CN107013979A - Air-conditioner indoor wall on-hook and its control method - Google Patents

Abstract

The invention provides a kind of air-conditioner indoor wall on-hook, including：Casing, defines first chamber, second chamber and exhaust air flue in it；Dividing plate, is arranged between first chamber and second chamber, and is configured to controllably to fall to obstruct first chamber and second chamber；And wind deflector, the bottom of casing is arranged on, and be configured to controllably turn to the first turned position, to close the air outlet positioned at exhaust air flue end；Wherein, air inlet is provided with the top of first chamber, to allow air to flow into first chamber from air inlet；Exhaust air flue is arranged at the lower end of first chamber and second chamber, to allow the air of first chamber to be flow to via exhaust air flue in second chamber；And second chamber is arranged on the front side of first chamber, and the preceding surface of second chamber and is provided with multiple air-vents, to allow to flow out in surrounding environment via multiple air-vents from the air that exhaust air flue is flowed into second chamber.

Description

Air-conditioner indoor wall on-hook and its control method

Technical field

The present invention relates to air-conditioning technique field, more particularly to a kind of air-conditioner indoor wall on-hook.

Background technology

Guide plate is in the state opened always in the existing general operation process of air-conditioning, and air-conditioning is blown by exhaust vent, such a State servant, which knows from experience, experiences air-conditioning blowing feeling, and comfortableness is poor.Simultaneously because wind deflector is in the state opened, interior machine fan Noise, which larger amount of can also be transferred out, to be come, and air-supply noise is big.Though existing big guide plate micropore air-supply scheme realizes micropore air-supply Wind sense is reduced, but reduces many in air-supply air quantity, wind pushing performance is not enough.

The content of the invention

It is an object of the present invention to provide a kind of air-conditioner indoor wall on-hook, the air-out of the air-conditioner indoor wall on-hook will not Blow-through is to user, and operation noise is low, so as to improve the body-sensing comfort level of user.

The present invention one is further objective is that improve the refrigerating/heating efficiency and refrigerating/heating of air-conditioner indoor wall on-hook Effect.

The present invention another further objective is that to provide a kind of control method of air-conditioner indoor wall on-hook so that air-conditioning Indoor wall hanging machine can be according to indoor temperature adjust automatically air supply pattern.

Especially, the invention provides a kind of air-conditioner indoor wall on-hook, including：

Casing, defines first chamber, second chamber and exhaust air flue in it；

Dividing plate, is arranged between the first chamber and the second chamber, and is configured to controllably to fall to obstruct The first chamber and the second chamber；And

Wind deflector, is arranged on the bottom of the casing, and is configured to controllably turn to the first turned position, to close Air outlet positioned at the exhaust air flue end；Wherein,

Air inlet is provided with the top of the first chamber, to allow air to flow into first chamber from the air inlet Room；

The exhaust air flue is arranged at the lower end of the first chamber and the second chamber, to allow the first chamber Air flow to via the exhaust air flue in the second chamber；And

The second chamber be arranged on the front side of the first chamber, and the preceding surface of the second chamber be provided with it is many Individual air-vent, to allow to flow out to via the multiple air-vent from the air that the exhaust air flue is flowed into the second chamber In surrounding environment.

Further, the dividing plate can controllably rise to connect the first chamber and the second chamber；And

The wind deflector can controllably turn to the second turned position, to open the air outlet and cut off second chamber Room and the exhaust air flue, so that ambient air enters in the second chamber via the multiple air-vent, via The second chamber enters in the first chamber, and continues to run in the exhaust air flue and flowed out from the air outlet.

Further, the air-conditioner indoor wall on-hook also includes：

Drive shaft, is arranged at the air inlet front end and is configured to rotate with the first opposite rotation direction and second Direction；And

The dividing plate is fabricated from a flexible material, and its top is connected in the drive shaft, and is configured to work as the driving Rotating shaft towards first rotation direction rotate when, the controlled rise of the dividing plate and in the drive shaft is driven when described Dynamic rotating shaft towards second rotation direction rotate when, the dividing plate is controlled to be fallen and deploys.

Further, the air-conditioner indoor wall on-hook also includes：

Heat-exchanger rig, in the first chamber, with to the air flowed into from the air inlet in the first chamber Exchanged heat；And

The drive shaft is configured to positioned at the front end of the air inlet；And

The dividing plate is configured to when it is fallen to obstruct the first chamber and the second chamber, and its lower end is at least prolonged Extend the downside of the heat-exchanger rig.

Further, to be divided into multiple row on the horizontal direction on the preceding surface of the second chamber saturating for the multiple air-vent There is equal interblock space between stomata group, and the adjacent air-vent group of every two row.

Further, the cross section on its axial direction of the air-vent is circle, and its pore diameter range is 2 To 6mm, the scope of minimum range is 5 to 12mm between the adjacent air-vent of each two.

Present invention also offers a kind of control method of air-conditioner indoor wall on-hook, wherein the air-conditioner indoor wall on-hook is upper Any described air-conditioner indoor wall on-hook is stated, and with the micropore air supply pattern blown by the multiple air-vent and by institute The high speed air supply pattern of air outlet air-supply is stated, the control method includes：

When the air-conditioner indoor wall on-hook is run, whether detection indoor temperature reaches preset temperature；

If so, running the micropore air supply pattern；If it is not, running the high speed air supply pattern；

When the air-conditioner indoor wall on-hook is run, whether detection indoor temperature deviates preset temperature；

If so, the high speed air supply pattern is run, if it is not, running the micropore air supply pattern；Wherein,

Under the micropore air supply pattern, the wind deflector is located at first turned position；

Under the high speed air supply pattern, the wind deflector is located at second turned position.

Further, the indoor temperature reaches that the condition of the preset temperature is, when the change side of the indoor temperature To during preset temperature, the temperature gap of the indoor temperature and the preset temperature is less than the first fiducial temperature described in convergence；

The condition that the indoor temperature deviates the preset temperature is, when the change direction of the indoor temperature is away from institute When stating preset temperature, the temperature gap of the indoor temperature and the preset temperature is more than the second fiducial temperature.

Further, the control method also includes：

When the air-conditioner indoor wall on-hook is started shooting, detect whether the indoor temperature and the difference of the preset temperature are big In the 3rd fiducial temperature；

If so, starting the high speed air supply pattern；If it is not, starting the micropore air supply pattern；And

When the air-conditioner indoor wall on-hook is run, detect whether the air-conditioner indoor wall on-hook receives change air-supply mould The instruction of formula；

If so, then changing current air supply pattern；If it is not, then keeping current air supply pattern.

The second chamber that the air-conditioner indoor wall on-hook of the present invention can be connected by setting via exhaust air flue with first chamber, And the air that can be will accumulate in second chamber disperses outflow from the air-vent of its front side surface, so as to avoid air from without hindrance The air outlet of gear is blown out to user at a high speed, allows user not feel well so that calm sense air-supply is realized in air-conditioner indoor wall on-hook, Improve the usage comfort of user.

Further, air-conditioner indoor wall on-hook of the invention can close air outlet when carrying out calm sense air-supply, from And more good use environment can be provided the user in air-supply after the noise for the generations such as shell inner fan of disembarking.

Further, the second chamber of air-conditioner indoor wall on-hook of the present invention has the front side table for being provided with multiple air-vents Face so that its air-out area is much larger than the air outlet of existing indoor apparatus of air conditioner, so as to while calm sense air-supply is ensured, improve The refrigerating/heating efficiency and refrigerating/heating effect of air-conditioner indoor wall on-hook.

According to the accompanying drawings to the detailed description of the specific embodiment of the invention, those skilled in the art will be brighter Above-mentioned and other purposes, the advantages and features of the present invention.

Brief description of the drawings

Some specific embodiments of the present invention are described in detail by way of example, and not by way of limitation with reference to the accompanying drawings hereinafter. Identical reference denotes same or similar part or part in accompanying drawing.It should be appreciated by those skilled in the art that these What accompanying drawing was not necessarily drawn to scale.In accompanying drawing：

Fig. 1 is the schematic side sectional view of air-conditioner indoor wall on-hook according to an embodiment of the invention；

Fig. 2 is the schematic cross-sectional side of air-conditioner indoor wall on-hook according to an embodiment of the invention in the other state Figure；

Fig. 3 is the schematic elevational view of air-conditioner indoor wall on-hook according to an embodiment of the invention；

Fig. 4 is the wind path schematic diagram of panel according to an embodiment of the invention；

Fig. 5 is the schematic diagram of the control method of air-conditioner indoor wall on-hook according to an embodiment of the invention；

Fig. 6 is the indicative flowchart of the control method of air-conditioner indoor wall on-hook according to an embodiment of the invention.

Embodiment

Fig. 1 is the schematic side sectional view of air-conditioner indoor wall on-hook 1 according to an embodiment of the invention.Referring to Fig. 1, The present invention provides a kind of air-conditioner indoor wall on-hook 1.The air-conditioner indoor wall on-hook 1 may include to be used to support blower fan and change in general manner The skeleton 20 of thermal 60, the case 30 being located on skeleton 20, be connected to the front side of case 30 for constitute air conditioning chamber in The anterior panel 40 of wall hanging machine 1 and left end cap and right end cap positioned at the left and right sides of case 30 etc..Skeleton 20, case 30, face Plate 40 and left and right end cap can collectively form the casing of the air-conditioner indoor wall on-hook 1.

Further, first chamber 100, the and of second chamber 200 are defined in the casing of air-conditioner indoor wall on-hook 1 of the present invention Exhaust air flue 300.Blower fan and heat-exchanger rig 60 are arranged inside first chamber 100, and the top of first chamber 100 is provided with air inlet 101, to allow air to flow into first chamber 100 and flow through heat-exchanger rig 60 and blower fan is exchanged heat and accelerated.Exhaust air flue 300 The lower end of first chamber 100 is arranged at, and its end offers the air outlet 201 of laterally setting, to allow first chamber 100 Air is flowed out in surrounding environment via exhaust air flue 300.Air-conditioner indoor wall on-hook 1 also has wind deflector 10, and be configured to can It is rotatably arranged at the bottom of casing, at the air outlet 201 of the end of exhaust air flue 300, and controllably can opens or close out Wind air channel 300.Specifically, wind deflector can controllably turn to close the air outlet 201 positioned at the end of exhaust air flue 300 the One turned position.

Further, air-conditioner indoor wall on-hook 1 also includes dividing plate 50.Dividing plate 50 be arranged on first chamber and second chamber it Between, and be configured to controllably to fall to obstruct first chamber 100 and second chamber 200.It that is to say, fallen when dividing plate 50 is controlled When, the air in first chamber 100 and second chamber 200 can not be passed through or directly exchanged through dividing plate 50.

Especially, exhaust air flue 300 is arranged at the lower end of first chamber 100 and second chamber 200, to allow first chamber 100 air is flow in second chamber 200 via exhaust air flue 300.Specifically, second chamber 200 is located at first chamber 100 Front side, and configure and controllably can be connected with exhaust air flue 300, to allow the air of first chamber 100 to be flowed via exhaust air flue 300 Move to second chamber 200.It that is to say, second chamber 200 can be connected controllably by exhaust air flue 300 with first chamber 100. Specifically, the air for flowing into first chamber 100 in casing by air inlet 101 can flow downwardly into air-out wind via first chamber 100 Road 300, and further or by exhaust air flue 300 forward downward can be guided to flow out to surrounding environment via air outlet 201, or to Front upper place continues to run to second chamber 200.Further, multiple air-vents are provided with the preceding surface of second chamber 200 301, to allow the air in second chamber 200 to be flowed out to via multiple air-vents 301 are scattered in surrounding environment.

Specifically, when wind deflector 10 turns to the first turned position, wind deflector 10 is obliquely vertically arranged, and under it Along the lower end of air outlet 201 is resisted against, thereon along the inner side on the preceding surface for being overlapped on second chamber 200, so that by exhaust air flue The air outlet 201 of 300 ends is closed.Now, barrier is not present between second chamber 200 and exhaust air flue 300 so that the first chamber Air in room 100 can be flowed into from exhaust air flue 300 and full of second chamber 200, so as to be further opened in from multiple The scattered outflow of the air-vent 301 on the preceding surface of second chamber 200.

Multiple air-vents 301 can be evenly distributed in the preceding surface of second chamber 200, and multiple air-vents 301 can be with It is of the same size, and is configured on panel be uniformly distributed from up to down, from left to right, it is equal so as to improve air-supply Even property, and enhance the aesthetic property of air-conditioner indoor wall on-hook 1.

What the air-conditioner indoor wall on-hook 1 of the present invention can be connected by being provided with via exhaust air flue 300 with first chamber 100 Second chamber 200, and the air that can be will accumulate in second chamber 200 disperses outflow from the air-vent 301 of its front side surface, from And avoid air and blown out at a high speed from unobstructed air outlet 201 and allow user not feel well so that air-conditioner indoor wall on-hook 1 is realized Calm sense air-supply, improves the usage comfort of user.

Further, second chamber 200 has the front side surface for being provided with multiple air-vents 301 so that its air-out area Much larger than the air outlet 201 of existing indoor apparatus of air conditioner, so that while calm sense air-supply is ensured, within the same working time, To the indoor offer at least cold equal with traditional air conditioner, the refrigerating/heating efficiency of calm sense air-conditioner indoor wall on-hook 1 can be improved With refrigerating/heating effect so that the present invention air-conditioner indoor wall on-hook 1 disclosure satisfy that in larger space should With.

Fig. 2 is the schematic side of air-conditioner indoor wall on-hook 1 according to an embodiment of the invention in the other state to cuing open View.Referring to Fig. 1 and Fig. 2, in some embodiments of the invention, wind deflector 10 is configured to be rotatably connected to skeleton 20 Lower end.Further, wind deflector 10 can controllably turn to the second turned position, to open air outlet 201 and cut off the second chamber Room 200 and exhaust air flue 300.Now, dividing plate 50 can controllably rise to connect first chamber 100 and second chamber 200.By This, ambient air can enter in second chamber 200 via multiple air-vents 301, and enter first via second chamber 200 In chamber 100, then flow into exhaust air flue 300 and flowed out from air outlet 201.

Specifically, when wind deflector 10 turns to the second turned position, wind deflector 10 is obliquely laterally setting, thereon edge The rear side surface of second chamber 200 is rotated backward and is resisted against, its lower edge rotates forward and is resisted against the front side of second chamber 200 Surface, so that exhaust air flue 300 and second chamber 200 be separated.Now, flowed to from first chamber 100 in exhaust air flue 300 Air cannot be introduced into first chamber 100, but flowed out to directly from the air outlet 201 of exhaust air flue 300 in surrounding environment. That is, the air-conditioner indoor wall on-hook 1 of the embodiment of the present invention can not only have calm sense air supply pattern, can also be according to user's Demand switches to common refrigeration and heating mode, so as to improve the usage experience of user.

In some embodiments of the invention, air-conditioner indoor wall on-hook 1 also includes drive shaft 51.Drive shaft 51 is set In the front end of air inlet 101 and it is configured to opposite the first rotation direction and the second rotation direction.Further, dividing plate 50 can It is configured to be fabricated from a flexible material.The top of flexible baffle 50 may connect in drive shaft 51, and be configured to work as drive shaft 51 towards the first rotation direction rotate when, dividing plate 50 it is controlled rise and in drive shaft 51, when drive shaft 51 towards second When rotation direction is rotated, dividing plate 50 is controlled to be fallen and deploys.Specifically, by taking the view direction in Fig. 1 and Fig. 2 as an example, driving turns Axle 51 can have the first rotation direction rotated counterclockwise and the second rotation direction rotated clockwise.

In some embodiments of the invention, first chamber 100 can be formed between skeleton 20 and case 30, second chamber 200 can be formed between panel 40 and case 30, and form by least part panel 40 the preceding surface of second chamber 200.Also It is to say, the preceding surface of second chamber 200 is panel 40.Further, case 30, which has, is arranged at first chamber 100 and second Transverse frame (not showed that in figure) between chamber 200, it is each defined in by first chamber 100 and second chamber 200 Front side and rear side.In the present embodiment, drive shaft 51 may be disposed at the top of transverse frame, and flexible baffle 50 can transversely frame The side lifting of frame.

Further, the width substantially phase that may be sized to casing of transverse frame and dividing plate 50 in a lateral direction It can be extended respectively on the inside of the left end cap of casing and on the inside of right end cap Deng, left and right ends of the two, so that by the He of first chamber 100 Second chamber 200 is isolated entirely from a lateral direction.

In some embodiments of the invention, heat-exchanger rig 60 can bendingly be arranged on first chamber 100 for multisection type Interior, it has and the roughly equal width of air inlet 101 in a lateral direction, and is configured to from the rear side in first chamber 100 Top position forward upward extends close to the rear side of case 30, then extends still further below, to cover air intake in the longitudinal direction The downside of mouth 101, so that realizing can exchange heat to the almost all air flowed into from air inlet 101 in first chamber 100. Transverse frame then can be configured to, and its upper end may extend to the front end of air inlet 101, and its lower end may extend under heat-exchanger rig 60 Side.Correspondingly, dividing plate 50 can be configured to, and be fallen and when obstructing first chamber 100 and second chamber 200 when its is controlled, its lower end At least extend to the downside of heat-exchanger rig 60.It that is to say, transverse frame and the in the vertical direction of dividing plate 50 are highly not less than heat exchange The size of the in the vertical direction of device 60, so as to avoid being located at the air permeable for passing through heat exchange in first chamber 100 or bypass horizontal stroke Flowed into framework and dividing plate 50 in second chamber 200.

Further, case 30 can also have the extension board rearward extended from the lower end of transverse frame, and extension board There is the length not less than the thickness of heat-exchanger rig 60 on the thickness direction of air-conditioner indoor wall on-hook 1, so as to preferably will Heat-exchanger rig 60 in first chamber 100 is separated with exhaust air flue 300, so that air has abundance in first chamber 100 Space exchanged heat.

Fig. 3 is the schematic elevational view of air-conditioner indoor wall on-hook according to an embodiment of the invention.Referring to Fig. 3, at this In some embodiments of invention, multiple air-vents 301 are divided into multiple row air-vent group, and every two on the horizontal direction of panel 40 There is equal interblock space between the adjacent air-vent group of row.

It that is to say, multiple air-vents 301 generally uniform distribution on panel 40 and wind deflector 10, so that unit area The quantity of interior air-vent 301 is roughly equal, it is possible thereby to make the wind through the blowout of air-vent 301 more uniform.

In some embodiments of the invention, the cross section on its axial direction of the air-vent 301 is circle Shape, circular air-vent 301 is easy to manufacture, so as to simplify the manufacture craft of air-conditioner indoor wall on-hook 1.Certain air-vent 301 cross section can also be other shapes, such as ellipse, polygon, strip.

The scope in the circular aperture of air-vent 301 is 2 to 6mm, for example can for 2mm, 2.5mm, 3mm, 3.5mm, 4mm, The scope of minimum range is 5 to 12mm between 4.5mm, 5mm and 5.5mm etc., the adjacent air-vent 301 of each two, for example Can be 5mm, 6mm, 7mm, 8mm, 9mm, 10mm and 11mm etc., its specific numerical value can be by wanting to air output and muting function Ask and further chosen.

In some embodiments of the invention, the multiple air-vents 301 opened up on panel 40 can be divided into multiple first and breathe freely Hole 301a and multiple second air-vent 301b.Multiple first air-vent 301a tilt extension on the thickness direction of panel 40.The One air-vent 301a can be configured to, and its angle of inclination makes at least partly the first air-vent 301a the first air-out wind path and at least portion The second air-vent 301b the second air-out wind path is divided to be crossed in the outside of panel 40.

Fig. 4 is the wind path schematic diagram of panel 40 according to an embodiment of the invention.Referring to Fig. 4, from the first air-vent Diagonally downward, the cluster straight line above in Fig. 4 shows that wind passes through the first air-vent to the wind direction of the wind of 301a blowouts The wind path blown out after 301a.Underlying cluster straight line in Fig. 4 shows wind by blowing out after the second air-vent 301b Wind path.As can be seen here, from the first air-vent 301a flow out air and from the second air-vent 301b flow out air can be mutually dry Disturb, change its original flow direction, so as to realize that sinuous flow is blown, and then can almost entirely avoid wind blow-through to user's body On.Certainly, the first air-vent 301a may also set up in the second air-vent 301b lower section and be configured to the extension that is inclined upwardly.

The panel 40 of the present invention is blown by tilting its part air-vent, realizes the refrigeration from the part air-vent blowout Or the wind facies interference that wind can be blown out with least another part air-vent is heated, two parts air-out intersects and forms sinuous flow wind, uses Wind not blow-through, strengthens calm sense experience.

Further, because panel 40 of the present invention can will send out the wind of different directions, and intersect multidirectional wind mixing, Therefore the air supply areas of air-vent can have the size slightly larger than existing air-supply micropore, so as to bigger air output, carry High air conditioner refrigerating or heating efficiency.

Further, due to being located at the top of panel 40, the with the multiple first air-vent 301a for tilting down angle Two air-vent 301b are not required to set angle of inclination both to realize intersection air-supply.It that is to say, the second air-vent 301b air supply direction When parallel with the thickness direction of panel 40, the wind blown out from the second air-vent 301b just can with from the first air-vent 301a The wind of blowout intersects.Thus, it is possible to ensure that panel 40 has higher structural strength, and its manufacturing process is simplified.

In some embodiments of the invention, multiple second air-vent 301b also tiltables on the thickness direction of panel 40 Extension, and be configured to make the second air-out wind path tilt upward from the preceding surface of panel 40.It that is to say, the second air-vent 301b can also have Have certain angle of inclination so that the wind energy blown out from the second air-vent 301b it is enough apart from the outer surface of panel 40 closer to Position intersects with being mixed from the first air-vent 301a wind blown out, and then enhance the intersection air-supply of air-conditioner indoor wall on-hook 1 Effect.

The present invention also provides a kind of control method of air-conditioner indoor wall on-hook 1, and the control method can be implemented by any of the above The air-conditioner indoor wall on-hook 1 of example is performed.Specifically, there is air outlet 201 to be closed completely by wind deflector 10 for air-conditioner indoor wall on-hook 1 Close, the micropore air supply pattern and wind deflector 10 only blown by multiple air-vents 301 are opened completely, are blown by air outlet 201 High speed air supply pattern.It that is to say, when wind deflector 10 turns to the first turned position, the operation micropore of air-conditioner indoor wall on-hook 1 Air supply pattern, when wind deflector 10 turns to the second turned position, the operation high speed air supply pattern of air-conditioner indoor wall on-hook 1.

Fig. 5 is the schematic diagram of the control method of air-conditioner indoor wall on-hook 1 according to an embodiment of the invention.Referring to Fig. 5, The control method of air-conditioner indoor wall on-hook 1 includes：

Step S106, when air-conditioner indoor wall on-hook 1 is run, whether detection indoor temperature reaches preset temperature；

If so, operation micropore air supply pattern (that is to say steps below S108), if it is not, operation high speed air supply pattern (that is to say steps below S102)；

Step S112, when air-conditioner indoor wall on-hook 1 is run, whether detection indoor temperature deviates preset temperature；

If so, operation high speed air supply pattern, if it is not, operation micropore blast type.

Further, in above step S106, indoor temperature reaches that the condition of preset temperature is, when changing for indoor temperature When changing direction as convergence preset temperature, the temperature gap of indoor temperature and preset temperature is less than the first fiducial temperature.

In above step S112, the condition that indoor temperature deviates preset temperature is, when the change direction of indoor temperature is During away from preset temperature, the temperature gap of indoor temperature and preset temperature is more than the second fiducial temperature.

Specifically, the first fiducial temperature and the second fiducial temperature can be configured according to the demand of user, and such as first is pre- If the temperature difference can be 0.5 DEG C, 0.7 DEG C, 0.9 DEG C etc., the second fiducial temperature can be 1 DEG C, 1.5 DEG C, 2 DEG C etc..

Fig. 6 is the indicative flowchart of the control method of air-conditioner indoor wall on-hook 1 according to an embodiment of the invention.Ginseng See Fig. 6, the control method of air-conditioner indoor wall on-hook 1 also includes：

Step S100, starts air-conditioner indoor wall on-hook 1, and set refrigeration or heat temperature；

Step S102, starts high speed air supply pattern；

Step S104, judges whether air-conditioner indoor wall on-hook 1 receives micropore air-supply instruction；

If so, performing step S1040；If it is not, performing step S106；

Step S108, starts micropore air supply pattern；

Step S110, judges whether air-conditioner indoor wall on-hook 1 receives air-supply instruction at a high speed；

If so, step S1100 is performed, if it is not, performing step S112；

Wherein, step S1040 is keeps micropore air supply pattern, and step S1100 is holding high speed air supply pattern, step S114 To keep current air supply pattern persistently to blow.

Further, there is temperature-detecting device indoor temperature is detected for air-conditioner indoor wall on-hook 1.In air conditioning chamber When interior wall hanging machine 1 is started shooting, detect whether the difference of indoor temperature and preset temperature is more than the 3rd fiducial temperature first.If so, then Start high speed air supply pattern, that is to say step S102, and perform the step in above-mentioned control method successively.If it is not, then starting micro- Hole air supply pattern, that is to say step S108, and perform other steps in above-mentioned control method successively.Specifically, the 3rd preset The temperature difference can be configured according to the demand of user, to meet the use of the user with different requirements.

Further, in the running of air-conditioner indoor wall on-hook 1, control method also includes detection air-conditioner indoor wall on-hook Whether 1 receive the instruction for changing air supply pattern.If so, then changing current air supply pattern；If it is not, then keeping current air-supply Pattern.It that is to say, when air-conditioner indoor wall on-hook 1 receives change air-supply instruction, no matter whether indoor temperature has reached before this Each preset temperature, changes air supply pattern according to the instruction now received immediately.

It should be noted that in above control method, start micropore air supply pattern can refer to it is current at a high speed or other During air supply pattern, micropore air supply pattern is switched to, can also refer to current when being micropore air supply pattern, continues to keep micropore to send Wind pattern.Correspondingly, when startup high speed air supply pattern can be referred to currently as micropore or other air supply patterns, switch to and blow at a high speed Pattern, can also refer to current when being high speed air supply pattern, continue to keep high speed air supply pattern.

It will be understood by those skilled in the art that in case of no particular description, alleged by the embodiment of the present invention " on ", " under ", " interior ", " outer " etc. the term that is used to represent orientation or position relationship be with the real use state of air-conditioner indoor wall on-hook 1 On the basis of for, these terms are for only for ease of description and understand technical scheme, rather than indicate or imply Signified device or part must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to this The limitation of invention.

So far, although those skilled in the art will appreciate that detailed herein have shown and described multiple showing for the present invention Example property embodiment, still, still can be direct according to present disclosure without departing from the spirit and scope of the present invention It is determined that or deriving many other variations or modifications for meeting the principle of the invention.Therefore, the scope of the present invention is understood that and recognized It is set to and covers other all these variations or modifications.

Claims (9)

1. a kind of air-conditioner indoor wall on-hook, including：

Casing, defines first chamber, second chamber and exhaust air flue in it；

Dividing plate, is arranged between the first chamber and the second chamber, and is configured to controllably fall described to obstruct First chamber and the second chamber；And

Wind deflector, is arranged on the bottom of the casing, and is configured to controllably turn to the first turned position, is located at closing The air outlet of the exhaust air flue end；Wherein,

Air inlet is provided with the top of the first chamber, to allow air to flow into the first chamber from the air inlet；

The exhaust air flue is arranged at the lower end of the first chamber and the second chamber, to allow the sky of the first chamber Gas is flow in the second chamber via the exhaust air flue；And

The second chamber be arranged on the front side of the first chamber, and the preceding surface of the second chamber be provided with it is multiple Stomata, to allow the air flowed into from the exhaust air flue in the second chamber to flow out to surrounding via the multiple air-vent In environment.

2. air-conditioner indoor wall on-hook according to claim 1, wherein,

The dividing plate can controllably rise to connect the first chamber and the second chamber；And

The wind deflector can controllably turn to the second turned position, with open the air outlet and cut off the second chamber with The exhaust air flue, so that ambient air enters in the second chamber via the multiple air-vent, via described Second chamber enters in the first chamber, and continues to run in the exhaust air flue and flowed out from the air outlet.

3. air-conditioner indoor wall on-hook according to claim 2, wherein, the air-conditioner indoor wall on-hook also includes：

Drive shaft, is arranged at the air inlet front end and is configured to the first opposite rotation direction and the second rotation side To；And

The dividing plate is fabricated from a flexible material, and its top is connected in the drive shaft, and is configured to work as the drive shaft When being rotated towards first rotation direction, the dividing plate is controlled to rise and in the drive shaft, when the driving turns Axle towards second rotation direction rotate when, the dividing plate is controlled to be fallen and deploys.

4. air-conditioner indoor wall on-hook according to claim 3, in addition to：

Heat-exchanger rig, in the first chamber, to be carried out to the air flowed into from the air inlet in the first chamber Heat exchange；And

The drive shaft is configured to positioned at the front end of the air inlet；And

The dividing plate is configured to when it is fallen to obstruct the first chamber and the second chamber, and its lower end is at least extended to The downside of the heat-exchanger rig.

5. air-conditioner indoor wall on-hook according to claim 3, wherein,

The multiple air-vent is divided into multiple row air-vent group, and every two on the horizontal direction on the preceding surface of the second chamber There is equal interblock space between the adjacent air-vent group of row.

6. air-conditioner indoor wall on-hook according to claim 1, wherein,

The cross section on its axial direction of the air-vent is circle, and its pore diameter range is 2 to 6mm, each two The scope of minimum range is 5 to 12mm between the adjacent air-vent.

7. a kind of control method of air-conditioner indoor wall on-hook, wherein the air-conditioner indoor wall on-hook is according in claim 1~6 Air-conditioner indoor wall on-hook described in any one, and with the micropore air supply pattern blown by the multiple air-vent and by institute The high speed air supply pattern of air outlet air-supply is stated, the control method includes：

When the air-conditioner indoor wall on-hook is run, whether detection indoor temperature reaches preset temperature；

If so, running the micropore air supply pattern；If it is not, running the high speed air supply pattern；

When the air-conditioner indoor wall on-hook is run, whether detection indoor temperature deviates preset temperature；

If so, the high speed air supply pattern is run, if it is not, running the micropore air supply pattern；Wherein,

Under the micropore air supply pattern, the wind deflector is located at first turned position；

Under the high speed air supply pattern, the wind deflector is located at second turned position.

8. control method according to claim 7, wherein,

The indoor temperature reaches that the condition of the preset temperature is, when the change direction of the indoor temperature is pre- described in convergence If during temperature, the temperature gap of the indoor temperature and the preset temperature is less than the first fiducial temperature；

The condition that the indoor temperature deviates the preset temperature is, when the change direction of the indoor temperature is away from described pre- If during temperature, the temperature gap of the indoor temperature and the preset temperature is more than the second fiducial temperature.

9. control method according to claim 7, in addition to：

When the air-conditioner indoor wall on-hook is started shooting, detect whether the difference of the indoor temperature and the preset temperature is more than the Three fiducial temperatures；

If so, starting the high speed air supply pattern；If it is not, starting the micropore air supply pattern；And

When the air-conditioner indoor wall on-hook is run, detect whether the air-conditioner indoor wall on-hook receives and change air supply pattern Instruction；

If so, then changing current air supply pattern；If it is not, then keeping current air supply pattern.