditioner characterized by comprising
Panel component, the panel component include front panel and wind guiding component, have at least one air outlet on the front panel,
The wind guiding component is respectively equipped at each air outlet, the wind guiding component includes the wind-guiding set on the air outlet
Cover and drive the driver of the wind scooper rotation;
Fan part, the fan part limit at least four vent passages being provided spaced, and each ventilation is logical
Road is respectively equipped at least one fan assembly, so that the vent passages are blown outward by the air outlet.
2. air conditioner according to claim 1, which is characterized in that the wind scooper includes the first framework, first frame
There is the first grid, first framework is circular frame, and the wind guiding component is configured to the wind scooper around described first on body
The central axis of framework can be rotated.
3. air conditioner according to claim 2, which is characterized in that the periphery of first framework has gear ring structure, institute
Stating driver includes driving motor and gear mechanism, and the gear mechanism includes at least one gear and nibbles with the gear ring structure
Transmission is closed, the driving motor drives the wind scooper rotation by the engaged transmission.
4. air conditioner according to claim 2, which is characterized in that first framework includes the first central part and the first ring
Shape circle, the first annular circle are located at outside first central part and limit first annular sky between first central part
Between, first grid is located in the first annular space and including multiple first grizzly bar disposed in parallel, and each described
One grizzly bar limits the wind-guiding face for favouring the central axis setting of first framework.
5. air conditioner according to claim 4, which is characterized in that each first grizzly bar is linear grizzly bar.
6. air conditioner according to claim 2, which is characterized in that the wind guiding component further includes mounting bracket, described to lead
Fan housing may be pivotally mounted to the mounting bracket, can be rotated around the central axis of first framework.
7. air conditioner according to claim 6, which is characterized in that the mounting bracket includes second framework, and described second
There is the second grid, second grid is located at the upstream of the wind scooper in framework.
8. air conditioner according to claim 7, which is characterized in that the second framework is circular frame, the second framework
Including the second central part and the second annular ring, second annular ring be located at second central part it is outer and with second center
The second annular space is limited between portion, second grid is located in second annular space and including multiple second gates
Item, circumferentially-spaced distribution of multiple second grizzly bars along second annular ring.
9. air conditioner according to claim 8, which is characterized in that each second grizzly bar is curved shape grizzly bar.
10. air conditioner according to claim 6, which is characterized in that have mounting ear, the installation in the mounting bracket
Bracket is mounted on the inside of the front panel by the mounting ear.
11. air conditioner according to claim 1 to 10, which is characterized in that
The air outlet is at least six and the first row air outlet including being arranged successively from top to bottom, second row air outlet and the
Three discharge air ports, the first row air outlet includes spaced first air outlet and the second air outlet from right to left, described
Second row air outlet includes that spaced third air outlet and the 4th air outlet, third discharge air port include from right to left
Spaced 5th air outlet and the 6th air outlet from right to left,
The wind guiding component be at least six and including be set to first air outlet the first wind guiding component, be set to described second
Second wind guiding component of air outlet, the third wind guiding component set on the third air outlet, set on the 4th air outlet
Four wind guiding components, the 4th wind guiding component set on the 4th air outlet, the 5th wind guiding component set on the 5th air outlet,
Set on the 6th wind guiding component of the 6th air outlet.
12. a kind of refrigeration control method of air conditioner, which is characterized in that the air conditioner is the sky according to claim 11
Device is adjusted, the air conditioner has normal refrigeration mode and fast-refrigerating mode,
When the air conditioner is switched to the fast-refrigerating mode, first wind guiding component is controlled to the 6th wind-guiding group
Part rotation, so that the whole air-supply upwards of the first row air outlet, the second row air outlet whole two Lateral supplies, institute to the left and right
State the whole air-supply downwards in third discharge air port.
13. the refrigeration control method of air conditioner according to claim 12, which is characterized in that
When the air conditioner is switched to the normal refrigeration mode, first wind guiding component is controlled to the 6th wind-guiding group
Part rotation, so that whole two Lateral supplies to the left and right of the first row air outlet, the whole two sides to the left and right of the second row air outlet
Air-supply, whole two Lateral supply to the left and right in third discharge air port.
14. the refrigeration control method of air conditioner according to claim 12, which is characterized in that first wind guiding component is extremely
Each of described 6th wind guiding component includes multiple wind-guiding grizzly bars disposed in parallel, and each wind-guiding grizzly bar limits
Favour the wind-guiding inclined-plane of the central axis setting of the corresponding air outlet, the whole wind-guiding in each wind guiding component
The length direction of grizzly bar is horizontal direction and the wind-guiding inclined-plane is tilted upwards when extending, and the wind guiding component is located at 0 ° of position
Set, the wind guiding component from the angle that 0 ° of position turns over counterclockwise be positive-angle, the angle that turns over is negative angle clockwise,
When the air conditioner is switched to the fast-refrigerating mode, angle position locating for first wind guiding component is controlled
Are as follows: -15 °~15 °, control angle position locating for second wind guiding component are as follows: -15 °~15 °, control the third wind-guiding
Angle position locating for component are as follows: 255 °~285 °, control angle position locating for the 4th wind guiding component are as follows: 75 °~
105 °, control angle position locating for the 5th wind guiding component are as follows: 165 °~195 °, control locating for the 6th wind guiding component
Angle position are as follows: 165 °~195 °.
15. the refrigeration control method of air conditioner according to claim 14, which is characterized in that
When the air conditioner is switched to the normal refrigeration mode, angle position locating for first wind guiding component is controlled
Are as follows: 255 °~285 °, control angle position locating for second wind guiding component are as follows: 75 °~105 °, control the third wind-guiding
Angle position locating for component are as follows: 255 °~285 °, control angle position locating for the 4th wind guiding component are as follows: 75 °~
105 °, control angle position locating for the 5th wind guiding component are as follows: 255 °~285 °, control locating for the 6th wind guiding component
Angle position are as follows: 75 °~105 °.
16. the refrigeration control method of air conditioner described in any one of 2-15 according to claim 1, which is characterized in that the sky
Adjusting device includes first fan assembly opposite with first air outlet, second blower fan group opposite with second air outlet
Part, the third fan assembly opposite with the third air outlet, the four fan device component and institute opposite with the 4th air outlet
The 5th the 5th opposite fan assembly of air outlet, sixth fan assembly opposite with the 6th air outlet are stated,
When the air conditioner is switched to the fast-refrigerating mode, the first fan assembly revolving speed and second wind are controlled
The revolving speed of thermomechanical components is all larger than the revolving speed of any of the third fan assembly and described four fan device component, controls described the
The revolving speed of three fan assembly revolving speeds and the four fan device component is all larger than the 5th fan assembly and the 6th blower fan group
The revolving speed of any of part.
17. the refrigeration control method of air conditioner according to claim 16, which is characterized in that
When the air conditioner is switched to the fast-refrigerating mode, the first fan assembly revolving speed and second wind are controlled
The revolving speed of thermomechanical components is 1.1~1.3 times of preset rotation speed, controls the third fan assembly revolving speed and the four fan device group
The revolving speed of part is 0.9~1.1 times of the preset rotation speed, controls the 5th fan assembly revolving speed and the 6th blower fan group
The revolving speed of part is 0.6~0.9 times of the preset rotation speed.
18. the refrigeration control method of air conditioner according to claim 17, which is characterized in that
When the air conditioner is switched to the normal refrigeration mode, the first fan assembly revolving speed and second wind are controlled
The revolving speed of thermomechanical components is 0.9~1.1 times of the preset rotation speed, controls the third fan assembly revolving speed and the 4th wind
The revolving speed of thermomechanical components is 0.8~1.0 times of the preset rotation speed, controls the 5th fan assembly revolving speed and the 6th wind
The revolving speed of thermomechanical components is 0.7~0.9 times of the preset rotation speed.
19. the refrigeration control method of air conditioner according to claim 12, which is characterized in that received in the air conditioner
When refrigeration instruction, the air conditioner detects the inlet air temperature of the air conditioner, when the inlet air temperature of detection is greater than the first setting value
When, it controls the air conditioner and is switched to the fast-refrigerating mode.
20. the refrigeration control method of air conditioner according to claim 12, which is characterized in that in the normal refrigeration mode
Under, the inlet air temperature of air conditioner described in the air conditioner real-time detection, when the inlet air temperature of detection is greater than the first setting value, control
It makes the air conditioner and is switched to the fast-refrigerating mode.
21. the refrigeration control method of air conditioner according to claim 12, which is characterized in that in the fast-refrigerating mode
Under, the inlet air temperature of air conditioner described in the air conditioner real-time detection, when the inlet air temperature of detection is less than or equal to the second setting value
When, it controls the air conditioner and is switched to the normal refrigeration mode.
22. a kind of heat-production control method of air conditioner, which is characterized in that the air conditioner is the sky according to claim 11
Device is adjusted, the air conditioner has common heating mode and quick heating mode,
When the air conditioner is switched to the quick heating mode, first wind guiding component is controlled to the 6th wind-guiding group
Part rotation, so that whole two Lateral supplies to the left and right of the first row air outlet, the second row air outlet whole air-supply, institute downwards
State the whole air-supply downwards in third discharge air port.
23. the heat-production control method of air conditioner according to claim 22, which is characterized in that
When the air conditioner is switched to the common heating mode, first wind guiding component is controlled to the 6th wind-guiding group
Part rotation, so that whole two Lateral supplies to the left and right of the first row air outlet, the whole two sides to the left and right of the second row air outlet
Air-supply, the whole air-supply downwards in third discharge air port.
24. the heat-production control method of air conditioner according to claim 22, which is characterized in that first wind guiding component is extremely
Each of described 6th wind guiding component includes multiple wind-guiding grizzly bars disposed in parallel, and each wind-guiding grizzly bar limits
Favour the wind-guiding inclined-plane of the central axis setting of the corresponding air outlet, the whole wind-guiding in each wind guiding component
The length direction of grizzly bar is horizontal direction and the wind-guiding inclined-plane is tilted upwards when extending, and the wind guiding component is located at 0 ° of position
Set, the wind guiding component from the angle that 0 ° of position turns over counterclockwise be positive-angle, the angle that turns over is negative angle clockwise,
When the air conditioner is switched to the quick heating mode, angle position locating for first wind guiding component is controlled
Are as follows: 255 °~285 °, control angle position locating for second wind guiding component are as follows: 75 °~105 °, control the third wind-guiding
Angle position locating for component are as follows: 165 °~195 °, control angle position locating for the 4th wind guiding component are as follows: 165 °~
195 °, control angle position locating for the 5th wind guiding component are as follows: 165 °~195 °, control locating for the 6th wind guiding component
Angle position are as follows: 165 °~195 °.
25. the heat-production control method of air conditioner according to claim 24, which is characterized in that
When the air conditioner is switched to the common heating mode, angle position locating for first wind guiding component is controlled
Are as follows: 255 °~285 °, control angle position locating for second wind guiding component are as follows: 75 °~105 °, control the third wind-guiding
Angle position locating for component are as follows: 255 °~285 °, control angle position locating for the 4th wind guiding component are as follows: 75 °~
105 °, control angle position locating for the 5th wind guiding component are as follows: 165 °~195 °, control locating for the 6th wind guiding component
Angle position are as follows: 165 °~195 °.
26. the heat-production control method of the air conditioner according to any one of claim 22-25, which is characterized in that the sky
Adjusting device includes first fan assembly opposite with first air outlet, second blower fan group opposite with second air outlet
Part, the third fan assembly opposite with the third air outlet, the four fan device component and institute opposite with the 4th air outlet
The 5th the 5th opposite fan assembly of air outlet, sixth fan assembly opposite with the 6th air outlet are stated,
When the air conditioner is switched to the quick heating mode, the 5th fan assembly revolving speed and the 6th wind are controlled
The revolving speed of thermomechanical components is all larger than the revolving speed of any of the third fan assembly and described four fan device component, controls described the
The revolving speed of three fan assembly revolving speeds and the four fan device component is all larger than first fan assembly and second blower fan group
The revolving speed of any of part.
27. the heat-production control method of air conditioner according to claim 26, which is characterized in that
When the air conditioner is switched to the quick heating mode, the first fan assembly revolving speed and second wind are controlled
The revolving speed of thermomechanical components is 1.0~1.2 times of preset rotation speed, controls the third fan assembly revolving speed and the four fan device group
The revolving speed of part is 0.9~1.1 times of the preset rotation speed, controls the 5th fan assembly revolving speed and the 6th blower fan group
The revolving speed of part is 1.1~1.3 times of the preset rotation speed.
28. the heat-production control method of air conditioner according to claim 27, which is characterized in that
When the air conditioner is switched to the common heating mode, the first fan assembly revolving speed and second wind are controlled
The revolving speed of thermomechanical components is 0.7~0.9 times of the preset rotation speed, controls the third fan assembly revolving speed and the 4th wind
The revolving speed of thermomechanical components is 0.8~1.0 times of the preset rotation speed, controls the 5th fan assembly revolving speed and the 6th wind
The revolving speed of thermomechanical components is 1.0~1.2 times of the preset rotation speed.
29. the heat-production control method of air conditioner according to claim 22, which is characterized in that received in the air conditioner
When heating instruction, the air conditioner detects the inlet air temperature of the air conditioner, when the inlet air temperature of detection is less than third setting value
When, it controls the air conditioner and is switched to the quick heating mode.
30. the heat-production control method of air conditioner according to claim 22, which is characterized in that in the common heating mode
Under, the inlet air temperature of air conditioner described in the air conditioner real-time detection, when the inlet air temperature of detection is less than third setting value, control
It makes the air conditioner and is switched to the quick heating mode.
31. the heat-production control method of air conditioner according to claim 22, which is characterized in that in the quick heating mode
Under, the inlet air temperature of air conditioner described in the air conditioner real-time detection, when the inlet air temperature of detection is more than or equal to the 4th setting value
When, it controls the air conditioner and is switched to the common heating mode.
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
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Citations (15)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE19834270C2 (en) * | 1998-07-30 | 2002-09-19 | Ltg Holding Gmbh | Fan coil |
KR100728349B1 (en) * | 2006-06-29 | 2007-06-13 | 주식회사 대우일렉트로닉스 | Air-conditioner having outlet with cross opening and closing flap and method of the same |
CN101251290A (en) * | 2008-03-19 | 2008-08-27 | 珠海格力电器股份有限公司 | Quick refrigerating/heating control method for air conditioner |
CN201141361Y (en) * | 2007-12-04 | 2008-10-29 | 美的集团有限公司 | Electric fan |
CN201232663Y (en) * | 2008-07-03 | 2009-05-06 | 孔令强 | Electric fan with inducer |
CN104006501A (en) * | 2014-05-28 | 2014-08-27 | 美的集团股份有限公司 | Air-conditioning system and control method thereof |
CN105823164A (en) * | 2015-01-05 | 2016-08-03 | 美的集团武汉制冷设备有限公司 | Air conditioner with axial-flow fan |
CN106403033A (en) * | 2016-09-30 | 2017-02-15 | 芜湖美智空调设备有限公司 | Cabinet air conditioner, air-conditioner and cabinet air conditioner air outlet control method |
CN106839368A (en) * | 2017-03-30 | 2017-06-13 | 广东美的制冷设备有限公司 | Air ducting, wind-guiding control method and air-conditioner |
CN106949537A (en) * | 2016-01-07 | 2017-07-14 | 三星电子株式会社 | Air-conditioning and the method for controlling air-conditioning |
CN206846919U (en) * | 2017-06-13 | 2018-01-05 | 珠海格力电器股份有限公司 | Air conditioner |
CN108571778A (en) * | 2018-06-29 | 2018-09-25 | 滁州中家院工业设计有限公司 | A kind of novel air conditioner indoor unit and air-conditioning |
CN108870542A (en) * | 2018-07-06 | 2018-11-23 | 珠海格力电器股份有限公司 | Machine and air conditioner in air conditioning |
CN109237617A (en) * | 2018-11-06 | 2019-01-18 | 珠海格力电器股份有限公司 | Air conditioner indoor unit, air conditioner device and air conditioner air outlet control method |
CN109405076A (en) * | 2018-10-31 | 2019-03-01 | 广东美的制冷设备有限公司 | Air conditioner |
-
2019
- 2019-06-26 CN CN201910562629.8A patent/CN110260404A/en active Pending
Patent Citations (15)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE19834270C2 (en) * | 1998-07-30 | 2002-09-19 | Ltg Holding Gmbh | Fan coil |
KR100728349B1 (en) * | 2006-06-29 | 2007-06-13 | 주식회사 대우일렉트로닉스 | Air-conditioner having outlet with cross opening and closing flap and method of the same |
CN201141361Y (en) * | 2007-12-04 | 2008-10-29 | 美的集团有限公司 | Electric fan |
CN101251290A (en) * | 2008-03-19 | 2008-08-27 | 珠海格力电器股份有限公司 | Quick refrigerating/heating control method for air conditioner |
CN201232663Y (en) * | 2008-07-03 | 2009-05-06 | 孔令强 | Electric fan with inducer |
CN104006501A (en) * | 2014-05-28 | 2014-08-27 | 美的集团股份有限公司 | Air-conditioning system and control method thereof |
CN105823164A (en) * | 2015-01-05 | 2016-08-03 | 美的集团武汉制冷设备有限公司 | Air conditioner with axial-flow fan |
CN106949537A (en) * | 2016-01-07 | 2017-07-14 | 三星电子株式会社 | Air-conditioning and the method for controlling air-conditioning |
CN106403033A (en) * | 2016-09-30 | 2017-02-15 | 芜湖美智空调设备有限公司 | Cabinet air conditioner, air-conditioner and cabinet air conditioner air outlet control method |
CN106839368A (en) * | 2017-03-30 | 2017-06-13 | 广东美的制冷设备有限公司 | Air ducting, wind-guiding control method and air-conditioner |
CN206846919U (en) * | 2017-06-13 | 2018-01-05 | 珠海格力电器股份有限公司 | Air conditioner |
CN108571778A (en) * | 2018-06-29 | 2018-09-25 | 滁州中家院工业设计有限公司 | A kind of novel air conditioner indoor unit and air-conditioning |
CN108870542A (en) * | 2018-07-06 | 2018-11-23 | 珠海格力电器股份有限公司 | Machine and air conditioner in air conditioning |
CN109405076A (en) * | 2018-10-31 | 2019-03-01 | 广东美的制冷设备有限公司 | Air conditioner |
CN109237617A (en) * | 2018-11-06 | 2019-01-18 | 珠海格力电器股份有限公司 | Air conditioner indoor unit, air conditioner device and air conditioner air outlet control method |
Non-Patent Citations (1)
Title |
---|
刘光源等: "《实用维修电工手册》", 30 September 2010 * |
Cited By (9)
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CN110779180A (en) * | 2019-11-11 | 2020-02-11 | 广东美的制冷设备有限公司 | Air conditioner and control method and device thereof |
CN110779179B (en) * | 2019-11-11 | 2022-03-25 | 广东美的制冷设备有限公司 | Air conditioner and control method and control device thereof |
CN110762625A (en) * | 2019-11-26 | 2020-02-07 | 广东美的制冷设备有限公司 | Air conditioner |
CN110966741A (en) * | 2019-12-03 | 2020-04-07 | 珠海格力电器股份有限公司 | Grid assembly and kitchen air conditioner |
CN111023519A (en) * | 2019-12-31 | 2020-04-17 | 广州华凌制冷设备有限公司 | Operation method, device, air conditioner and computer readable storage medium |
CN111023521A (en) * | 2019-12-31 | 2020-04-17 | 广州华凌制冷设备有限公司 | Operation method, device, air conditioner and computer readable storage medium |
CN111765523A (en) * | 2020-06-05 | 2020-10-13 | 美的集团股份有限公司 | Control method of air conditioner |
CN115523650A (en) * | 2022-11-24 | 2022-12-27 | 珠海格力电器股份有限公司 | Air supply control method of air conditioner, air conditioner indoor unit, air conditioner and storage medium |
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