CN110186117A - The control method of floor air conditioner indoor machine, air conditioner and air conditioner - Google Patents

Abstract

The invention discloses the control method of a kind of air conditioner indoor unit, air conditioner and air conditioner, air conditioner indoor unit includes: shell, with air inlet and the upper air outlet and lower air outlet arranged along the vertical direction；Windward thermomechanical components and lower fan assembly, are set in the housing；Lower wind guiding component, at lower air outlet, including the first wind-guiding group and the second wind-guiding group being arranged along the vertical direction, first wind-guiding group includes multiple the first wind guide strips being arranged side by side in left-right direction, second wind-guiding group includes multiple the second wind guide strips being arranged side by side in left-right direction, is equipped with multiple ventilation holes on the first wind guide strip and the second wind guide strip；Louver assembly, set on the upstream or downstream along air-out direction of lower wind guiding component, and blinds can be swung up and down；Wherein, windward thermomechanical components and lower fan assembly, the first wind-guiding group and the second wind-guiding group distinguish independent control.Air conditioner indoor unit according to an embodiment of the present invention has many advantages, such as that air-out effect is good, easy to use comfortable.

Description

The control method of floor air conditioner indoor machine, air conditioner and air conditioner

Technical field

The present invention relates to air-conditioning technique fields, in particular to a kind of floor air conditioner indoor machine, with described The control method of the air conditioner of floor air conditioner indoor machine and the air conditioner with the floor air conditioner indoor machine.

Background technique

Air conditioner indoor unit in the related technology, air supply mode is relatively simple, and the function of air conditioner indoor unit is limited, is unable to satisfy The use demand of user's multiplicity influences the service performance and the scope of application of air conditioner indoor unit, influence user comfort and Convenience,

Summary of the invention

The present invention is directed at least solve one of the technical problems existing in the prior art.For this purpose, the present invention proposes a kind of sky Indoor unit is adjusted, which has many advantages, such as that air-out effect is good, easy to use comfortable.

The present invention also proposes a kind of air conditioner with the air conditioner indoor unit.

The present invention also proposes a kind of control method of air conditioner with the air conditioner indoor unit.

To achieve the above object, a kind of air conditioner indoor unit, the sky are proposed according to the embodiment of the first aspect of the invention Adjusting indoor unit includes: shell, the upper air outlet and lower air outlet that the shell has air inlet and arranges along the vertical direction, described Lower air outlet includes the first wind outlet area and the second wind outlet area, and first wind outlet area is located above second wind outlet area；Windward Thermomechanical components and lower fan assembly, the windward thermomechanical components and the lower fan assembly are all provided in the shell, and the windward Thermomechanical components are corresponding with the upper air outlet to introduce and blow out from the upper air outlet, the leeward from the air inlet by air-flow Thermomechanical components are corresponding with the lower air outlet to enter air-flow from the air inlet and blow out from the lower air outlet；Lower wind-guiding group Part, the lower wind guiding component are set at the lower air outlet, and the lower wind guiding component includes that first be arranged along the vertical direction is led Wind group and the second wind-guiding group, the first wind-guiding group is corresponding with first wind outlet area, the second wind-guiding group and described second Wind outlet area is corresponding, and the first wind-guiding group includes multiple the first wind guide strips being arranged side by side in left-right direction, first wind-guiding Item vertically extends, and the second wind-guiding group includes multiple arranged side by side the second wind guide strips in left-right direction, and described the Two wind guide strips vertically extend, and are equipped with multiple ventilation holes on first wind guide strip and second wind guide strip；Blinds Component, the louver assembly are set to the upstream or downstream along air-out direction of the lower wind guiding component, and the louver assembly includes The multiple blinds arranged along the vertical direction, the blinds extend in left-right direction, and the blinds can be swung up and down；Wherein, The windward thermomechanical components and the lower fan assembly, the first wind-guiding group and the second wind-guiding group distinguish independent control.

Air conditioner indoor unit according to an embodiment of the present invention has many advantages, such as that air-out effect is good, easy to use comfortable.

In addition, air conditioner indoor unit according to the above embodiment of the present invention can also have the following additional technical features:

According to some embodiments of the present invention, multiple first wind guide strips in the first wind-guiding group simultaneously swing or At least partly delay is swung；Multiple second wind guide strips in the second wind-guiding group are swung simultaneously or at least partly delay is put It is dynamic；Multiple blinds in the louver assembly are swung simultaneously or at least partly delay is swung.

According to some embodiments of the present invention, first wind guide strip and second wind guide strip respectively in wind-guiding position and It is swung between detent position, multiple first wind guide strips in the first wind-guiding group are in the state of the wind-guiding position Under the first wind-guiding group open first wind outlet area, multiple first wind guide strips in the first wind-guiding group are in The first wind-guiding group closes at least part of first wind outlet area in the state of the detent position；It is led described second The second wind-guiding group opens described second in the state that multiple second wind guide strips in wind group are in the wind-guiding position Wind outlet area, described second in the state that multiple second wind guide strips in the second wind-guiding group are in the detent position Wind-guiding group closes at least part of second wind outlet area.

According to some embodiments of the present invention, the blinds is swung between the first water conservancy diversion position and the second water conservancy diversion position, Inclination extends upwards from inside to outside for the windward side of the blinds in the state that blinds is in the first water conservancy diversion position, The windward side that the blinds is in the blinds in the state of second water conservancy diversion position tilts down extension from inside to outside.

According to some embodiments of the present invention, the louver assembly further includes blinds driver, and the blinds driver is used It is swung up and down in the driving blinds.

According to some embodiments of the present invention, lattice is equipped between second wind outlet area and first wind outlet area, The height of the lattice is 1m-1.4m.

According to some embodiments of the present invention, the air conditioner indoor unit further include: partition, the partition are set to the shell It is interior；Indoor heat exchanger, the indoor heat exchanger are disposed in the housing, and the indoor heat exchanger includes upper heat exchanging part and lower heat exchange Portion, the upper heat exchange part is in the top of the partition and corresponding with the windward thermomechanical components, and the lower heat exchange part is in described The lower section of partition and corresponding with the lower fan assembly.

According to some embodiments of the present invention, the wind wheel of the lower fan assembly is tubular wine wheel, the windward thermomechanical components Wind wheel be axial-flow windwheel, oblique flow wind wheel or mixed flow wind wheel in one.

Embodiment according to the second aspect of the invention proposes that a kind of air conditioner, the air conditioner include according to the present invention Air conditioner indoor unit described in the embodiment of first aspect.

Air conditioner according to an embodiment of the present invention, by utilizing sky according to an embodiment of the first aspect of the invention Indoor unit is adjusted, has many advantages, such as that air-out effect is good, easy to use comfortable.

Embodiment according to the third aspect of the invention we proposes a kind of control method of air conditioner, the control of the air conditioner Method the following steps are included:

Obtain wind sense mode instruction；

First wind guiding component and second wind guiding component are controlled according to the wind sense mode instruction of acquisition, In, the wind sense mode includes at least the calm sense mode in part, completely without wind sense mode.

According to some embodiments of the present invention, in the wind sense mode instruction of acquisition sense mode calm for part, control The first wind-guiding group is made to open first wind outlet area and control the second wind-guiding group closing second wind outlet area；

When the wind sense mode instruction of acquisition is completely without wind sense mode, controls the first wind-guiding group and close described the One wind outlet area and control the second wind-guiding group closing second wind outlet area.

According to some embodiments of the present invention, the floor air conditioner indoor machine further includes indoor heat exchanger, the interior Heat exchanger includes and the corresponding upper heat exchanging part of the windward thermomechanical components and lower heat exchanging part corresponding with the lower fan assembly, institute State control method the following steps are included:

Obtain operating mode instruction；

According to the operating mode instruction of acquisition control the upper heat exchanging part and the windward thermomechanical components and it is described under Heat exchanging part and the lower fan assembly, wherein the operating mode includes at least refrigeration mode, heating mode and ventilation mode.

According to some embodiments of the present invention, described that the upper heat exchanging part is controlled according to the operating mode instruction of acquisition It further include control the first wind-guiding group and institute with the windward thermomechanical components and the lower heat exchanging part and the lower fan assembly State the second wind-guiding group.

According to some embodiments of the present invention, it is controlled on described when the operating mode instruction of acquisition is refrigeration mode Heat exchanging part and windward thermomechanical components closing and the lower heat exchanger and the lower fan assembly work；

The multiple blinds for controlling the louver assembly swing up and down or switch to windward side from inside to outside to updip The position tiltedly extended.

According to some embodiments of the present invention, it is controlled on described when the operating mode instruction of acquisition is heating mode It heat exchanging part and is closed with the windward thermomechanical components and the lower heat exchanging part and lower fan assembly work；

The multiple blinds for controlling the louver assembly swing up and down or switch to windward side and dip down from inside to outside The position tiltedly extended.

According to some embodiments of the present invention, when the operating mode instruction of acquisition is ventilation mode

Control the upper heat exchanging part, lower heat exchanging part and the closing of windward thermomechanical components and the lower fan assembly work；Control Multiple blinds of the louver assembly swing up and down, switch to horizontal position, switch to windward side from inside to outside to updip The position or windward side that tiltedly extend tilt down the position of extension from inside to outside.

According to some embodiments of the present invention, the control method of the air conditioner further include:

Obtain wind sense mode instruction；

The first wind-guiding group and the second wind-guiding group are controlled according to the wind sense mode instruction of acquisition, wherein institute It states wind sense mode and includes at least the calm sense mode in part, completely without wind sense mode.

The control method of air conditioner according to an embodiment of the present invention, by utilizing implementation according to the second aspect of the invention Air conditioner described in example, the air conditioner have many advantages, such as that air-out effect is good, easy to use comfortable.

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

Above-mentioned and/or additional aspect of the invention and advantage will become from the description of the embodiment in conjunction with the following figures Obviously and it is readily appreciated that, in which:

Fig. 1 is the cross-sectional view of floor air conditioner indoor machine according to an embodiment of the present invention, wherein the first wind guiding component is led Wind item is in wind-guiding position, and the wind guide strip of the second wind guiding component is in detent position, the blinds horizontal extension of louver assembly.

Fig. 2 is the explosive view of floor air conditioner indoor machine according to an embodiment of the present invention.

Fig. 3 is the structural schematic diagram of floor air conditioner indoor machine according to an embodiment of the present invention.

Fig. 4 is the cross-sectional view of floor air conditioner indoor machine according to an embodiment of the present invention, wherein the first wind guiding component is led Wind item is in wind-guiding position, and the wind guide strip of the second wind guiding component is in detent position, and the blinds of louver assembly is in the first water conservancy diversion Position.

Fig. 5 is the structural schematic diagram of floor air conditioner indoor machine according to an embodiment of the present invention.

Fig. 6 is the cross-sectional view of floor air conditioner indoor machine according to an embodiment of the present invention, wherein the first wind guiding component is led Wind item is in wind-guiding position, and the wind guide strip of the second wind guiding component is in wind-guiding position, and the blinds of louver assembly is in the first water conservancy diversion Position.

Fig. 7 is the enlarged drawing in Fig. 6 at D.

Fig. 8 is the structural schematic diagram of floor air conditioner indoor machine according to an embodiment of the present invention.

Fig. 9 is the cross-sectional view of floor air conditioner indoor machine according to an embodiment of the present invention, wherein the first wind guiding component is led Wind item is in detent position, and the wind guide strip of the second wind guiding component is in detent position, and the blinds of louver assembly is in the first water conservancy diversion Position.

Figure 10 is the structural schematic diagram of floor air conditioner indoor machine according to an embodiment of the present invention.

Figure 11 is the cross-sectional view of floor air conditioner indoor machine according to an embodiment of the present invention, wherein the first wind guiding component is led Wind item is in wind-guiding position, and the wind guide strip of the second wind guiding component is in wind-guiding position, the blinds horizontal extension of louver assembly.

Figure 12 is the structural schematic diagram of floor air conditioner indoor machine according to an embodiment of the present invention.

Figure 13 is the cross-sectional view of floor air conditioner indoor machine according to an embodiment of the present invention, wherein the first wind guiding component is led Wind item is in wind-guiding position, and the wind guide strip of the second wind guiding component is in wind-guiding position, and the blinds of louver assembly is in the second water conservancy diversion Position.

Figure 14 is the structural schematic diagram of the indoor heat exchanger of floor air conditioner indoor machine according to an embodiment of the present invention.

Figure 15 is the control flow chart of floor type air-conditioner according to an embodiment of the present invention.

Figure 16 is the control flow chart of floor type air-conditioner according to an embodiment of the present invention.

Appended drawing reference: air conditioner indoor unit 1, air duct 101, air inlet 102, upper air outlet 103, goes out down lower fan assembly 100 Air port 107, the first wind outlet area 104, the second wind outlet area 105, air-inlet grille 106, lattice 110, windward thermomechanical components 200, interior Heat exchanger 210, heat exchange bracket 211, lower heat exchanging part 212, upper heat exchanging part 213, wind wheel 220, the first wind-guiding group 310, the first wind-guiding Driver 311, the second wind-guiding group 320, the second wind-guiding driver 321, the first wind guide strip 322, the second wind guide strip 324, ventilation hole 323, louver assembly 330, blinds 331, shell 400, partition 500.

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, and for explaining only the invention, and is not considered as limiting the invention.

Below with reference to the accompanying drawings air conditioner indoor unit 1 according to an embodiment of the present invention is described.

As shown in Fig. 1-Figure 16, air conditioner indoor unit 1 according to an embodiment of the present invention includes shell 400, lower fan assembly 100, windward thermomechanical components 200, lower wind guiding component, louver assembly 330.

The upper air outlet 103 and lower 107 (upper and lower of air outlet that shell 400 has air inlet 102 and arranges along the vertical direction To shown in arrow A as shown in figure 1), lower air outlet 107 includes the first wind outlet area 104 and the second wind outlet area 105, the first wind outlet area 104 are located at 105 top of the second wind outlet area.Windward thermomechanical components 200 and lower fan assembly 100 are set in shell 400, and upper fan Component 100 is corresponding with upper air outlet 103 to introduce and blow out from upper air outlet 103, lower fan assembly air-flow from air inlet 102 100 is corresponding with lower air outlet 107 to enter air-flow from air inlet 102 and blow out from lower air outlet 107.

Lower wind guiding component is set at lower air outlet 107, and lower wind guiding component includes the first wind-guiding group being arranged along the vertical direction 310 and the second wind-guiding group 320, the first wind-guiding group 310 is corresponding with the first wind outlet area 104, the second wind-guiding group 320 and the second wind outlet area 105 is corresponding, and the first wind-guiding group 310 includes multiple the first wind guide strips 322 being arranged side by side in left-right direction, the first wind guide strip 322 It vertically extends, the second wind-guiding group 320 includes multiple the second wind guide strips 324 being arranged side by side in left-right direction, and second leads Wind item 324 vertically extends, and is equipped with multiple ventilation holes 323 on the first wind guide strip 322 and the second wind guide strip 324.

Louver assembly 300 is set to the upstream or downstream along air-out direction of lower wind guiding component, and louver assembly 300 includes along upper Multiple blinds 331 of lower direction arrangement, blinds 331 extends in left-right direction, and blinds 331 can be swung up and down.Wherein, windward Thermomechanical components 200 are independently controlled with lower fan assembly 100, the first wind-guiding group 310 and the second wind-guiding group 320.

Air conditioner indoor unit 1 according to an embodiment of the present invention is made by the way that lower fan assembly 100 and windward thermomechanical components 200 are arranged Lower fan assembly 100 has air duct 101, air inlet 102 and lower air outlet 107, and windward thermomechanical components 200 have air duct 101, air inlet Mouth 102 and upper air outlet 103.Air conditioner indoor unit 1 can utilize lower fan assembly 100 and/or windward according to use demand in this way The upper air outlet 103 of thermomechanical components 200 and lower 107 outlet air of air outlet, convenient for improving the outlet air flexibility of air conditioner indoor unit 1 and changeable Property, increase the air-out mode of air conditioner indoor unit 1, improve the air-out effect of air conditioner indoor unit 1, improves the comfort of user.

Also, by the first wind outlet area 104 of setting and the second wind outlet area 105, the first wind-guiding group 310 is made to be set to the first outlet air Area 104, the second wind-guiding group 320 are set to the second wind outlet area 105, and lower fan assembly 100 is individually controlled using the control system Indoor heat exchanger 210 and wind wheel 220, the indoor heat exchanger 210 of windward thermomechanical components 200 and wind wheel 220,310 and of the first wind-guiding group Second wind-guiding group 320 can individually control 210 He of indoor heat exchanger of lower fan assembly 100 by the control system in this way The working condition of the indoor heat exchanger 210 of windward thermomechanical components 200, in order to control the lower air outlet of lower fan assembly 100 respectively The leaving air temp of 107 leaving air temp and the upper air outlet 103 of windward thermomechanical components 200 individually controls the wind of lower fan assembly 100 The working condition of wheel 220 and the wind wheel 220 of windward thermomechanical components 200, in order to change the lower air outlet 107 of lower fan assembly 100 Air quantity and windward thermomechanical components 200 upper air outlet 103 air quantity, individually control the first wind-guiding group 310 and the second wind-guiding group 320 Working condition, in order to improve lower fan assembly 100 lower air outlet 107 wind direction and air supplying distance and windward unit The wind direction and air supplying distance of the upper air outlet 103 of part 200 improve air-conditioning to increase the operating mode of air conditioner indoor unit 1 The use scope of indoor unit 1 improves the functionality and convenience of air conditioner indoor unit 1, improves the temperature uniformity of the interior space, change The blowing feeling of philanthropist's body, the leaving air temp of air outlet 103 and lower air outlet 107, promotes the comfort of user in improvement.

In addition, by being equipped with ventilation hole at least part in multiple first wind guide strips 322 and the second wind guide strip 324 323, in this way when wind guide strip 322 blocks air outlet 103, it can use 323 outlet air of ventilation hole, convenient for reducing air conditioner indoor unit 1 The air quantity and wind speed of air-supply, reduce the blowing feeling of user, user are avoided not feel good because of blowing feeling, further increase user's Comfort.

In addition, individually controlling louver assembly 330 by setting louver assembly 330, can individually controlling louver assembly in this way 330 working condition, the wind direction of the lower air outlet 107 of fan assembly 100 and air supplying distance and windward thermomechanical components under improving The wind direction and air supplying distance of 200 upper air outlet 103 pass through louver assembly 330 and the first wind-guiding group 310 and the second wind-guiding 320 collective effects of group, convenient for refining the air outlet angle of air conditioner indoor unit 1, in order to increase the air outlet angle of air conditioner indoor unit 1, Improve the outlet air flexibility and variability of air conditioner indoor unit 1.

Therefore, air conditioner indoor unit 1 according to an embodiment of the present invention has many advantages, such as that air-out effect is good, easy to use comfortable.

Below with reference to the accompanying drawings the air conditioner indoor unit 1 of specific embodiment according to the present invention is described.

As shown in Fig. 1-Figure 16, air conditioner indoor unit 1 according to an embodiment of the present invention includes shell 400, lower fan assembly 100, windward thermomechanical components 200, lower wind guiding component, louver assembly 330.

Specifically, multiple first wind guide strips 322 in the first wind-guiding group 310 are swung simultaneously or at least partly delay is swung. Multiple second wind guide strips 324 in second wind-guiding group 320 are swung simultaneously or at least partly delay is swung.In louver assembly 330 Multiple blinds 331 are swung simultaneously or at least partly delay is swung.In this way convenient for control according to the needs of use the first wind-guiding group 310, The action process of second wind-guiding group 320 and louver assembly 330, improve precise control to the air outlet angle of air outlet 103 and Reliability improves the air-out effect of air conditioner indoor unit 1.

" delay is swung " refers to that wind guide strip can be swung in section in different times it will be appreciated herein that wind guide strip, For example, multiple first wind guide strips 322 can sequentially be swung, and multiple first wind guide strips 322 can also be divided for multiple groups, Such as dividing multiple first wind guide strips 322 is three groups, first group first swings, and puts again for second group after 10 seconds interval times It is dynamic, it is swung again using third group after 10 seconds interval times.

In one particular embodiment of the present invention, multiple first wind guide strips 322 in the first wind-guiding group 310 are put simultaneously It is dynamic.Multiple second wind guide strips 324 in second wind-guiding group 320 are swung simultaneously.Multiple blinds 331 in louver assembly 330 are simultaneously It swings.In this way convenient for the air outlet angle for rapidly changing lower air outlet 107, the working efficiency of air conditioner indoor unit 1 is improved.

Optionally, as shown in figure 3, multiple wind guide strips of at least one of the first wind-guiding group 310 and second wind-guiding group 320 Arranged for interval and wind guide strip vertically extend and swingable in the horizontal direction in the horizontal direction.It can use wind-guiding in this way Item is in the horizontal direction oriented to the outlet air of air conditioner indoor unit 1, convenient for adjusting the air outlet angle of air-flow in the horizontal direction, Improve the outlet air diversity and air-out effect of air conditioner indoor unit 1.

In some embodiments of the invention, multiple first wind guide strips 322 in the first wind-guiding group 310 are in level side To arranged for interval and the first wind guide strip 322 vertically extends and swingable in the horizontal direction, in the second wind-guiding group 320 Arranged for interval and the second wind guide strip 324 vertically extend and in the horizontal direction multiple second wind guide strips 324 in the horizontal direction It is upper swingable.In this way convenient for the air outlet angle and upper fan of the lower air outlet 107 of the lower fan assembly 100 of control in the horizontal direction The air outlet angle of the upper air outlet 103 of component 200 exports the outlet air air-flow of air conditioner indoor unit 1 towards the direction of setting.

In some embodiments of the invention, the first wind guide strip 322 is swung between wind-guiding position and detent position, The first wind-guiding group 310 opens first in the state that multiple first wind guide strips 322 in one wind-guiding group 310 are in the wind-guiding position Wind outlet area 104, first leads in the state that multiple first wind guide strips 322 in the first wind-guiding group 310 are in the detent position Wind group 310 closes at least part of the first wind outlet area 104.Multiple second wind guide strips 324 in the second wind-guiding group 320 are in The second wind-guiding group 320 opens the second wind outlet area 105 in the state of the wind-guiding position, and multiple the in the second wind-guiding group 320 Two wind guide strips 324 are at least part of the second wind outlet area 105 of the second wind-guiding group 320 closing in the state of detent position.This Sample not only can use the first wind guide strip 322 and the second wind guide strip 324 is oriented to the outlet air air-flow of air conditioner indoor unit 1, just In the air outlet angle of control outlet air air-flow, using general mood stream can blow towards the direction of setting, and can use first and lead The first wind outlet area 104 and the second wind outlet area 105 are opened or closed to wind item 322 and the second wind guide strip 324, and control outlet air region goes out Wind area increases the air-out mode of air conditioner indoor unit 1, mentions in order to control the air quantity for wind velocity and outlet air in outlet air region The air-out effect of high air conditioner indoor unit 1.

Optionally, as shown in figure 4, the first wind-guiding group 310 further includes the first wind-guiding driver 311, the first wind-guiding driver 311 for driving multiple first wind guide strips 322 of the first wind-guiding group 310 to swing.Second wind-guiding group 320 further includes that the second wind-guiding drives Dynamic device 321, the second wind-guiding driver 321 is for driving multiple second wind guide strips 324 of the second wind-guiding group 320 to swing.In this way may be used It is swung with multiple first wind guide strips 322 using the first wind-guiding group 310 of independent driving of the first wind-guiding driver 311, utilizes second Multiple second wind guide strips 324 of the second wind-guiding group 320 of independent driving of wind-guiding driver 321 are swung, to the first wind-guiding group 310 and the Two wind-guiding groups 320 can be controlled individually and not influenced mutually, convenient for improving the first wind-guiding group 310 and the second wind-guiding The functional reliability of group 320 improves the flexible swinging and variability of the first wind-guiding group 310 and the second wind-guiding group 320.

Specifically, the first wind-guiding driver 311 include the first driving motor and the first transmission device, the first driving motor with Multiple first wind guide strips 322 of the connection of first drive, the first transmission device and the first wind-guiding group 310 are sequentially connected, Second wind-guiding driver 321 includes the second driving motor and the second transmission device, and the second driving motor and the second transmission device pass Multiple second wind guide strips 324 of dynamic connection, the second transmission device and the second wind guiding component 310 are sequentially connected.

In some embodiments of the invention, blinds 331 is swung between the first water conservancy diversion position and the second water conservancy diversion position, Blinds 331 is in the state of first water conservancy diversion position, and inclination extends upwards from inside to outside for the windward side of blinds 331, hundred The windward side that leaf 331 is in blinds 331 in the state of second water conservancy diversion position tilts down extension from inside to outside.It in this way can be with The outlet air of air conditioner indoor unit 1 is oriented in the up-down direction by the evolution of blinds 331, convenient in the up-down direction The air outlet angle of air-flow is adjusted, the outlet air diversity and air-out effect of air conditioner indoor unit 1 are improved.

Wherein, blinds 331 further includes third water conservancy diversion position, in the state that blinds 331 is in the third water conservancy diversion position, The windward side of blinds 331 horizontal extension from inside to outside, in blinds 331 from first water conservancy diversion position to second water conservancy diversion position During swing, blinds 331 successively passes through first water conservancy diversion position, third water conservancy diversion position and second water conservancy diversion position It sets.

Specifically, louver assembly 330 further includes blinds driver, and blinds driver is for driving blinds 331 to swing up and down. Can use blinds driver so independently drives multiple blinds 331 of louver assembly 330 to swing, convenient for louver assembly 330 Swing individually controlled, improve louver assembly 330 flexible swinging and variability.

More specifically, blinds driver includes grille motor and driving device for shutter, and grille motor and blinds transmission fill It sets transmission to be connected, driving device for shutter and blinds 331 are sequentially connected.

Optionally, as shown in figure 3, being equipped with lattice 110, lattice between the second wind outlet area 105 and the first wind outlet area 104 110 height is 1m-1.4m.It is suitable convenient for being conveyed in the first wind outlet area 104 in this way since the height of children is relatively adult lower It in the outlet air air-flow of children, such as can reduce the wind speed and air quantity of 104 interior air-flow of the first wind outlet area, avoid air-flow blow-through children And sense of discomfort is caused, meanwhile, it can be conveyed in the second wind outlet area 105 suitable for adult outlet air air-flow, such as the can be increased The wind speed and air quantity of two wind outlet areas, 105 interior air-flow improve the second wind outlet area 105 to the temperature control effect of the interior space.It is convenient in this way Increase the comfort and convenience of air conditioner indoor unit 1, uses air conditioner indoor unit simultaneously convenient for child user and adult user 1, the scope of application of air conditioner indoor unit 1 is improved, the comfort of user is improved.

Further, the height of lattice 110 is 1.2m.Exist in this way convenient for the first wind outlet area 104 and the second wind outlet area 105 Different outlet air air-flows is blown out in different height respectively, further convenient for the service performance of raising air conditioner indoor unit 1, improves and uses The usage experience at family.

In some embodiments of the invention, as shown in Fig. 2, air conditioner indoor unit 1 includes shell 400, lower fan assembly 100 Including first shell, the air inlet 102 of lower fan assembly 100 and lower air outlet 107 are set to first shell, windward thermomechanical components 200 Including second shell, the air inlet 102 and upper air outlet 103 of windward thermomechanical components 200 are set to second shell.Wherein, first shell At least part and at least part of second shell be integrally formed, first shell and second shell constitute shell 400 extremely Few a part.It is convenient for the formation of air inlet 102 and air outlet in this way, distinguishes convenient for lower fan assembly 100 and windward thermomechanical components 200 Independent current path is formed, while being convenient for the installation settings of lower fan assembly 100 and windward thermomechanical components 200, it is empty convenient for improving Adjust the appearance regularity and aesthetics of indoor unit 1.

Specifically, first shell includes first front panel and first flank plate (the arrow B institute of front-rear direction as shown in figure 1 Show), the air inlet 102 of lower fan assembly 100 is set to first flank plate, and the lower air outlet 107 of lower fan assembly 100 is set to first Front panel, second shell includes second face plate and second flank plate, after the air inlet 102 of windward thermomechanical components 200 is set to second Panel, the upper air outlet 103 of windward thermomechanical components 200 are set to second face plate, and first front panel and second face plate are integrally formed, First flank plate and second flank plate are integrally formed, a part of first shell and second shell composition shell 400.

Specifically, as shown in figure 4, the air inlet 102 of lower fan assembly 100 and the air inlet of windward thermomechanical components 200 102 In the same side of shell 400, the lower air outlet 107 of lower fan assembly 100 and the upper air outlet 103 of windward thermomechanical components 200 are located at The same side of shell 400.It is entered the wind in this way convenient for lower fan assembly 100 and windward thermomechanical components 200 by respective air inlet 102, Convenient for lower fan assembly 100 and windward thermomechanical components 200 by respective air outlet, avoid air conditioner indoor unit 1 air inlet and Outlet air influences each other, convenient for improving the functional reliability and working effect of air conditioner indoor unit 1.

More specifically, in the longitudinal direction, the air inlet of the air inlet 102 of lower fan assembly 100 and windward thermomechanical components 200 Mouth 102 is located at the rear side of shell 400, the lower air outlet 107 of lower fan assembly 100 and the upper air outlet 103 of windward thermomechanical components 200 Positioned at the front side of shell 400.

Optionally, as shown in figure 4, air conditioner indoor unit 1 further includes partition 500, partition 500 is set in shell 400.Interior is changed Hot device 210 is set in shell 400, and indoor heat exchanger 210 includes upper heat exchanging part 213 and lower heat exchanging part 212, upper heat exchanging part 213 In the top of partition 500 and corresponding with windward thermomechanical components 200, lower heat exchanging part 212 be located at the lower section of partition 500 and with lower blower fan group Part 100 is corresponding.The lower 100 windward thermomechanical components 200 of fan assembly of lower 100 windward thermomechanical components 200 of fan assembly can use in this way every Plate 500 separates the air duct 101 in the air duct 101 of lower fan assembly 100 and windward thermomechanical components 200, avoids lower fan assembly 100 Air duct 101 and the air duct of windward thermomechanical components 200 101 influence each other and under the influence of fan assembly 100 and windward thermomechanical components 200 work Make efficiency, improves the functional reliability and stability of lower fan assembly 100 and windward thermomechanical components 200.

In some embodiments of the invention, the wind wheel 220 of lower fan assembly leeward thermomechanical components 100 is tubular wine wheel, on The wind wheel 220 of fan assembly windward thermomechanical components 200 is one in axial-flow windwheel, oblique flow wind wheel or mixed flow wind wheel.It is convenient in this way Make lower fan assembly 100 and windward thermomechanical components 200 that there is different air-out effect and air output, improves going out for air conditioner indoor unit 1 Wind flexibility and changeability.

Specifically, the wind wheel 220 of windward thermomechanical components upper fan component 200 has wheel hub and multiple fan blades, and wheel hub includes connecting Section and diversion section are connect, fan blade is connected with linkage section, and fan blade extends radially outwardly along linkage section, and multiple fan blades are along linkage section Circumferential equal spacings setting；Diversion section is located at the downside of linkage section, i.e. diversion section is set to linkage section close to the side of motor, The outside wall surface of diversion section forms arcwall face, perhaps forms inclined surface or forms the form of arcwall face and inclined surface combination, passes through Diversion section is set, to play the role of guidance to air-flow, reduces gas-flow resistance.

Wherein, diversion section is processed and formed at one time in process of production with linkage section, simplifies the production technology of wheel hub, can be with The production efficiency of wheel hub is promoted, production cost is reduced；And integrally formed wheel hub, structural strength and bonding strength are larger, surely It is qualitative relatively strong, be conducive to the reliability for promoting the wind wheel 220 of windward thermomechanical components upper fan component 200, windward unit can be extended The service life of the wind wheel 220 of part windward thermomechanical components 200.

In a specific example, the wind wheel 220 of windward thermomechanical components upper fan component 200 is for oblique flow wind wheel and including wheel Hub and multiple fan blades, the wind wheel 220 of lower fan assembly 100 is tubular wine wheel and is formed as the tubulose extended along the vertical direction, is taken turns Hub is connected to the end of the wind wheel 220 of lower fan assembly 100, and wheel hub is hollow structure, and fan blade is connected with wheel hub and along wheel hub It extends radially outwardly, multiple fan blades are arranged along the axial equal spacings of wheel hub, and fan blade is rotated with wheel hub.Above structure it is upper 220 structure of wind wheel of fan assembly windward thermomechanical components 200 is simple, is easy production, and working efficiency is higher.

Further, one end of the wind wheel 220 towards lower fan assembly leeward thermomechanical components 100 of wheel hub has diversion section, The outside wall surface of diversion section is the curved surface of continual curvature, and continual curvature refers to that the curvature of the contact position of curved surface is identical and having the same Direction, that is to say, that the outside wall surface of diversion section is formed as a smooth continuous curve surface, and curvature is constant.By being set on wheel hub Set smooth continuous diversion section, air-flow will not be caused to impact or stop, avoid curvature discontinuously and cause air-flow flowing mutation and Impact, gas are flowed along the diversion section of wheel hub, and windage is smaller, and then can reduce wind energy loss, and can reduce air-conditioning The operating noise of indoor unit 1.

Specifically, as shown in Fig. 2, lower fan assembly leeward thermomechanical components 100 and windward thermomechanical components upper fan component 200 into The first air-inlet grille and the second air-inlet grille, first air-inlet grille and the second air inlet lattice are respectively equipped at air port 102 Grid collectively form air-inlet grille 106.The indoor heat exchanger 210 of lower fan assembly leeward thermomechanical components 100 includes lower 212 He of heat exchanging part First heat exchange bracket, the indoor heat exchanger 210 of windward thermomechanical components upper fan component 200 include upper heat exchanging part 213 and the second heat exchange Bracket, the first heat exchange bracket and the second heat exchange bracket are integrally molded so as heat exchange bracket 211, lower fan assembly leeward thermomechanical components 100 It is connected by heat exchange bracket 211 with shell 400 with the indoor heat exchanger 210 of windward thermomechanical components upper fan component 200.

Optionally, lower fan assembly 100 further includes the first drip tray, and first drip tray is located at lower fan assembly 100 Indoor heat exchanger 210 lower section, the first drip tray be used to access under fan assembly leeward thermomechanical components 100 indoor heat exchanger 210 condensed water.Windward thermomechanical components upper fan component 200 further includes the second drip tray, and second drip tray is located at upper fan The lower section of the indoor heat exchanger 210 of component windward thermomechanical components 200, the second drip tray are used to access windward thermomechanical components upper fan component The condensed water of 200 indoor heat exchanger 210.

A specific embodiment according to the present invention, shell 400 have air inlet 102 and arrange along the vertical direction it is upper go out Air port 103 and lower air outlet 107, lower air outlet 107 include the first wind outlet area 104 and the second wind outlet area 105, the first wind outlet area 104 are located at 105 top of the second wind outlet area.Windward thermomechanical components 200 and lower fan assembly 100 are set in shell 400, and upper fan Component 100 is corresponding with upper air outlet 103 to introduce and blow out from upper air outlet 103, lower fan assembly air-flow from air inlet 102 100 is corresponding with lower air outlet 107 to enter air-flow from air inlet 102 and blow out from lower air outlet 107.

Lower wind guiding component is set at lower air outlet 107, and lower wind guiding component includes the first wind-guiding group being arranged along the vertical direction 310 and the second wind-guiding group 320, the first wind-guiding group 310 is corresponding with the first wind outlet area 104, the second wind-guiding group 320 and the second wind outlet area 105 is corresponding, and the first wind-guiding group 310 includes multiple the first wind guide strips 322 being arranged side by side in left-right direction, the first wind guide strip 322 It vertically extends, the second wind-guiding group 320 includes multiple the second wind guide strips 324 being arranged side by side in left-right direction, and second leads Wind item 324 vertically extends, and is equipped with multiple ventilation holes 323 on the first wind guide strip 322 and the second wind guide strip 324.

Louver assembly 300 is set to the upstream or downstream along air-out direction of lower wind guiding component, and louver assembly 300 includes along upper Multiple blinds 331 of lower direction arrangement, blinds 331 extends in left-right direction, and blinds 331 can be swung up and down.Wherein, windward Thermomechanical components 200 are independently controlled with lower fan assembly 100, the first wind-guiding group 310 and the second wind-guiding group 320.First wind-guiding group Multiple first wind guide strips 322 in 310 are swung simultaneously.Multiple second wind guide strips 324 in second wind-guiding group 320 are swung simultaneously. Multiple blinds 331 in louver assembly 330 are swung simultaneously.

Multiple first wind guide strips 322 in first wind-guiding group 310 arranged for interval and 322 edge of the first wind guide strip in the horizontal direction Up and down direction extend and it is swingable in the horizontal direction, multiple second wind guide strips 324 in the second wind-guiding group 320 are in the horizontal direction Arranged for interval and the second wind guide strip 324 vertically extend and swingable in the horizontal direction.First wind guide strip 322 and second Wind guide strip 324 is swung between wind-guiding position and detent position, at multiple first wind guide strips 322 in the first wind-guiding group 310 The first wind-guiding group 310 opens the first wind outlet area 104 in the state of the wind-guiding position, multiple in the first wind-guiding group 310 First wind guide strip 322 is at least one of the first wind outlet area 104 of the first wind-guiding group 310 closing in the state of the detent position Point.Second wind-guiding group 320 in the state that multiple second wind guide strips 324 in the second wind-guiding group 320 are in the wind-guiding position The second wind outlet area 105 is opened, in the state that multiple second wind guide strips 324 in the second wind-guiding group 320 are in detent position Two wind-guiding groups 320 close at least part of the second wind outlet area 105.

First wind-guiding group 310 further includes the first wind-guiding driver 311, and the first wind-guiding driver 311 is led for driving first Multiple first wind guide strips 322 of wind group 310 are swung.Second wind-guiding group 320 further includes the second wind-guiding driver 321, the second wind-guiding Driver 321 is for driving multiple second wind guide strips 324 of the second wind-guiding group 320 to swing.First wind-guiding driver 311 includes the One driving motor and the first transmission device, the first driving motor are connect with the first drive, the first transmission device and Multiple first wind guide strips 322 of one wind-guiding group 310 are sequentially connected, and the second wind-guiding driver 321 includes the second driving motor and the Two transmission devices, the second driving motor are connect with the second drive, the second transmission device and the second wind guiding component 310 Multiple second wind guide strips 324 are sequentially connected.

Blinds 331 is swung between the first water conservancy diversion position and the second water conservancy diversion position, is in first water conservancy diversion in blinds 331 In the state of position, inclination extends upwards from inside to outside for the windward side of blinds 331, is in second water conservancy diversion position in blinds 331 The windward side of blinds 331 tilts down extension from inside to outside in the state of setting.Blinds 331 further includes third water conservancy diversion position, hundred Leaf 331 is in the state of third water conservancy diversion position, the windward side of blinds 331 horizontal extension from inside to outside, blinds 331 from During first water conservancy diversion position is swung to second water conservancy diversion position, blinds 331 successively passes through first water conservancy diversion position It sets, third water conservancy diversion position and second water conservancy diversion position.Louver assembly 330 further includes blinds driver, blinds driver For driving blinds 331 to swing up and down.Blinds driver includes grille motor and driving device for shutter, and grille motor and blinds pass Dynamic device transmission is connected, and driving device for shutter and blinds 331 are sequentially connected.

Second wind outlet area 105 is located at the top of the first wind outlet area 104, and the height of isolation part 110 is 1m-1.4m.First shell Body includes first front panel and first flank plate (front-rear direction is as indicated by arrow b in fig. 1), the air inlet of lower fan assembly 100 Mouth 102 is set to first flank plate, and the lower air outlet 107 of lower fan assembly 100 is set to first front panel, and second shell includes second Front panel and second flank plate, the air inlets 102 of windward thermomechanical components 200 are set to second flank plate, windward thermomechanical components 200 it is upper go out Air port 103 is set to second face plate, and first front panel and second face plate are integrally formed, first flank plate and second flank plate one It is body formed, a part of first shell and second shell composition shell 400.In the longitudinal direction, the air inlet of lower fan assembly 100 Mouth 102 and the air inlet 102 of windward thermomechanical components 200 are located at the rear side of shell 400,107 He of lower air outlet of lower fan assembly 100 The upper air outlet 103 of windward thermomechanical components 200 is located at the front side of shell 400.

Air conditioner indoor unit 1 further includes partition 500, and partition 500 is set in shell 400, and indoor heat exchanger 210 includes upper heat exchange Portion 213 and lower heat exchanging part 212, upper heat exchanging part 312 are located at the top of partition 500 and, lower heat exchanging part corresponding with windward thermomechanical components 200 212 are located at the lower section of partition 500 and corresponding with lower fan assembly 100.

The wind wheel 220 of windward thermomechanical components 200 is oblique flow wind wheel and including wheel hub and multiple fan blades, lower fan assembly 100 Wind wheel 220 is tubular wine wheel and is formed as the tubulose extended along the vertical direction, and wheel hub is connected to the wind wheel of lower fan assembly 100 220 end, wheel hub are hollow structure, and fan blade is connected with wheel hub and extending radially outwardly along wheel hub, and multiple fan blades are along wheel hub The setting of axial equal spacings, fan blade rotates with wheel hub.One end of the wind wheel 220 towards lower fan assembly 100 of wheel hub With diversion section, the outside wall surface of diversion section is the curved surface of continual curvature, and continual curvature refers to that the curvature of the contact position of curved surface is identical And direction having the same, that is to say, that the outside wall surface of diversion section is formed as a smooth continuous curve surface, and curvature is constant.

Be respectively equipped at lower fan assembly 100 and the air inlet 102 of windward thermomechanical components 200 first air-inlet grille and second into Style grid, first air-inlet grille and second air-inlet grille collectively form air-inlet grille 106.Lower fan assembly 100 Indoor heat exchanger 210 includes lower heat exchanging part 212 and the first heat exchange bracket, and the indoor heat exchanger 210 of windward thermomechanical components 200 includes upper Heat exchanging part 213 and the second heat exchange bracket, the first heat exchange bracket and the second heat exchange bracket are integrally molded so as heat exchange bracket 211, leeward The indoor heat exchanger 210 of thermomechanical components 100 and windward thermomechanical components 200 is connected by the bracket 211 that exchanges heat with shell 400.

Lower fan assembly 100 further includes the first drip tray, and the interior that first drip tray is located at lower fan assembly 100 is changed The lower section of hot device 210, the first drip tray are used to the condensed water of the indoor heat exchanger 210 of fan assembly 100 under access.Windward unit Part 200 further includes the second drip tray, and second drip tray is located at the lower section of the indoor heat exchanger 210 of windward thermomechanical components 200, the Two drip trays are used to the condensed water of the indoor heat exchanger 210 of access windward thermomechanical components 200.

Air conditioner according to an embodiment of the present invention is described below.Air conditioner according to an embodiment of the present invention includes according to this hair The air conditioner indoor unit 1 of bright above-described embodiment.

Air conditioner according to an embodiment of the present invention, by utilizing air conditioner indoor unit 1 according to the above embodiment of the present invention, tool Have the advantages that air-out effect is good, easy to use comfortable.

The control method of air conditioner according to an embodiment of the present invention is described below.Air conditioner according to an embodiment of the present invention Control method the following steps are included:

Obtain wind sense mode instruction；

The first wind-guiding group 310 and the second wind-guiding group 320 are controlled according to the wind sense mode instruction of acquisition, wherein described Wind sense mode includes at least the calm sense mode in part, completely without wind sense mode.

It will be appreciated herein that the air-supply region of air conditioner indoor unit 1 be cool feeling region, " calm sense mode " refer to along Cool feeling region described in air-flow direction includes wind sensillary area domain and calm sensillary area domain, in the calm sensillary area domain, air flowing Speed average is not higher than 0.3m/s and blowing feeling index D R value≤5%.The minimum distance in calm sensillary area domain and air conditioner indoor unit 1 For calm sense distance, calm sense distance can be set according to actual needs, for example, it can be set to calm sense distance is 0.5 meter.

For example, at certain set distance apart from 1 installation site metope of air conditioner indoor unit, such as can be for apart from air-conditioning At 0.5 meter of 1 installation site metope of indoor unit, the air in the vertical plane parallel with the mounting surface of air conditioner indoor unit 1 flows speed Average value 0.3m/s or less (including 0.3m/s) is spent, DR (draft rating index, blowing feeling index) value is less than or equal to 5% A kind of indoor comfortable environment.Wherein, DR value is the percentage for being unsatisfied with crowd as caused by blowing feeling for quantitative forecast.? That is calm sensillary area domain can be formed within the scope of the certain distance of the front side of air conditioner indoor unit 1.

Under calm sense mode, the front of air conditioner indoor unit 1 may include from the near to the distant sequence distribution have wind sensillary area domain, There are wind sense region distance air conditioner indoor unit 1 in calm sensillary area domain and calm wind area recently, speed air flow in the region compared with Greatly, the blowing feeling that user feels is stronger, is easy to produce sense of discomfort.Calm wind area is farthest apart from air conditioner indoor unit 1, empty in the region Flow of air speed is close to zero, and user totally can not feel wind sense in the area.Calm sensillary area domain be located at blowing feeling region and Between calm wind area, the speed air flow in the region is slower, and the wind sense that user feels will not generate sense of discomfort to user, And user can be clearly felt that the refrigeration or heating of air conditioner indoor unit 1, have very high usage comfort.

It certainly, is calm sense at a distance from the boundary and air conditioner 100 for having wind sensillary area domain and the calm sensillary area domain Distance, the calm sense mode may include multiple calm sense grades, the corresponding calm sense of the multiple calm sense grades Distance is different, one of them described calm sense grade may be selected when switching to the calm sense mode.It in this way can be according to room The distribution situation of interior crowd selects calm sense grade, and cold wind can slowly circulate in calm sensillary area domain as a result, can not only rise To the effect of refrigeration, the usage comfort of user can also be promoted.

Optionally, multiple calm sense grades include first grade to N grades, from described first grade to described N grades, institute Calm sense distance is stated to be gradually increased.It is possible thereby to make the control logic of calm sense grade is simpler to be illustrated, user can be convenient Actual use.Of course, it should be understood that the set-up mode of multiple calm sense grades is not limited to that.For example, multiple nothings Wind sense grade may include first grade to N grades, and from first grade to N grades, calm sense distance can be gradually reduced.

0.5m can be no more than in the difference of some embodiments of the present invention, adjacent two grades of calm sense distance, thus may be used Accurately to control the position in calm sensillary area domain, the calm sense effect of air conditioner 100 can be promoted.It is understood that if adjacent Two grades between calm sense apart from it is larger when, then calm sensillary area domain is difficult to cover the entire interior space, to affect user Usage comfort.Be no more than 0.5m by the difference of two grades of calm sense distance of setting, by selecting different gear so that Each position of the calm sense region overlay interior space, can satisfy the use demand of user.Optionally, adjacent two grades calm The difference for feeling distance can be 0.3m.

For example, in a specific example of the invention, multiple calm sense grades may include first grade to sixth speed, One grade of calm sense distance is 0.5m-1m, and the calm sense distance of second gear is 1m-1.5m, and the calm sense distance of third gear is 1.5m-2m, fourth speed calm sense distance be 2.5m-3m, fifth speed calm sense distance be 3.5m-4m, sixth speed it is calm Sense distance is 4.5m-5m.

According to some embodiments of the present invention, it can be equipped with control panel (not shown go out) on shell 400, on control panel The calm sense control key in part can be equipped with, completely without wind sense control key and full blast sense control key, the calm sense of triggering part can be passed through Control key, the wind sense mode that air conditioner indoor unit 1 is selected completely without wind sense control key or full blast sense control key.

It is possible to further select corresponding calm sense by the calm sense control key of triggering part or completely without wind sense control key Grade, it is possible thereby to keep the operation of air conditioner indoor unit 1 more convenient.For example, control panel may include the of calm sense grade One grade of six control key to sixth speed.When needing to select calm sense mode, the calm sense control key in part can be pressed first Or completely without wind sense control key, first grade of one of control key into sixth speed then can be pressed.In another example calm sense etc. The control key of grade may be one, when needing to select first grade, can click control key.When needing to select second gear When, control key can be double-clicked, and so on.It, can be with long-pressing control piece 5 seconds to be resetted after the completion of use.

It will be appreciated herein that the calm sense mode in part refers to: descending the of fan assembly 100 in the vertical direction The front of one wind outlet area 104 or the second wind outlet area 105 has calm sensillary area domain, described to refer to completely without wind sensillary area domain: in vertical side Lower first wind outlet area 104 of fan assembly 100 and the front of the second wind outlet area 105 all have calm sensillary area domain upwards.

Optionally, the wind sense mode can also include full blast sense mode, under the full blast sense mode, the first wind-guiding group 310 and second the wind guide strip 322 of wind-guiding group 320 may be at the wind-guiding position, at this point, the first wind-guiding group 310 opens first Wind outlet area 104, the second wind-guiding group 320 open the second wind outlet area 105.That is, the first wind-guiding group 310 and the second wind-guiding group 320 wind guide strip 322 can fully open corresponding wind outlet area or free swing flap.

In some embodiments of the invention, in the wind sense mode instruction of acquisition sense mode calm for part, control The first wind-guiding group 310 is made to open the first wind outlet area 104 and control the second wind outlet area 105 of the second wind-guiding group 320 closing.

Wherein, one multiple wind guide strip in the first wind-guiding group 310 and the second wind-guiding group 320 can fully open correspondence Wind outlet area or free swing flap.

Specifically, the calm sense mode in part may include upper calm sense mode calm sense mode under, described Under upper calm sense mode, multiple second wind guide strips 324 of the second wind-guiding group 320 close the second wind outlet area 105 and the first wind-guiding group 310 multiple first wind guide strips 322 open the first wind outlet area 104.Under described under calm sense mode, the first wind-guiding group 310 Multiple first wind guide strips 322 close the first wind outlet area 104 and multiple second wind guide strips 324 of the second wind-guiding group 320 open second Wind outlet area 105.That is, the second wind outlet area 105 passes through the ventilation of the second wind guide strip 324 under the upper calm sense mode 323 outlet air of hole, under described under calm sense mode, the first wind outlet area 104 passes through 323 outlet air of ventilation hole of the first wind guide strip 322.

In this way user can according to need the upper calm sense mode of selection or under calm sense mode, in calm sensillary area intra domain user Sense of discomfort will not be generated, and can be clearly felt that the refrigeration or heating of air conditioner indoor unit 1, is had very high using comfortable Degree.For example, can choose lower wind-guiding sense mode when user is adult and children, the use of user not only can be improved Comfort avoids being generated discomfort by wind, and can use the second distally outlet air of wind outlet area 105, improves air conditioning chamber Temperature control effect of the interior machine 1 to the interior space.

Some specific embodiments according to the present invention are the calm sense mode in part in the wind sense mode instruction of acquisition When, the first wind-guiding group 310 of control, which opens the first wind outlet area 104 and controls the second wind-guiding group 320, closes the second wind outlet area 105, the Two wind outlet areas 105 control the upper upward outlet air of air outlet 103 by 323 outlet air of ventilation hole.It not only can be in the second outlet air Area 105 forms calm sense outlet air, forms decanter type air supply pattern in upper air outlet 103 with the feeling calm to people, and above go out Air port 103 and the first wind-guiding group 310 can form flow-disturbing wind in corresponding wind outlet area, improve air-out effect.

In some embodiments of the invention, when the wind sense mode instruction of acquisition is completely without wind sense mode, control First wind-guiding group 310 closes the first wind outlet area 104 and the second wind-guiding group 320 of control closes the second wind outlet area 105.It is convenient in this way The front of first wind outlet area 104 and the second wind outlet area 105 forms calm sensillary area domain, improves the comfort of user.

Some specific embodiments according to the present invention, when the wind sense mode instruction of acquisition is completely without wind sense mode, It controls the first wind-guiding group 310 and closes the first wind outlet area 104 and the second wind outlet area 105 of control the second wind-guiding group 320 closing, first goes out Wind area 104 and the second wind outlet area 105 pass through 323 outlet air of ventilation hole, the upward outlet air of air outlet 103 in control, in this way convenient for upper Air outlet 103 forms decanter type air-supply with the feeling calm to people, leads in the first wind-guiding group 310 of lower air outlet 107 and second The calm sense outlet air of micropore is formed at wind group 320.

Specifically, floor air conditioner indoor machine 1 further includes indoor heat exchanger 210, and indoor heat exchanger 210 includes and upper fan The corresponding upper heat exchanging part 213 of component 200 and lower heat exchanging part 212 corresponding with lower fan assembly 100, described in the control method The control method of air conditioner the following steps are included:

Obtain operating mode instruction；

Lower fan assembly 100 and lower heat exchanging part 212 and windward unit are controlled according to the operating mode instruction of acquisition Part 200 and upper heat exchanging part 213, wherein the operating mode includes at least refrigeration mode, heating mode and ventilation mode.In this way Convenient for controlling the working condition of air conditioner indoor unit 1 according to actual needs, the functionality and applicability of air conditioner indoor unit 1 are improved.

More specifically, described that upper heat exchanging part 213 and windward thermomechanical components are controlled according to the operating mode instruction of acquisition 200 and lower heat exchanging part 212 and lower fan assembly 100, further includes: the first wind-guiding group 310 of control and the second wind-guiding group 320.This Sample can not only select the operating mode of air conditioner indoor unit 1 in refrigeration mode, heating mode or ventilation mode, but also can benefit Cooperate wind-guiding under different working modes with the first wind-guiding group 310 and the second wind-guiding group 320, improves air conditioner indoor unit 1 and freeze Or the effect of heating, improve the comfort of user.For example, the first wind-guiding group 310 and can be controlled in refrigeration mode The wind guide strip 322 of two wind-guiding groups 320 is in the wind-guiding position.

In some embodiments of the invention, leeward machine is controlled when the operating mode instruction of acquisition is refrigeration mode Component 100 and the work of lower heat exchanging part 212 and windward thermomechanical components 200 and upper heat exchanging part 213.It can use the drive of wind wheel 220 in this way Stream of taking offence enters from air inlet 102, blows out, is convenient for after indoor heat exchanger 210 cools down to air-flow, then from air outlet 103 Improve the refrigeration effect of air conditioner indoor unit 1.

Optionally, the room of leeward thermomechanical components 100 is controlled when the operating mode instruction in acquisition is refrigeration mode Interior heat exchanger 210 and the work of wind wheel 220 and the indoor heat exchanger of windward thermomechanical components 200 210 and wind wheel 220, further includes: control Multiple blinds 331 of louver assembly 330 swing up and down or switch to the position that windward side tilts extension upwards from inside to outside.This Sample is convenient for the cold air blown out to air outlet 103 to carry out water conservancy diversion, convenient for cold air to be oriented to the upper and lower region in 1 front of air conditioner indoor unit Domain is oriented to the upper area in 1 front of air conditioner indoor unit to improve the refrigeration range in up and down direction, or by cold air to improve The conveying distance of cold air.

In some embodiments of the invention, it exchanges heat in control when the operating mode instruction of acquisition is heating mode Portion 213 and the closing of windward thermomechanical components 100 and lower heat exchanging part 212 and the work of lower fan assembly 100.Specifically, lower blower fan group Assisted heating device and heating wind wheel can be set in part 100, in the heating mode, control assisted heating device and heating Wind wheel is opened.It can use assisted heating device in this way to heat air-flow, convenient for improving the heating effect of air conditioner indoor unit 1 Fruit.

Certainly, it heats wind wheel and wind wheel 220 can be same wind wheel.

Specifically, the room of leeward thermomechanical components 100 is controlled when the operating mode instruction in acquisition is heating mode The indoor heat exchanger 210 and wind wheel 220 of interior heat exchanger 210 and the work of wind wheel 220 and windward thermomechanical components 200 are closed, further includes: Multiple blinds 331 of control louver assembly 330 swing up and down or switch to the position that windward side tilts down extension from inside to outside It sets.Hot-air in this way convenient for blowing out to air outlet 103 carries out water conservancy diversion, convenient for hot-air is oriented to 1 front of air conditioner indoor unit Lower regions are to improve heating range, or hot-air is oriented to the lower zone in 1 front of air conditioner indoor unit, due to hot-air meeting It moves up, the uniformity that the interior space is heated convenient for raising in this way.

In some embodiments of the invention, leeward machine is controlled when the operating mode instruction of acquisition is ventilation mode The wind of the indoor heat exchanger 210 of component 100 and the closing of indoor heat exchanger 210 of windward thermomechanical components 200 and lower fan assembly 100 The work of at least one of wheel and the wind wheel 220 of windward thermomechanical components 200.It is convenient for driving air from air inlet using wind wheel 220 in this way Mouth 102 enters, then blows out from air outlet 103, convenient for increasing the mobility of interior space air.

Optionally, upper heat exchanging part 213, lower heat exchange are controlled when the operating mode instruction in acquisition is ventilation mode Portion 212 and windward thermomechanical components 200 are closed and lower fan assembly 100 works；On the multiple blinds 331 for controlling louver assembly 330 Lower swing, switch to horizontal position, switch to windward side tilt upwards from inside to outside extension position or windward side from it is interior to The position of extension is tilted down outside.Can use louver assembly 330 in this way to be oriented to air-flow, convenient for by air-flow to Interior Space Between convey, convenient for improve air conditioner indoor unit 1 air supply efficiency.

In some embodiments of the invention, the control method of the air conditioner further include:

Obtain wind sense mode instruction；

The first wind-guiding group 310 and the second wind-guiding group 320 are controlled according to the wind sense mode instruction of acquisition, wherein described Wind sense mode includes at least the calm sense mode in part, completely without wind sense mode.In this way convenient for the operating mode of air conditioner indoor unit 1 and Wind sense mode is controlled, and convenient for improving the functionality and applicability of air conditioner indoor unit 1, improves the comfort of user.

It will be appreciated herein that the operating mode and wind sense mode of air conditioner indoor unit 1 can be controlled simultaneously, That is air conditioner indoor unit 1 can obtain operating mode instruction and wind sense mode instruction simultaneously, referred to according to the operating mode of acquisition It enables and wind sense mode instruction, control air conditioner indoor unit 1 is acted.

Some specific embodiments according to the present invention, the control method of the air conditioner include:

Operating mode instruction and wind sense mode instruction are obtained, is the refrigeration instruction in the operating mode instruction of acquisition When, the indoor heat exchanger 210 of fan assembly 100 and wind wheel 220 and the indoor heat exchanger of windward thermomechanical components 200 210 under controlling It works with wind wheel 220, at this point, the indoor heat exchanger 210 of windward thermomechanical components 200 is in maximum refrigeration work consumption, lower fan assembly 100 The refrigeration work consumption of indoor heat exchanger 210 controlled according to leaving air temp.Multiple blinds 331 of control louver assembly 330 switch to Windward side tilts the position of extension upwards from inside to outside, acquisition the wind sense mode instruction be it is described under calm sense mode When, multiple wind guide strips 322 of the first wind-guiding group 310 of control close multiple wind-guidings of the first wind outlet area 104 and the second wind-guiding group 320 Item 322 opens the second wind outlet area 105, alternatively, acquisition the wind sense mode instruction be it is described completely without wind sense mode when, control Multiple wind guide strips 322 of first wind-guiding group 310 close the first wind outlet area 104 and control multiple wind guide strips of the second wind-guiding group 320 322 close the second wind outlet area 105, alternatively, when the wind sense mode instruction of acquisition is the full blast sense mode, control first Multiple wind guide strips 322 of wind-guiding group 310 open the first wind outlet area 104 and multiple wind guide strips 322 of the second wind-guiding group 320 of control are beaten Open the second wind outlet area 105.At this point, wind guide strip 322 can fully open corresponding wind outlet area or free swing flap.

Other specific embodiments according to the present invention, the control method of the air conditioner include:

Operating mode instruction and wind sense mode instruction are obtained, is heating instruction in the operating mode instruction of acquisition When, the indoor heat exchanger 210 and wind wheel 220 for controlling lower fan assembly 100 work and the indoor heat exchanger of windward thermomechanical components 200 210 and wind wheel 220 close, control louver assembly 330 multiple blinds 331 swing up and down or switch to windward side from inside to outside Tilt down the position of extension.Acquisition the wind sense mode instruction be it is described under calm sense mode when, control the first wind-guiding Multiple wind guide strips 322 of group 310 close the first wind outlet area 104 and the opening of multiple wind guide strips 322 second of the second wind-guiding group 320 goes out Wind area 105, alternatively, acquisition the wind sense mode instruction be it is described completely without wind sense mode when, the first wind-guiding group 310 of control Multiple wind guide strips 322 close the first wind outlet area 104 and control the second outlet air of closing of multiple wind guide strips 322 of the second wind-guiding group 320 Area 105, alternatively, controlling the multiple of the first wind-guiding group 310 when the wind sense mode instruction of acquisition is the full blast sense mode Wind guide strip 322 opens the first wind outlet area 104 and controls second wind outlet area of the opening of multiple wind guide strips 322 of the second wind-guiding group 320 105.At this point, wind guide strip 322 can fully open corresponding wind outlet area or free swing flap.

Other specific embodiments according to the present invention, the control method of the air conditioner include:

Operating mode instruction and wind sense mode instruction are obtained, is ventilation instruction in the operating mode instruction of acquisition When, it controls the lower indoor heat exchanger 210 of fan assembly 100, the indoor heat exchanger 210 of windward thermomechanical components 200 and wind wheel 220 and closes And the wind wheel 220 of lower fan assembly 100 works, multiple blinds 331 of control louver assembly 330 swing up and down, switch to water Prosposition sets, switches to that windward side tilts the position of extension from inside to outside upwards or windward side tilts down extension from inside to outside Position.Acquisition the wind sense mode instruction be it is described under calm sense mode when, control the first wind-guiding group 310 multiple wind-guidings Item 322 closes the first wind outlet area 104 and multiple wind guide strips 322 of the second wind-guiding group 320 open the second wind outlet area 105, alternatively, The wind sense mode instruction obtained be it is described completely without wind sense mode when, multiple wind guide strips 322 of the first wind-guiding group 310 of control close It closes the first wind outlet area 104 and controls second wind outlet area 105 of the closing of multiple wind guide strips 322 of the second wind-guiding group 320, alternatively, obtaining When the wind sense mode instruction taken is the full blast sense mode, multiple wind guide strips 322 of the first wind-guiding group 310 of control open the One wind outlet area 104 and second wind outlet area 105 of the opening of multiple wind guide strips 322 for controlling the second wind-guiding group 320.At this point, wind guide strip 322 Corresponding wind outlet area or free swing flap can be fully opened.

The control method of air conditioner according to an embodiment of the present invention, the air conditioner have air-out effect good, easy to use The advantages that comfortable.

Other of air conditioner according to an embodiment of the present invention are constituted and are operated for those of ordinary skills All be it is known, be not detailed herein.

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, limit There is the feature of " first ", " second " to can explicitly or implicitly include one or more of the features surely.Of the invention In description, unless otherwise indicated, the meaning of " plurality " is two or more.In the description of the present invention, fisrt feature exists Second feature " on " or " under " it may include that the first and second features directly contact, it also may include the first and second features It is not direct contact but by the other characterisation contact between them.

In the description of the present invention, fisrt feature includes fisrt feature above the second feature " above ", " above " and " above " Right above second feature and oblique upper, or first feature horizontal height is merely representative of higher than second feature.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in invention.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are included at least one embodiment or example of the invention.In the present specification, to above-mentioned term Schematic representation may not refer to the same embodiment or example.Moreover, specific features, structure, material or the spy of description Point can be combined in any suitable manner in any one or more of the embodiments or examples.

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 (17)

1. a kind of floor air conditioner indoor machine characterized by comprising

Shell, the upper air outlet and lower air outlet that the shell has air inlet and arranges along the vertical direction, the lower air outlet Including the first wind outlet area and the second wind outlet area, first wind outlet area is located above second wind outlet area；

Windward thermomechanical components and lower fan assembly, the windward thermomechanical components and the lower fan assembly are all provided in the shell, and The windward thermomechanical components are corresponding with the upper air outlet to introduce air-flow from the air inlet and blow out from the upper air outlet, The lower fan assembly is corresponding with the lower air outlet to enter air-flow from the air inlet and blow out from the lower air outlet；

Lower wind guiding component, the lower wind guiding component are set at the lower air outlet, and the lower wind guiding component includes along the vertical direction The the first wind-guiding group and the second wind-guiding group being arranged, the first wind-guiding group is corresponding with first wind outlet area, second wind-guiding Group is corresponding with second wind outlet area, and the first wind-guiding group includes multiple the first wind guide strips being arranged side by side in left-right direction, First wind guide strip vertically extends, and the second wind-guiding group includes that multiple second be arranged side by side in left-right direction are led Wind item, second wind guide strip vertically extend, and are equipped on first wind guide strip and second wind guide strip multiple Ventilation hole；

Louver assembly, the louver assembly are set to the upstream or downstream along air-out direction of the lower wind guiding component, the blinds Component includes the multiple blinds arranged along the vertical direction, and the blinds extends in left-right direction, and the blinds can go up the bottom It is dynamic；

Wherein, the windward thermomechanical components are distinguished only with the lower fan assembly, the first wind-guiding group and the second wind-guiding group Vertical control.

2. floor air conditioner indoor machine according to claim 1, which is characterized in that

Multiple first wind guide strips in the first wind-guiding group are swung simultaneously or at least partly delay is swung；

Multiple second wind guide strips in the second wind-guiding group are swung simultaneously or at least partly delay is swung；

Multiple blinds in the louver assembly are swung simultaneously or at least partly delay is swung.

3. floor air conditioner indoor machine according to claim 1, which is characterized in that first wind guide strip and described second Wind guide strip is swung between wind-guiding position and detent position respectively,

Described first leads in the state that multiple first wind guide strips in the first wind-guiding group are in the wind-guiding position Wind group opens first wind outlet area, and multiple first wind guide strips in the first wind-guiding group are in the detent position In the state of the first wind-guiding group close at least part of first wind outlet area；

Described second leads in the state that multiple second wind guide strips in the second wind-guiding group are in the wind-guiding position Wind group opens second wind outlet area, and multiple second wind guide strips in the second wind-guiding group are in the detent position In the state of the second wind-guiding group close at least part of second wind outlet area.

4. floor air conditioner indoor machine according to claim 1, which is characterized in that the blinds in the first water conservancy diversion position and Swung between second water conservancy diversion position, in the state that the blinds is in the first water conservancy diversion position the windward side of the blinds from Interior to extend to tilting in extroversion, the windward side of the blinds is from interior in the state that the blinds is in the second water conservancy diversion position Extension is tilted down to outer.

5. floor air conditioner indoor machine according to claim 1, which is characterized in that the louver assembly further includes that blinds drives Dynamic device, the blinds driver is for driving the blinds to swing up and down.

6. floor air conditioner indoor machine according to claim 1, which is characterized in that second wind outlet area and described first Lattice is equipped between wind outlet area, the height of the lattice is 1m-1.4m.

7. floor air conditioner indoor machine according to claim 1, which is characterized in that further include:

Partition, the partition are disposed in the housing；

Indoor heat exchanger, the indoor heat exchanger are disposed in the housing, and the indoor heat exchanger includes that upper heat exchanging part is changed under Hot portion, the upper heat exchange part is in the top of the partition and corresponding with the windward thermomechanical components, and the lower heat exchange part is in institute State the lower section of partition and corresponding with the lower fan assembly.

8. floor air conditioner indoor machine according to claim 1, which is characterized in that the wind wheel of the lower fan assembly is to pass through Wind wheel is flowed, the wind wheel of the windward thermomechanical components is one in axial-flow windwheel, oblique flow wind wheel or mixed flow wind wheel.

9. a kind of air conditioner, which is characterized in that including in floor air conditioner room according to claim 1 to 8 Machine.

10. a kind of control method of air conditioner according to claim 9, which comprises the following steps:

Obtain wind sense mode instruction；

The first wind-guiding group and the second wind-guiding group are controlled according to the wind sense mode instruction of acquisition, wherein the wind Sense mode includes at least the calm sense mode in part, completely without wind sense mode.

11. the control method of air conditioner according to claim 10, which is characterized in that

In the wind sense mode instruction of acquisition sense mode calm for part, controls the first wind-guiding group and open described first Wind outlet area simultaneously controls the second wind-guiding group closing second wind outlet area；

When the wind sense mode instruction of acquisition is completely without wind sense mode, controls the first wind-guiding group closing described first and go out Wind area and control the second wind-guiding group closing second wind outlet area.

12. a kind of control method of air conditioner according to claim 9, which is characterized in that in the floor air conditioner room Machine further includes indoor heat exchanger, the indoor heat exchanger include upper heat exchanging part corresponding with the windward thermomechanical components and with it is described The corresponding lower heat exchanging part of lower fan assembly, the control method the following steps are included:

Obtain operating mode instruction；

The upper heat exchanging part and the windward thermomechanical components and the lower heat exchange are controlled according to the operating mode instruction of acquisition Portion and the lower fan assembly,

Wherein, the operating mode includes at least refrigeration mode, heating mode and ventilation mode.

13. the control method of air conditioner according to claim 12, which is characterized in that the work according to acquisition Mode instruction controls the upper heat exchanging part and the windward thermomechanical components and the lower heat exchanging part and the lower fan assembly, also wraps It includes and controls the first wind-guiding group and the second wind-guiding group.

14. the control method of air conditioner according to claim 12, which is characterized in that

Acquisition the operating mode instruction be refrigeration mode when control the upper heat exchanging part and the windward thermomechanical components and The lower heat exchanging part and the lower fan assembly work；

The multiple blinds for controlling the louver assembly, which swing up and down or switch to windward side and tilt upwards from inside to outside, to be prolonged The position stretched.

15. the control method of air conditioner according to claim 12, which is characterized in that

The upper heat exchanging part is controlled when the operating mode instruction of acquisition is heating mode and the windward thermomechanical components are closed And the lower heat exchanging part and the lower fan assembly work；

The multiple blinds for controlling the louver assembly, which swing up and down or switch to windward side and tilt down from inside to outside, to be prolonged The position stretched.

16. the control method of air conditioner according to claim 12, which is characterized in that

The upper heat exchanging part, the lower heat exchanging part and upper fan are controlled when the operating mode instruction of acquisition is ventilation mode Component is closed and the lower fan assembly work；

The multiple blinds for controlling the louver assembly swing up and down, switch to horizontal position, switch to windward side from it is interior to Position or windward side that extension is tilted in extroversion tilt down the position of extension from inside to outside.

17. the control method of air conditioner described in any one of 2-16 according to claim 1, which is characterized in that further include:

Obtain wind sense mode instruction；

The first wind-guiding group and the second wind-guiding group are controlled according to the wind sense mode instruction of acquisition, wherein the wind Sense mode includes at least the calm sense mode in part, completely without wind sense mode.