CN106958864B - Air-conditioner indoor wall on-hook and its control method - Google Patents

Abstract

A kind of air-conditioner indoor wall on-hook, comprising: casing inside defines first chamber, the second chamber on front side of first chamber and the exhaust air flue on the downside of first chamber and second chamber；Wind deflector is configured to be rotatably arranged in casing lower part, to open or close the air outlet for being located at exhaust air flue end；Partition is arranged between first chamber and second chamber, and is configured to controllably to rise to be connected to first chamber and second chamber；And baffle, it is arranged between second chamber and exhaust air flue, and be configured to controllably to stretch out to cut off second chamber and exhaust air flue；Wherein, the bottom end of first chamber is connected to exhaust air flue, and multiple air holes are provided in the front surface of second chamber, to allow ambient air to enter second chamber via multiple air holes, and enters first chamber via second chamber, then flow into exhaust air flue and flowed out from air outlet.

Description

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

Technical field

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

Background technique

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 State servant, which knows from experience, experiences air-conditioning blowing feeling, and comfort is poor.Simultaneously because wind deflector is in the state opened, interior machine fan Noise, which larger amount of can also transfer 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 very much, wind pushing performance deficiency in air-supply air quantity.

Summary of the invention

It can highly effective refrigeration/heating air-conditioner indoor wall on-hook it is an object of the present invention to provide one kind.

Another object of the present invention is to reduce the operation low noise and air-supply wind sense of air-conditioner indoor wall on-hook, to improve The body-sensing comfort level of user.

A further object of the invention is to increase the diversity of the air supply pattern of air-conditioner indoor wall on-hook, to mention The usage comfort and flexibility of high user.

Another further object of the present invention is to provide a kind of control method of air-conditioner indoor wall on-hook, so that air-conditioning Indoor wall-hanger can be according to room temperature adjust automatically air supply pattern.

Particularly, the present invention provides a kind of air-conditioner indoor wall on-hooks, comprising:

Casing inside defines first chamber, the second chamber on front side of the first chamber and positioned at described first Exhaust air flue on the downside of chamber and the second chamber；

Wind deflector is configured to be rotatably arranged in the casing lower part, is located at the exhaust air flue to open or close The air outlet of end；

Partition is arranged between the first chamber and the second chamber, and is configured to controllably rise to be connected to The first chamber and the second chamber；And

Baffle is arranged between the second chamber and the exhaust air flue, and is configured to controllably stretch out to cut off The second chamber and the exhaust air flue；Wherein,

The bottom end of the first chamber is connected to the exhaust air flue, and is provided in the front surface of the second chamber more A air hole, to allow ambient air to enter the second chamber via the multiple air hole, and via described second Chamber enters the first chamber, then flows into the exhaust air flue and flows out from the air outlet.

Further, it is provided with air inlet at the top of the first chamber, to allow air from described in air inlet inflow First chamber；

The partition can controllably be fallen to obstruct the first chamber and the second chamber；And

The baffle can controllably be retracted to be connected to the second chamber and the exhaust air flue, to make first chamber Indoor air enters the second chamber via the exhaust air flue, and flows out to ambient enviroment by the multiple air hole In.

Further, the air-conditioner indoor wall on-hook further include:

Drive shaft is set to the air inlet front end and is configured to the first opposite rotation direction and the second rotation Direction；And

The partition is fabricated from a flexible material, and top is connected in the drive shaft, and is configured to when the driving When shaft is rotated towards first rotation direction, the controlled rise of the partition and in the drive shaft, when the drive When turn axis is rotated towards second rotation direction, the partition is controlled to be fallen and is deployed in the first chamber and described second Between chamber.

Further, the air-conditioner indoor wall on-hook further include:

Heat-exchanger rig is located in the first chamber, to the air flowed into the first chamber from the air inlet It exchanges heat；And

The partition is configured to, when its is controlled falls and obstruct the first chamber and the second chamber, lower end At least extend to the downside of the heat-exchanger rig.

Further, it is ventilative to be divided into multiple row in the transverse direction of the second chamber front surface for the multiple air hole Hole group, and every two arrange between the adjacent air hole group with equal interblock space；And

Multiple air holes are offered on the wind deflector, and are configured to be divided in the transverse direction of the wind deflector At air hole group under multiple row, and respectively with the multiple row air hole group in the second chamber front surface to positive arrangement.

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

The present invention also provides a kind of control methods of air-conditioner indoor wall on-hook, wherein the air-conditioner indoor wall on-hook is upper Any air-conditioner indoor wall on-hook is stated, and there is the micropore air supply pattern blown by the multiple air hole and pass through institute The high speed air supply pattern of air outlet air-supply is stated, the control method includes:

In air-conditioner indoor wall on-hook operation, whether detection room temperature reaches preset temperature；

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

In air-conditioner indoor wall on-hook operation, whether detection room temperature deviates preset temperature；

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

Further, the room temperature reaches the condition of the preset temperature and is, when the change side of the room temperature When to approach the preset temperature, the temperature gap of the room temperature and the preset temperature is less than the first fiducial temperature；

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

Further, the air-conditioner indoor wall on-hook is configured to:

After receiving the executing instruction of the high speed air supply pattern, the first step, which executes, opens the operation of the wind deflector to complete The position of air outlet described in full open, second step, which executes, stretches out the baffle extremely for the second chamber and the exhaust air flue phase The position separated, the operation of the third portion execution rise partition is to the partition completely in the drive shaft；

After receiving the executing instruction of the micropore air supply pattern, the first step, which executes, closes the operation of the wind deflector extremely The position of the air outlet is completely closed, second step, which executes, retracts the baffle extremely for the second chamber and the exhaust air flue The position being connected, operation to the partition that the partition is fallen in third step execution are fully deployed at the first chamber and institute It states between second chamber.

Air-conditioner indoor wall on-hook of the invention, which passes through, is arranged on the auxiliary air inlet that can be used for for offering multiple air holes Front panel, so that the air-conditioner indoor wall on-hook can have sufficient air inlet and air output, so as to improve in air conditioning chamber The refrigerating/heating efficiency and refrigerating/heating effect of wall-hanger.

Further, air-conditioner indoor wall on-hook of the invention, which passes through, is provided with and can be connected to via exhaust air flue with first chamber Second chamber, and the air in second chamber can be will accumulate in from the dispersion outflow of the air hole of its front side surface, to avoid Air allows user not feel good from unobstructed air outlet high speed blowout, so that air-conditioner indoor wall on-hook realizes that calm sense is sent Wind improves the usage comfort of user.

Further, since second chamber has the front side surface for being provided with multiple air holes, so that its air-out area is remote Greater than the air outlet of existing air conditioner indoor unit, thus while guaranteeing calm sense air-supply, it, can be to room within the same working time It is interior that cooling capacity at least equal with traditional air conditioner is provided, improve the calm refrigerating/heating efficiency for feeling air-conditioner indoor wall on-hook and freeze/ Heating effect, so that air-conditioner indoor wall on-hook of the invention can satisfy the application in larger space.

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

Further, air-conditioner indoor wall on-hook of the invention, can by the way that liftable partition and telescopic baffle is arranged According to user, to air conditioning exhausting amount and out, the demand of wind velocity carries out the adjustment of air supply pattern, to avoid the occurrence of air-supply wind speed mistake The problems such as fast or intake is insufficient, improves the usage comfort and flexibility of user.

According to the following detailed description of specific embodiments of the present invention in conjunction with the accompanying drawings, those skilled in the art will be brighter The above and other objects, advantages and features of the present invention.

Detailed description of the invention

Some specific embodiments of the present invention is described in detail by way of example and not limitation with reference to the accompanying drawings hereinafter. Identical appended drawing reference denotes same or similar part or part in attached drawing.It should be appreciated by those skilled in the art that these What attached drawing was not necessarily drawn to scale.In attached 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 control method of the execution high speed air supply pattern of air-conditioner indoor wall on-hook according to an embodiment of the invention Schematic diagram；

Fig. 6 is the control method of the execution micropore air supply pattern of air-conditioner indoor wall on-hook according to an embodiment of the invention Schematic diagram；

Fig. 7 is the schematic diagram of the control method of air-conditioner indoor wall on-hook according to an embodiment of the invention；

Fig. 8 is the schematic flow chart of the control method of air-conditioner indoor wall on-hook according to an embodiment of the invention.

Specific 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 generally may include being used to support blower and changing The skeleton 20 of thermal 60, the housing 30 being located on skeleton 20 are connected to the front side of housing 30 for being constituted in air conditioning chamber The panel 40 of 1 front of wall-hanger and left end cap positioned at the left and right sides of housing 30 and right end cap etc..Skeleton 20, housing 30, face Plate 40 and left and right end cap may make up the casing of the air-conditioner indoor wall on-hook 1.

Further, first chamber 100 is defined in the casing of air-conditioner indoor wall on-hook 1 of the present invention, is located at first chamber The second chamber 200 of 100 front sides and the exhaust air flue 300 on the downside of first chamber 100 and second chamber 200.It blower and changes Thermal 60 is set to inside first chamber 100, and air inlet 101 is provided at the top of first chamber 100, to allow air to flow into One chamber 100 simultaneously flows through heat-exchanger rig 60 and blower is exchanged heat and accelerated.The beginning of exhaust air flue 300 is set to first chamber 100 lower end, and its end offers the air outlet 201 being laterally arranged, to allow the air of first chamber 100 via outlet air wind Road 300 flows out in ambient enviroment.Air-conditioner indoor wall on-hook 1 also has wind deflector 10, and is configured to be rotatably arranged in machine At the bottom of shell, the air outlet 201 of 300 end of exhaust air flue, and it can controllably turn on or off air outlet 201.

Particularly, air-conditioner indoor wall on-hook 1 further includes partition 50 and baffle 70.Partition is arranged in first chamber and the second chamber Between room, and it is configured to controllably to rise to be connected to first chamber and second chamber.Baffle plate setting is in second chamber and outlet air Between air duct, and it is configured to controllably to stretch out to cut off second chamber and exhaust air flue.

Further, multiple air holes 301 are provided in the front surface of second chamber 200, to allow ambient air Enter second chamber 200 via multiple air holes 301, and enter first chamber 100 via second chamber 200, then flows into It is flowed out in exhaust air flue 300 and from air outlet 201.It that is to say, when partition 50 rises, baffle 70 stretches out, 100 He of first chamber Second chamber 200 is connected to, and exhaust air flue 300 and second chamber 200 block, at this point, multiple air holes 301 can be used as air inlet, So that ambient air is exchanged heat and is accelerated into first chamber 100 via second chamber 200, then by exhaust air flue 300 blowouts.

It that is to say, when air outlet 201 is opened, the controlled rise of partition 50 is simultaneously connected to first chamber 100 and second chamber 200, and the controlled stretching of baffle 70 and obstruct second chamber 200 and exhaust air flue 300 so that air in ambient enviroment pass through it is more A air hole 301 enters second chamber 200 and simultaneously continues to run to first chamber 100, thus increase air-conditioner indoor wall on-hook 1 into Air quantity.

Air-conditioner indoor wall on-hook 1 of the invention pass through be arranged on offer multiple air holes 301 can be used for assisting into The front panel of wind, so that the air-conditioner indoor wall on-hook 1 can have sufficient air inlet and air output, so as to improve air-conditioning The refrigerating/heating efficiency and refrigerating/heating effect of indoor wall-hanger 1.

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, wind deflector 10 is configured to be rotatably connected to the lower end of skeleton 20, and can controllably turn to pass Close the position of air outlet 201.Partition 50 can controllably be fallen to obstruct first chamber 100 and second chamber 200.Baffle 70 can be by Control ground is retracted to be connected to second chamber 200 and exhaust air flue 300, to make the air in first chamber 100 via exhaust air flue 300 enter second chamber 200, and are flowed out in ambient enviroment by multiple air holes 301.

It that is to say, when partition 50 is fallen, baffle 70 is withdrawn, first chamber 100 and second chamber 200 only pass through outlet air wind Road 300 is connected to.At this point, multiple air holes 301 can be used as venthole, so that the air in first chamber 100 can be via outlet air wind Road 300 enters in second chamber 200, and passes through the dispersion of multiple air holes 301 and flow out in ambient enviroment.

Certainly, when partition 50 rises, baffle 70 can also be the state of retraction, at this time first chamber 100, second chamber 200 and exhaust air flue 300 be interconnected, air in casing can be flowed freely according to the air pressure change in it.It that is to say, this The partition 50 of the air-conditioner indoor wall on-hook 1 of invention is configured to controlled first chamber 100 and second chamber 200 can be arranged in up and down Between, to be connected to or obstruct first chamber 100 and second chamber 200.Baffle 70 is configured to controlled can telescopically be arranged in Two chambers, 200 lower end, to be connected to or obstruct second chamber 200 and exhaust air flue 300.Before being located at first chamber 100 as a result, Side, the upside of exhaust air flue 300 second chamber 200 can according to the specific requirements of user and controllably with first chamber 100 and/or Exhaust air flue 300 is connected to.

Air-conditioner indoor wall on-hook 1 of the invention, which passes through, to be provided with and can be connected to via exhaust air flue 300 with first chamber 100 Second chamber 200, and air hole 301 dispersion outflow of the air in second chamber 200 from its front side surface can be will accumulate in, from And avoid air and blown out at a high speed from unobstructed air outlet 201 and user is allowed not feel good, so that air-conditioner indoor wall on-hook 1 is realized Calm sense air-supply, improves the usage comfort of user.

Further, since second chamber 200 has the front side surface for being provided with multiple air holes 301, so that its outlet air Area is much larger than the air outlet 201 of existing air conditioner indoor unit, thus while guaranteeing calm sense air-supply, in the same working time Interior, cooling capacity from traditional air conditioner to indoor offer that can be at least equal with improves the refrigerating/heating of calm sense air-conditioner indoor wall on-hook 1 Efficiency and refrigerating/heating effect, so that air-conditioner indoor wall on-hook 1 of the invention can satisfy in larger space Using.

Further, the present invention, can be according to user to air-conditioning by the way that liftable partition and telescopic baffle is arranged The demand of air output and out wind velocity carries out the adjustment of air-out mode, to avoid the occurrence of, air-supply wind speed is too fast or intake is insufficient The problems such as, improve the usage comfort and flexibility of user.

Specifically, air-conditioner indoor wall on-hook 1 can be divided into according to the different location state of wind deflector 10, partition 50 and baffle 70 At least two air supply patterns: high speed air supply pattern and micropore air supply pattern.

Under high speed air supply pattern, wind deflector 10 is located at position as shown in Figure 1, and air outlet 201 fully opens, baffle 70 The front side surface for stretching out and being resisted against second chamber 200, second chamber 200 and exhaust air flue 300 is completely separated, partition 50 It is raised up to 101 front end of air inlet, so that the connected region of first chamber 100 and second chamber 200 maximizes.At this point, from second There is no barriers on chamber 200 to the air inlet path of first chamber 100, thus increase the intake of air-conditioner indoor wall on-hook 1, with Make the stability for guaranteeing its wind speed and air quantity.

Under micropore air supply pattern, wind deflector 10 is located at position as shown in Figure 2, and air outlet 201 completely closes, baffle 70 It is retracted to the rear side surface lower end of second chamber 200, so that the connected region of second chamber 200 and exhaust air flue 300 maximizes, Partition 50 is fallen to the position of complete barrier first chamber 100 and second chamber 200.At this point, second chamber 200 and exhaust air flue Barrier is not present between 300, so that the air in first chamber 100 can flow into from exhaust air flue 300 and be full of second chamber 200, so as to further from multiple dispersion outflows of air hole 301 for being provided with 200 front surface of second chamber, not only avoid The cold wind or hot wind of high speed are directly blown into user, are also increased the air-out area of air-conditioner indoor wall on-hook 1, are improved calm Feel the air output of air-supply.Further, air-conditioner indoor wall on-hook 1 can close air outlet 201 when carrying out calm sense air-supply, So as to, after the noise for the generations such as shell inner fan of disembarking, be more good use environment be provided for user in air-supply.

Certainly, in addition to both the above air supply pattern, air-conditioner indoor wall on-hook 1 can also increase it according to the specific requirements of user His air supply pattern.For example, can be withdrawn for partition 50 and baffle 70, first chamber 100, second chamber 200 and exhaust air flue 300 general air supply patterns being connected to, and different stalls are set by adjusting the operating power of blower and heat-exchanger rig 60 Blast intensity.That is, the air-conditioner indoor wall on-hook 1 of the embodiment of the present invention not only can have calm sense air supply pattern and big The high speed air supply pattern of air quantity can also switch to common refrigeration and heating mode, to improve user according to the demand of user Usage experience.

In some embodiments of the invention, air-conditioner indoor wall on-hook 1 further includes drive shaft 51.Drive shaft 51 is arranged In 101 front end of air inlet and it is configured to opposite the first rotation direction and the second rotation direction.Further, partition 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, partition 50 it is controlled rise and in drive shaft 51, when drive shaft 51 towards second When rotation direction rotates, partition 50 is controlled to be fallen and is deployed between first chamber 100 and second chamber 200.Specifically, to scheme For view direction in 1 and Fig. 2, drive shaft 51 can have the first rotation direction for rotating counterclockwise and rotate clockwise Second rotation direction.

In some embodiments of the invention, first chamber 100 can be formed between skeleton 20 and housing 30, second chamber 200 can be formed between panel 40 and housing 30, and the front surface of second chamber 200 is formed by least partly panel 40.Also It is to say, the front surface of second chamber 200 is at least part of panel 40.Further, housing 30, which has, is set to the first chamber Transverse frame (not showing that in figure) between room 100 and second chamber 200, first chamber 100 and second chamber 200 are divided It is not limited to its front side and rear side.In the present embodiment, drive shaft 51 may be disposed at the top of transverse frame, flexible baffle 50 Can transversely frame side lifting.

Further, transverse frame and partition 50 may be sized to and the width of casing substantially phase 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, thus by 100 He of first chamber Second chamber 200 is isolated entirely from a lateral direction.

In some embodiments of the invention, first chamber 100 can be bendingly arranged in for multisection type in heat-exchanger rig 60 It is interior, there is the width roughly equal with air inlet 101 in a lateral direction, and be configured to from the rear side in first chamber 100 Top position forward upward extends close to 30 rear side of housing, then extends still further below, to cover air inlet in the longitudinal direction The downside of mouth 101, so that realizing can exchange heat to the almost all air flowed into first chamber 100 from air inlet 101. Transverse frame then can be configured to, and the upper end may extend to the front end of air inlet 101, and lower end may extend under heat-exchanger rig 60 Side.Correspondingly, partition 50 can be configured to, when its is controlled fall and obstruct first chamber 100 and second chamber 200, lower end At least extend to the downside of heat-exchanger rig 60.It that is to say, height is not less than heat exchange in the vertical direction for transverse frame and partition 50 The size of device 60 in the vertical direction, to avoid being located at the air permeable in first chamber 100 by heat exchange or bypass cross It is flowed into second chamber 200 to frame and partition 50.

Further, housing 30 can also have the extension board rearward extended from the lower end of transverse frame (not show in figure Out), and extension board has the length for being not less than 60 thickness of heat-exchanger rig on the thickness direction of air-conditioner indoor wall on-hook 1, thus Preferably the heat-exchanger rig 60 being located in first chamber 100 can be separated with exhaust air flue 300, so that in first chamber 100 There is air sufficient space to exchange 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 holes 301 are divided into multiple row air hole group, and every two in the transverse direction of panel 40 Arranging has equal interblock space between adjacent air hole group.

Further, it can also be evenly arranged with multiple air holes 301 on wind deflector 10, and be configured to the cross in wind deflector 10 It is divided into air hole group under multiple row on direction, and air hole group can be configured to (that is to say second on panel 40 under the multiple row In the front surface of chamber 200) multiple row air hole group to positive arrangement.

It that is to say, multiple air holes 301 are substantially evenly distributed on panel 40 and wind deflector 10, so that unit area The quantity of interior air hole 301 is roughly equal, it is possible thereby to keep the wind blown out through air hole 301 more uniform.

In some embodiments of the invention, air hole 301 is circle, circle perpendicular to the cross section on its axial direction The manufacture of air hole 301 of shape is easy, so as to simplify the manufacture craft of air-conditioner indoor wall on-hook 1.The cross of certain air hole 301 Section is also possible to other shapes, such as ellipse, polygon, strip etc..

The range in circular 301 aperture of air hole be 2 to 6mm, such as can for 2mm, 2.5mm, 3mm, 3.5mm, 4mm, 4.5mm, 5mm and 5.5mm etc., the range of minimum range is 5 to 12mm between every two adjacent air hole 301, such as can be with For 5mm, 6mm, 7mm, 8mm, 9mm, 10mm and 11mm etc., specific numerical value can by the requirement to air output and muting function into Row is further chosen.Multiple air holes 301 can have identical or different ventilative size according to the demand of user.

In some embodiments of the invention, it is ventilative that the multiple air holes 301 opened up on panel 40 can be divided into multiple first Hole 301a and multiple second air hole 301b.Multiple first air hole 301a tilt extension on the thickness direction of panel 40.The One air hole 301a can be configured to, the first outlet air wind path and at least portion that tilt angle makes at least partly the first air hole 301a The second outlet air wind path of the second air hole 301b is divided to cross on 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 hole Diagonally downward, the cluster straight line being located above in Fig. 4 shows wind and passes through the first air hole the wind direction of the wind of 301a blowout The wind path blown out after 301a.Underlying cluster straight line in Fig. 4 shows wind by blowing out after the second air hole 301b Wind path.It can be seen that from the first air hole 301a flow out air and from the second air hole 301b flow out air can be mutually dry It disturbs, changes its original flow direction, 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 hole 301a may also set up the lower section in the second air hole 301b and be configured to tilt upwards and extends.

Panel 40 of the invention realizes the cold wind blown out from the part air hole by making the inclination air-supply of its part air hole Or the wind facies that hot wind can be blown out at least another part air hole interferes, two parts outlet air intersects and is formed sinuous flow wind, makes outlet air Not blow-through enhances calm sense experience.

Further, since 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 hole can have the size slightly larger than existing air-supply micropore to mention to have bigger air output High air conditioner refrigerating or heating efficiency.

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

In some embodiments of the invention, multiple second air hole 301b also tiltable on the thickness direction of panel 40 Extend, and is configured to tilt upward the second outlet air wind path from 40 front surface of panel.It that is to say, the second air hole 301b can also have There is certain tilt angle, so that can be closer apart from 40 outer surface of panel from the wind that the second air hole 301b is blown out Position is mixed with the wind blown out from the first air hole 301a to intersect, 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, which can be implemented by any of the above The air-conditioner indoor wall on-hook 1 of example executes.

Fig. 4 is the control method of the execution high speed air supply pattern of air-conditioner indoor wall on-hook according to an embodiment of the invention Schematic diagram.Referring to fig. 4, the control method of high speed air supply pattern includes:

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

If so then execute step S210；If otherwise maintaining former ventilation state；

Step S210 opens wind deflector；

Step S212, judges whether wind deflector reaches maximum opening；

If so then execute step S214, if otherwise continuing to execute step S210；

Step S214 stretches out baffle；

Step S216 judges whether baffle is fully extended；

If so then execute step S218, if otherwise continuing to execute step S214；

Step S218, packs up partition；

Step S220, judges whether partition has been packed up completely；

If so then execute step S222, if otherwise continuing to execute step S218；

Step S222 starts high speed and blows.

It that is to say, after receiving high speed air-supply instruction, the operation for opening wind deflector is first carried out in air-conditioner indoor wall on-hook To the position for fully opening air outlet, then executes and stretch out the position that second chamber and exhaust air flue are extremely spaced by baffle, most The operation for rising partition is executed afterwards to partition completely in drive shaft, the thus starting of completion high speed air supply pattern Journey.The starting that high speed air supply pattern is executed by this control method, can be not fully extended to avoid occurring during startup Baffle and partition lead to the problem of vibration when air-conditioning carries out high speed outlet air, and then can reduce air-supply noise, and enhancing user makes Comfort level.

Fig. 5 is the control method of the execution micropore air supply pattern of air-conditioner indoor wall on-hook according to an embodiment of the invention Schematic diagram.Referring to Fig. 5, the control method of micropore air supply pattern includes:

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

If so then execute step S410；If otherwise maintaining former ventilation state；

Step S410 closes wind deflector；

Step S412, judges whether wind deflector has completely closed；

If so then execute step S414, if otherwise continuing to execute step S410；

Step S414 retracts baffle；

Step S416, judges whether baffle has been fully retracted；

If so then execute step S418, if otherwise continuing to execute step S414；

Step S418, falls partition；

Step S420, judges whether partition has been fully deployed；

If so then execute step S422, if otherwise continuing to execute step S418；

Step S422 starts micropore air-supply.

It that is to say, after receiving micropore air-supply instruction, the operation for closing wind deflector is first carried out in air-conditioner indoor wall on-hook To the position for completely closing air outlet, then executes and retract the position that second chamber is extremely connected by baffle with exhaust air flue, most Operation to the partition that partition is fallen in execution afterwards is fully deployed between first chamber and second chamber, thus completes micropore air-supply mould The start-up course of formula.

Fig. 6 is the schematic diagram of the control method of air-conditioner indoor wall on-hook according to an embodiment of the invention.Referring to Fig. 6, The control method of air-conditioner indoor wall on-hook includes:

Step S106, in air-conditioner indoor wall on-hook operation, whether detection room temperature reaches preset temperature；

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

Step S112, in air-conditioner indoor wall on-hook operation, whether detection room 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, the condition that room temperature reaches preset temperature is, when changing for room temperature When changing direction to approach preset temperature, the temperature gap of room temperature and preset temperature is less than the first fiducial temperature.

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

Specifically, the first fiducial temperature and the second fiducial temperature can be configured according to the demand of user, such as first 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. 7 is the schematic flow chart of the control method of air-conditioner indoor wall on-hook according to an embodiment of the invention.Ginseng See Fig. 7, the control method of air-conditioner indoor wall on-hook further include:

Step S100 starts air-conditioner indoor wall on-hook, and sets refrigeration or heating temperature；

Step S102 starts high speed air supply pattern；

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

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

Step S108 starts micropore air supply pattern；

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

If so, step S1100 is executed, if it is not, executing step S112；

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

It is understood that step S108 can also be decomposed into step S410 to step S422, step S102 can also divide Solution is step S210 to step S222.

Further, air-conditioner indoor wall on-hook has temperature-detecting device to detect to room temperature.In air conditioning chamber When interior wall-hanger is switched on, whether detection room temperature and the difference of preset temperature first is greater than third fiducial temperature.If so, opening Dynamic high speed air supply pattern, that is to say step S102, and successively execute the step in above-mentioned control method.If it is not, then starting micropore Air supply pattern that is to say step S108, and successively execute other steps in above-mentioned control method.Specifically, the default temperature of third Difference can be configured according to the demand of user, to meet the use of the user with different requirements.

Further, in air-conditioner indoor wall on-hook operational process, control method further includes detection air-conditioner indoor wall on-hook Whether the instruction that changes air supply pattern is received.If so, changing current air supply pattern；If it is not, then keeping current air-supply Mode.It that is to say, when air-conditioner indoor wall on-hook receives change air-supply instruction, no matter whether room temperature has reached respectively before this Preset temperature changes air supply pattern according to the instruction received at this time immediately.

It should be noted that in the above control method, starting micropore air supply pattern can refer to it is current for high speed or other When air supply pattern, it is switched to micropore air supply pattern, can also be referred to currently when be micropore air supply pattern, be continued holding micropore and send Wind mode.Correspondingly, it when starting high speed air supply pattern can be referred to currently as micropore or other air supply patterns, is switched to high speed and blows Mode can also refer to currently when be high speed air supply pattern, continue holding high speed air supply pattern.

It will be understood by those skilled in the art that in case of no particular description, so-called "upper" in the embodiment of the present invention, "lower", "inner", "outside" etc. are for indicating that the term of orientation or positional relationship is with the real use state of air-conditioner indoor wall on-hook On the basis of for, these terms are merely for convenience of describing and understand technical solution of the present invention, rather than indication or suggestion Signified device or component must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to this The limitation of invention.

So far, although those skilled in the art will appreciate that present invention has been shown and described in detail herein multiple shows Example property embodiment still without departing from the spirit and scope of the present invention, still can according to the present disclosure directly Determine or deduce out many other variations or modifications consistent with the principles of the invention.Therefore, the scope of the present invention is understood that and recognizes It is set to and covers all such other variations or modifications.

Claims (8)

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

Casing inside defines first chamber, the second chamber on front side of the first chamber and is located at the first chamber And the exhaust air flue on the downside of the second chamber；

Wind deflector is configured to be rotatably arranged in the casing lower part, is located at the exhaust air flue end to open or close Air outlet；

Partition is arranged between the first chamber and the second chamber, and is configured to controllably to rise described in connection First chamber and the second chamber；And

Baffle is arranged between the second chamber and the exhaust air flue, and is configured to controllably to stretch out described in cutting Second chamber and the exhaust air flue；Wherein,

The bottom end of the first chamber is connected to the exhaust air flue, and is provided in the front surface of the second chamber multiple Stomata, to allow ambient air to enter the second chamber via the multiple air hole, and via the second chamber Into the first chamber, then flows into the exhaust air flue and is flowed out from the air outlet, wherein

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

The partition can controllably be fallen to obstruct the first chamber and the second chamber；And

The baffle can be retracted controllably to be connected to the second chamber and the exhaust air flue, to make in the first chamber Air enter the second chamber via the exhaust air flue, and flowed out in ambient enviroment by the multiple air hole.

2. air-conditioner indoor wall on-hook according to claim 1, further includes:

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

The partition is fabricated from a flexible material, and top is connected in the drive shaft, and is configured to when the drive shaft Towards when first rotation direction rotation, the controlled rise of the partition and in the drive shaft, when the driving turns When axis is rotated towards second rotation direction, the partition is controlled to be fallen and is deployed in the first chamber and the second chamber Between.

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

Heat-exchanger rig is located in the first chamber, to carry out to the air flowed into the first chamber from the air inlet Heat exchange；And

The partition is configured to, and when its is controlled falls and obstruct the first chamber and the second chamber, lower end is at least Extend to the downside of the heat-exchanger rig.

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

The multiple air hole is divided into multiple row air hole group, and every two column in the transverse direction of the second chamber front surface There is equal interblock space between the adjacent air hole group；And

Multiple air holes are offered on the wind deflector, and are configured to be divided into the transverse direction of the wind deflector more Lower air hole group is arranged, and respectively with the multiple row air hole group in the second chamber front surface to positive arrangement.

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

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

6. a kind of control method of air-conditioner indoor wall on-hook, wherein the air-conditioner indoor wall on-hook is according to claim 1 Air-conditioner indoor wall on-hook, and there is the micropore air supply pattern blown by the multiple air hole and sent by the air outlet The high speed air supply pattern of wind, the control method include:

In air-conditioner indoor wall on-hook operation, whether detection room temperature reaches preset temperature；

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

In air-conditioner indoor wall on-hook operation, whether detection room temperature deviates preset temperature；

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

7. control method according to claim 6, wherein

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

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

8. control method according to claim 6, wherein the air-conditioner indoor wall on-hook further include:

Drive shaft is set to the air inlet front end and is configured to the first opposite rotation direction and the second rotation side To；The air-conditioner indoor wall on-hook is configured to:

After receiving the executing instruction of the high speed air supply pattern, the first step, which executes, opens the operation of the wind deflector to opening completely The position of the air outlet is opened, second step executes the stretching baffle and is extremely spaced the second chamber and the exhaust air flue Position, third portion executes the operation for rising the partition to the partition completely in the drive shaft；

After receiving the executing instruction of the micropore air supply pattern, the first step, which executes, closes the operation of the wind deflector to complete The position of the air outlet is closed, second step executes the retraction baffle and extremely the second chamber is connected with the exhaust air flue Logical position, third step, which executes, to be fallen operation to the partition of the partition and is fully deployed at the first chamber and described the Between two chambers.