CN108870540A - Windy mouth air conditioner - Google Patents

Abstract

The present invention provides a kind of windy mouth air conditioner.The windy mouth air conditioner includes the first air-out component and the second air-out component, first air-out component includes the first air inlet (13), the first air outlet (15) and the first ventilation opening (16), second air-out component includes the second air inlet (14), the second ventilation opening (17) and the second air outlet (18), and the first ventilation opening (16) and the second ventilation opening (17) dock.Windy mouth air conditioner according to the present invention, can be improved the utilization efficiency of through-flow fan blade, increases the draft capacity of air conditioner, enhance the working performance of air conditioner.

Description

Windy mouth air conditioner

Technical field

The invention belongs to air-conditioning technique fields, and in particular to a kind of windy mouth air conditioner.

Background technique

As people require life higher and higher, for air conditioner increasingly by people's pro-gaze, existing air conditioner is single wind Leaf, refrigerating/heating amount is low, is unable to meet demand, if only amplifying fan blade, increases motor, entire type can be made excessively too fat to move, accounted for Big with place, noise also will increase, therefore increase air output using double through-flow fan blade, while can reduce occupancy ground, not increase Big noise.

When using double through-flow fan blade to realize air conditioner air-out, the outlet air up and down of air conditioner may be implemented, or single Solely upper outlet air and individually lower outlet air need to close one of them when air conditioner needs individually upper outlet air or individually lower outlet air Through-flow fan blade, so that individually upper outlet air or individually through-flow fan blade work corresponding to lower outlet air, it can not be in two through-flow fan blades Individually upper outlet air is realized in the case where working at the same time or individually descends outlet air, therefore reduces the draft capacity of air conditioner, so that The performance of air conditioner can not be fully used.

Summary of the invention

Therefore, the technical problem to be solved in the present invention is that providing a kind of windy mouth air conditioner, it can be improved through-flow fan blade Utilization efficiency, increase the draft capacity of air conditioner, enhance the working performance of air conditioner.

To solve the above-mentioned problems, the present invention provides a kind of windy mouth air conditioner, including the first air-out component and second goes out Wind component, the first air-out component include the first air inlet, the first air outlet and the first ventilation opening, and the second air-out component includes second Air inlet, the second ventilation opening and the second air outlet, the first ventilation opening and the docking of the second ventilation opening.

Preferably, the first air outlet is located at side of first air-out component far from the first ventilation opening, and the second air outlet is located at Side of second air-out component far from the second ventilation opening.

Preferably, the interface pair of the first air-out component and the second air-out component about the first ventilation opening and the second ventilation opening Claim.

Preferably, the first air-out component includes third training wall and the 4th training wall, third training wall and the 4th training wall The first ventilation opening is formed in outlet air terminal position；

Second air-out component includes the 5th training wall and the 6th training wall, and the 5th training wall and the 6th training wall are at outlet air end End position forms the second ventilation opening；

First ventilation opening and the second ventilation opening can turn on or off.

Preferably, third training wall can at least partly be swung relative to the 4th training wall, and the 5th training wall is at least partly It can be swung relative to the 6th training wall；

Third training wall, which has, to be docked with the 4th training wall to close the first swing position of the first ventilation opening, and with the Five training walls are docked to open the second swing position of the first ventilation opening；

5th training wall, which has, to be docked with the 6th training wall to close the first swing position of the second ventilation opening, and with the Three training walls are docked to open the second swing position of the second ventilation opening.

Preferably, the first air-out component further includes the first training wall and the second training wall, the first training wall and the second water conservancy diversion Wall forms the first air outlet in outlet air end；And/or

Second air-out component further includes the 7th training wall and the 8th training wall, and the 7th training wall and the 8th training wall are in outlet air End forms the second air outlet.

Preferably, the first connection wall is connected between the first training wall and third training wall；And/or the 5th training wall and The second connection wall is connected between 7th training wall.

Preferably, the first training wall is identical with third water conservancy diversion wall construction, and/or, the 5th training wall and the 7th training wall knot Structure is identical.

Preferably, the first training wall is arcwall, and the arc length of the first training wall is 60~200mm, diameter is 290~ 295mm。

Preferably, the arc length of the first training wall is 90~100mm.

Preferably, the first connection wall is identical with the second connection wall construction, and the first connection wall is arc, the arc of the first connection wall A length of 20~100mm, diameter are 100~170mm.

Preferably, the arc length of the first connection wall is 35~45mm, and diameter is 140~146mm.

Preferably, the first air-out component further includes the first through-flow fan blade, and the first connection wall is located at outside the first through-flow fan blade, The shortest distance between first connection wall and the first through-flow fan blade is 8~30mm；Or, the second air-out component further includes the second through-flow Fan blade, the second connection wall are located at outside the second through-flow fan blade, and the shortest distance between the second connection wall and the second through-flow fan blade is 8 ~30mm.

Preferably, the shortest distance between the first connection wall and the first through-flow fan blade is 12~15mm.

Preferably, the second training wall and the 8th water conservancy diversion wall construction are identical, and the second training wall is straight wall, the length of the second training wall Degree is 20~80mm.

Preferably, the length of the second training wall is 45~55mm.

Preferably, the 4th training wall and the 6th training wall are identical, and the 4th training wall is straight wall, and the length of the 4th training wall is 30~78mm.

Preferably, the length of the 4th training wall is 70~75mm.

Preferably, the first air-out component further includes the 9th training wall and the tenth training wall, and the 9th training wall, which is located at first, leads Side of the wall far from third training wall is flowed, the tenth training wall is located at side of the third training wall far from the first training wall；And/or

Second air-out component further includes the 11st training wall and the 12nd training wall, and the 11st training wall is located at the 5th water conservancy diversion Side of the wall far from the 7th training wall, the 12nd training wall are located at the 7th side of the training wall far from the 5th training wall；

Tenth training wall can be docked with the 11st training wall.

Preferably, windy mouth air conditioner further includes shell, and the 9th training wall is deflected outward relative to the first training wall, and the 9th The end of training wall is connected on the side wall of shell, and the angle between the 9th training wall and side wall is 10 °~60 °.

Preferably, the angle between the 9th training wall and side wall is 30 °~35 °.

Preferably, the structure of the 9th training wall and the tenth training wall is identical, the 11st training wall and the 12nd training wall Structure is identical, and the 9th training wall is straight wall, and the length of the 9th training wall is 10~80mm.

Preferably, the length of the 9th training wall is 20~25mm.

Preferably, the first air outlet, which goes out, is provided with the first wind deflector for turning on or off the first air outlet；And/or the The second wind deflector for turning on or off the second air outlet is provided at two air outlets.

Preferably, windy mouth air conditioner further includes heat exchanger, and heat exchanger is arranged in the first air inlet and the second air inlet, And between the second training wall and the 8th training wall.

Preferably, the first air outlet, which goes out, is provided with the first wind deflector being oriented to the outlet air of the first air outlet；With/ Or, being provided with the second wind deflector being oriented to the outlet air of the second air outlet at the second air outlet.

Windy mouth air conditioner provided by the invention, including the first air-out component and the second air-out component, first outlet air Component includes the first air inlet, the first air outlet and the first ventilation opening, and second air-out component includes the second air inlet, second Ventilation opening and the second air outlet, first ventilation opening and second ventilation opening docking.The windy each outlet air of mouth air conditioner Component includes multiple air outlets, and makes two air outlet docking in the air duct intercommunication position of two air-out components, thus Two air-out components go out to form continuous air-supply passage, can when air conditioner needs individually upper outlet air either individually lower outlet air So that two through-flow fan blades work at the same time, upper air outlet or lower air outlet are closed at this time, and the outlet air of an air-out component is logical The air outlet for crossing docking is delivered to another air-out component, then blows out from the air outlet of another air-out component, so that two Through-flow fan blade can blow simultaneously for individual air outlet, reduce the air flow resistance in air supply process, improve The superposition of wind-force may be implemented in the utilization efficiency of through-flow fan blade, increases the draft capacity of air conditioner, enhances the workability of air conditioner Can, the refrigeration and heating for meeting air-conditioning require.

Detailed description of the invention

Fig. 1 is the schematic diagram of internal structure of the windy mouth air conditioner of the embodiment of the present invention；

Fig. 2 is the side structure schematic view of the windy mouth air conditioner of the embodiment of the present invention.

Appended drawing reference is expressed as：

1, the first training wall；2, the second training wall；3, third training wall；4, the 4th training wall；5, the 5th training wall；6, Six training walls；7, the 7th training wall；8, the 8th training wall；9, the 9th training wall；10, the tenth training wall；11, the 11st water conservancy diversion Wall；12, the 12nd training wall；13, the first air inlet；14, the second air inlet；15, the first air outlet；16, the first ventilation opening； 17, the second ventilation opening；18, the second air outlet；19, the first connection wall；20, the second connection wall；21, the first through-flow fan blade；22, Second through-flow fan blade；23, shell；24, heat exchanger；25, the first wind deflector；26, the second wind deflector.

Specific embodiment

In conjunction with referring to figure 1 and figure 2, according to an embodiment of the invention, windy mouth air conditioner includes the first air-out component With the second air-out component, the first air-out component include the first air inlet 13, the first air outlet 15 and the first ventilation opening 16, second Air-out component includes the second air inlet 14, the second ventilation opening 17 and the second air outlet 18, the first ventilation opening 16 and the second ventilation opening 17 docking.

The windy each air-out component of mouth air conditioner includes multiple air outlets, and in the air duct intercommunication of two air-out components Position makes two air outlet docking need list in air conditioner to go out to form continuous air-supply passage in two air-out components Solely upper outlet air either individually lower outlet air when, two through-flow fan blades can be made to work at the same time, at this time upper air outlet or it is lower go out Air port is closed, and the outlet air of an air-out component is delivered to another air-out component by the air outlet docked, then from another The air outlet of air-out component is blown out, and two through-flow fan blades are blown simultaneously for individual air outlet, is increased independent Upper outlet air perhaps individually lower outlet air when air quantity when reducing individually upper outlet air or individually lower outlet air, through-flow in air supply process Air flow resistance caused by blower improves the utilization efficiency of through-flow fan blade, and the superposition of wind-force may be implemented, and increases air-conditioning The draft capacity of device enhances the working performance of air conditioner, and the refrigeration and heating for meeting air-conditioning require.

First air outlet 15 is located at side of first air-out component far from the first ventilation opening 16, and the second air outlet 18 is located at Side of second air-out component far from the second ventilation opening 17 enables the air outlet on each air-out component of air conditioner in through-flow Relatively large distance is mutually staggered in the circumferential direction of fan blade, reduces the mutual shadow between two air outlets on same air-out component It rings, improves outlet air efficiency of each air-out component under different outlet air states.Arrange the structure of air conditioner more reasonable, The setting of each air outlet enables each air duct to be located substantially on same straight line, is increased without the whole thick of air conditioner Degree, enables the structure of air conditioner more compact, and occupied area is smaller, effectively increases on the basis of realizing air conditioner miniaturization The outlet air ability for adding air conditioner, improves the working performance of air conditioner.

Preferably, pair of the first air-out component and the second air-out component about the first ventilation opening 16 and the second ventilation opening 17 Junction is symmetrical, and air output of air conditioner during independent upper outlet air and individually lower outlet air is consistent substantially, is tied Structure design is more reasonable, and can reduce manufacturing procedure and number of molds, reduces processing cost.

First air-out component includes third training wall 3 and the 4th training wall 4, and third training wall 3 and the 4th training wall 4 are going out Wind terminal position forms the first ventilation opening 16；Second air-out component includes the 5th training wall 5 and the 6th training wall 6, the 5th water conservancy diversion Wall 5 and the 6th training wall 6 are in outlet air terminal position the second ventilation opening 17 of formation；First ventilation opening 16 and the equal energy of the second ventilation opening 17 Enough turn on or off.

When air conditioner needs outlet air simultaneously up and down, if the first ventilation opening 16 and the second ventilation opening 17 are opened, The outlet air of first air-out component at this time can be divided into two strands, and the outlet air of the second air-out component can also be divided into two groups, the first air-out component The outlet air of the first ventilation opening 16 and the outlet air of the second ventilation opening 17 of the second air-out component can cross, be easy to produce compared with Big noise, and be easy to produce bigger effect the upper air-out volume of air conditioner and lower air-out volume, so that air conditioner goes out up and down Wind air quantity significantly weakens, outlet air ability when reducing air conditioner up and down while outlet air, therefore it is logical to need to close first at this time Air port 16 and the second ventilation opening 17 guarantee that the outlet air of the first air-out component is blown out from the first air outlet 15, the second outlet air group The outlet air of part is blown out from the second air outlet 18, is guaranteed the ability of the outlet air simultaneously up and down of air conditioner, is guaranteed the work of air conditioner Make performance.

First air-out component further includes the first training wall 1 and the second training wall 2, and the first training wall 1 and the second training wall 2 exist Outlet air end forms the first air outlet 15；And/or second air-out component further include the 7th training wall 7 and the 8th training wall 8, Seven training walls 7 and the 8th training wall 8 are in the second air outlet 18 of outlet air end formation.

The upper air outlet that the first air outlet 15 herein can be used as air conditioner comes using the second air outlet 18 can be made Come for the lower air outlet of air conditioner using to realize the control of outlet air up and down of air conditioner.For the present embodiment, first goes out Air port 15 is located at the top, and the first ventilation opening 16 is located at the lower section of the first air outlet 15, and the second ventilation opening 17 is located at the first ventilation Mouthfuls 16 lower section, and dock with the realization of the first ventilation opening 16, the second air outlet 18 is located at below the second ventilation opening 17, and positioned at the One air outlet, 15 following location directly enables the first air outlet 15 and the outlet air plane of the second air outlet 18 to keep one substantially It causes.

Preferably, third training wall 3 can at least partly be swung relative to the 4th training wall 4, the 5th training wall 5 at least portion Dividing can swing relative to the 6th training wall 6；Third training wall 3, which has, to be docked with the 4th training wall 4 to close the first ventilation opening 16 the first swing position, and dock with the 5th training wall 5 to open the second swing position of the first ventilation opening 16；5th leads Stream wall 5, which has, to be docked with the 6th training wall 6 to close the first swing position of the second ventilation opening 17, and with third training wall 3 It docks to open the second swing position of the second ventilation opening 17.

Third training wall 3 herein can at least partly be swung relative to the 4th training wall 4, the 5th training wall 5 at least portion Point can be swung relative to the 6th training wall 6, in particular to, third training wall 3 can integrally can be relative to the 4th training wall 4 It swings, to match with the 4th training wall 4, turns on or off the first ventilation opening 16, third training wall 3 can also be divided into fixation Part and rotating part, wherein fixed part is fixed relative to the 4th training wall 4, and rotating part is rotatably arranged on solid Determine on part, and swung relative to the 4th training wall 4, to match with the 4th training wall 4, turns on or off the first ventilation opening 16.The structure of 5th training wall 5 is similar with the structure of third training wall 3, and I will not elaborate.

For above-mentioned structure, it can be achieved on and on and off beaten to the first ventilation opening 16 and the second ventilation opening 17 The control closed, which kind of mode is specifically chosen to realize the open and close control of the first ventilation opening 16 and the second ventilation opening 17, Ke Yigen It is selected according to practical structures design and the structure of through-flow fan blade.

It, can also be in pair of the first ventilation opening 16 and the second ventilation opening 17 in a kind of embodiment not shown in the figure It connects and an air outlet guard board is only set at position, which, which has, opens and closes two states, beats when air outlet guard board is in When open state, the first ventilation opening 16 is connected to the second ventilation opening 17, when air outlet guard board is in close state, air outlet guard board isolation The docking location of first ventilation opening 16 and the second ventilation opening 17 is set, so that the first ventilation opening 16 and the second ventilation opening 17 are no longer Intercommunication, the at this time outlet air of the first air-out component can only be blown out by the first air outlet 15, and the outlet air of the second air-out component is only capable of Enough blown out by the second air outlet 18.

The rotation control of above-mentioned training wall and air outlet guard board can be rotated by motor driven rotation axis to realize, It can be realized by other rotate driving modes.

The first connection wall 19 is connected between first training wall 1 and third training wall 3；And/or the 5th training wall 5 and The second connection wall 20 is connected between seven training walls 7.First connection wall 19 is engaged on the first training wall 1 and third training wall 3 Between, the transition connection between the first training wall 1 and third training wall 3 may be implemented, simultaneously because the first connection wall 19 is only Vertical structure, therefore it can be made to realize more between corresponding through-flow fan blade with the structure of the first connection wall of flexible design 19 Good structure cooperation, more preferably, working performance is more preferable for air-out effect.

Preferably, the first training wall 1 is identical with 3 structure of third training wall, and/or, the 5th training wall 5 and the 7th water conservancy diversion 7 structure of wall is identical, two exhaust air flue structures of the first air-out component can be made essentially identical, outlet air efficiency can achieve most Excellent, it is also possible that two exhaust air flue structures of the second air-out component are essentially identical, outlet air efficiency can achieve optimal.

In the present embodiment, the first training wall 1 is arcwall, and the arc length of the first training wall 1 is 60~200mm, and diameter is 290~295mm.

Preferably, the arc length of the first training wall 1 is 90~100mm.

First connection wall 19 is identical with 20 structure of the second connection wall, and the first connection wall 19 is arc, the first connection wall 19 Arc length is 20~100mm, and diameter is 100~170mm.

Preferably, the arc length of the first connection wall 19 is 35~45mm, and diameter is 140~146mm.

First air-out component further includes the first through-flow fan blade 21, and the first connection wall 19 is located at outside the first through-flow fan blade 21, The shortest distance between first connection wall 19 and the first through-flow fan blade 21 is 8~30mm；Or, the second air-out component further includes second Through-flow fan blade 22, the second connection wall 20 are located at outside the second through-flow fan blade 22, the second connection wall 20 and the second through-flow fan blade 22 it Between the shortest distance be 8~30mm.

Preferably, the shortest distance between the first connection wall 19 and the first through-flow fan blade 21 is 12~15mm.

Second training wall 2 is identical with 8 structure of the 8th training wall, and the second training wall 2 is straight wall, the length of the second training wall 2 For 20~80mm.

Preferably, the length of the second training wall 2 is 45~55mm.

4th training wall 4 and the 6th training wall 6 are identical, and the 4th training wall 4 is straight wall, and the length of the 4th training wall 4 is 30 ~78mm.

Preferably, the length of the 4th training wall 4 is 70~75mm.

First air-out component further includes the 9th training wall 9 and the tenth training wall 10, and the 9th training wall 9 is located at the first training wall 1 side far from third training wall 3, the tenth training wall 10 are located at side of the third training wall 3 far from the first training wall 1；With/ Or, the second air-out component further includes the 11st training wall 11 and the 12nd training wall 12, the 11st training wall 11, which is located at the 5th, is led Side of the wall 5 far from the 7th training wall 7 is flowed, the 12nd training wall 12 is located at one of the 7th training wall 7 far from the 5th training wall 5 Side；Tenth training wall 10 can be docked with the 11st training wall 11.

9th training wall 9 can increase the air supplying distance of the first air outlet 15, while can be at air outlet position to The air-out direction of one air outlet 15 is adjusted, so that the air exhausting structure of the first air outlet 15 is more reasonable, outlet air efficiency It is higher.The effect of tenth training wall 10, the 11st training wall 11 and the 12nd training wall 12 is similar.

Windy mouth air conditioner further includes shell 23, and above-mentioned Each part is arranged in shell 23.It is set on shell It is equipped with air outlet and lower air outlet, wherein the corresponding upper air outlet setting of the first air outlet 15, goes out under the second air outlet 18 is corresponding Air port setting.

9th training wall 9 is deflected outward relative to the first training wall 1, and the end of the 9th training wall 9 is connected to shell 23 On side wall, the angle between the 9th training wall 9 and side wall is 10 °~60 °.The set-up mode of 9th training wall 9 makes the 9th to lead Stream wall 9 can increase air outlet angle at the first air outlet 15, so that the outlet air of the first air outlet 15 forms bigger outlet air surface Product can increase the air supply areas of air conditioner, improve heat exchange efficiency.The effect of 12nd training wall 12 and the 9th training wall 9 It acts on similar.

Preferably, the angle between the 9th training wall 9 and side wall is 30 °~35 °.

In the present embodiment, the 9th training wall 9 is identical with the structure of the tenth training wall 10, the 11st training wall 11 and the tenth The structure of two training walls 12 is identical, and the 9th training wall 9 is straight wall, and the length of the 9th training wall 9 is 10~80mm.

Preferably, the length of the 9th training wall 9 is 20~25mm.

After carrying out the Duct design of air conditioner using above-mentioned structure size, composed air duct experimental data is such as Under：

It can be seen that the air duct ratio smoothly from upper experimental data, the low noise in the case where meeting air quantity 1250m3/h In 49DB.The air duct formed using technical solution of the present invention, may be implemented energy saving, and air quantity superposition meets refrigeration, heating Amount requires, and reaches and saves space, the uniform purpose of outlet air.

Preferably, the first air outlet 15 go out be provided with the first wind deflector for turning on or off the first air outlet 15 and/or, The second wind deflector for turning on or off the second air outlet 18 is provided at second air outlet 18.By control the first wind deflector and The working condition of second wind deflector realizes that the outlet air to the first air outlet 15 and the second air outlet 18 controls in which can be convenient, into And realize individually upper outlet air, individually lower outlet air and the control of outlet air simultaneously up and down to air conditioner, outlet air controls more flexible side Just.

Windy mouth air conditioner further includes heat exchanger 24, and heat exchanger 24 is arranged in the first air inlet 13 and the second air inlet 14 Place, and between the second training wall 2 and the 8th training wall 8.Since heat exchanger 24 is arranged in the second training wall 2 and the 8th water conservancy diversion Between wall 8, therefore can be more reasonably using the position of air channel structure setting heat exchanger 24, so that air conditioner internal structure is more Step up to gather, overall volume is smaller.

First air outlet 15, which goes out, is provided with the first wind deflector 25 being oriented to the outlet air of the first air outlet 15；With/ Or, being provided with the second wind deflector 26 being oriented to the outlet air of the second air outlet 18 at the second air outlet 18.

After technical solution of the present invention, when upper air outlet is closed, 5 edge of third training wall 3 and the 5th training wall Rotary shaft carries out Unscrew, and the wind of 21 region of the first through-flow fan blade is made to enter 22 region of the second through-flow fan blade, real The wind of air quantity is now superimposed from lower air outlet；When air outlet similarly being descended to close, third training wall 3 and the 5th training wall 5 are along rotation Shaft carries out Unscrew, so that the wind of 22 region of the second through-flow fan blade is entered 21 region of the first through-flow fan blade, realizes The wind of air quantity is superimposed from upper air outlet；When upper and lower two air outlets work at the same time, third training wall 3 and the 5th training wall 5 carry out rotary closing along rotary shaft, and the outlet air of the first through-flow fan blade 21 is blown out from the first air outlet 15, the second through-flow fan blade 22 Outlet air blown out from the second air outlet 18, the outlet air of two through-flow fan blades is independent of each other.Third training wall 3 and the 5th training wall 5 When opening, junction be it is closed, the structure with centre have compared with the air conditioner of wind deflector, can make air quantity superposition more It is more, it is more smooth；Structure is simple compared with rotation volute tongue structure, easy to accomplish, can not only be also achieved simultaneously with energy saving Increase air quantity and meet refrigeration, the requirement of heating capacity difference, also saves space, windy mouth outlet air can make outlet air more evenly, allow people Feel more comfortable.

Those skilled in the art will readily recognize that above-mentioned each advantageous manner can be free under the premise of not conflicting Ground combination, superposition.

The above is merely preferred embodiments of the present invention, be not intended to limit the invention, it is all in spirit of the invention and Made any modifications, equivalent replacements, and improvements etc., should all be included in the protection scope of the present invention within principle.Above only It is the preferred embodiment of the present invention, it is noted that for those skilled in the art, do not departing from this hair Under the premise of bright technical principle, several improvements and modifications can also be made, these improvements and modifications also should be regarded as guarantor of the invention Protect range.

Claims (26)

1. a kind of windy mouth air conditioner, which is characterized in that including the first air-out component and the second air-out component, first outlet air Component includes the first air inlet (13), the first air outlet (15) and the first ventilation opening (16), and second air-out component includes the Two air inlets (14), the second ventilation opening (17) and the second air outlet (18), first ventilation opening (16) and second ventilation Mouth (17) docking.

2. windy mouth air conditioner according to claim 1, which is characterized in that first air outlet (15) is located at described the Side of one air-out component far from first ventilation opening (16), second air outlet (18) are located at second air-out component Side far from second ventilation opening (17).

3. windy mouth air conditioner according to claim 1, which is characterized in that first air-out component and described second goes out Wind component is symmetrical about the interface of first ventilation opening (16) and second ventilation opening (17).

4. windy mouth air conditioner according to any one of claim 1 to 3, which is characterized in that

First air-out component includes third training wall (3) and the 4th training wall (4), the third training wall (3) and described 4th training wall (4) forms first ventilation opening (16) in outlet air terminal position；

Second air-out component includes the 5th training wall (5) and the 6th training wall (6), the 5th training wall (5) and described 6th training wall (6) forms second ventilation opening (17) in outlet air terminal position；

First ventilation opening (16) and second ventilation opening (17) can turn on or off.

5. windy mouth air conditioner according to claim 4, which is characterized in that

The third training wall (3) can at least partly swing relative to the 4th training wall (4), the 5th training wall (5) it can at least partly be swung relative to the 6th training wall (6)；

The third training wall (3), which has, docks with the 4th training wall (4) to close the of first ventilation opening (16) One swing position, and dock with the 5th training wall (5) to open the second swing position of first ventilation opening (16)；

5th training wall (5), which has, docks with the 6th training wall (6) to close the of second ventilation opening (17) One swing position, and dock with the third training wall (3) to open the second swing position of second ventilation opening (17).

6. windy mouth air conditioner according to claim 5, which is characterized in that first air-out component further includes first leading It flows wall (1) and the second training wall (2), first training wall (1) and second training wall (2) and forms first in outlet air end Air outlet (15)；And/or

Second air-out component further includes the 7th training wall (7) and the 8th training wall (8), the 7th training wall (7) and institute It states the 8th training wall (8) and forms the second air outlet (18) in outlet air end.

7. windy mouth air conditioner according to claim 6, which is characterized in that first training wall (1) and the third The first connection wall (19) are connected between training wall (3)；And/or the 5th training wall (5) and the 7th training wall (7) Between be connected with the second connection wall (20).

8. windy mouth air conditioner according to claim 6, which is characterized in that first training wall (1) and the third Training wall (3) structure is identical, and/or, the 5th training wall (5) is identical with the 7th training wall (7) structure.

9. windy mouth air conditioner according to claim 8, which is characterized in that first training wall (1) is arcwall, institute The arc length for stating the first training wall (1) is 60~200mm, and diameter is 290~295mm.

10. windy mouth air conditioner according to claim 9, which is characterized in that the arc length of first training wall (1) is 90 ~100mm.

11. windy mouth air conditioner according to claim 7, which is characterized in that first connection wall (19) and described Two connection walls (20) structure is identical, and first connection wall (19) is arc, and the arc length of first connection wall (19) is 20~ 100mm, diameter are 100~170mm.

12. windy mouth air conditioner according to claim 11, which is characterized in that the arc length of first connection wall (19) is 35~45mm, diameter are 140~146mm.

13. windy mouth air conditioner according to claim 7, which is characterized in that first air-out component further includes first Through-flow fan blade (21), first connection wall (19) are located at first through-flow fan blade (21) outside, first connection wall (19) shortest distance between first through-flow fan blade (21) is 8~30mm；Or, second air-out component further includes Two through-flow fan blades (22), second connection wall (20) are located at second through-flow fan blade (22) outside, second connection wall (20) shortest distance between second through-flow fan blade (22) is 8~30mm.

14. windy mouth air conditioner according to claim 13, which is characterized in that first connection wall (19) and described the The shortest distance between one through-flow fan blade (21) is 12~15mm.

15. windy mouth air conditioner according to claim 6, which is characterized in that second training wall (2) and the described 8th Training wall (8) structure is identical, and second training wall (2) is straight wall, and the length of second training wall (2) is 20~80mm.

16. windy mouth air conditioner according to claim 15, which is characterized in that the length of second training wall (2) is 45~55mm.

17. windy mouth air conditioner according to claim 6, which is characterized in that the 4th training wall (4) and the described 6th Training wall (6) is identical, and the 4th training wall (4) is straight wall, and the length of the 4th training wall (4) is 30~78mm.

18. windy mouth air conditioner according to claim 17, which is characterized in that the length of the 4th training wall (4) is 70~75mm.

19. windy mouth air conditioner according to claim 6, which is characterized in that first air-out component further includes the 9th Training wall (9) and the tenth training wall (10), the 9th training wall (9) are located at first training wall (1) far from the third The side of training wall (3), the tenth training wall (10) are located at the third training wall (3) far from first training wall (1) Side；And/or

Second air-out component further includes the 11st training wall (11) and the 12nd training wall (12), the 11st training wall (11) it is located at side of the 5th training wall (5) far from the 7th training wall (7), the 12nd training wall (12) is located at Side of 7th training wall (7) far from the 5th training wall (5)；

Tenth training wall (10) can dock with the 11st training wall (11).

20. windy mouth air conditioner according to claim 19, which is characterized in that the windy mouth air conditioner further includes shell (23), the 9th training wall (9) is deflected outward relative to first training wall (1), the end of the 9th training wall (9) It is connected on the side wall of the shell (23), the angle between the 9th training wall (9) and the side wall is 10 °~60 °.

21. windy mouth air conditioner according to claim 20, which is characterized in that the 9th training wall (9) and the side Angle between wall is 30 °~35 °.

22. windy mouth air conditioner according to claim 19, which is characterized in that the 9th training wall (9) and described The structure of ten training walls (10) is identical, and the 11st training wall (11) is identical with the structure of the 12nd training wall (12), 9th training wall (9) is straight wall, and the length of the 9th training wall (9) is 10~80mm.

23. windy mouth air conditioner according to claim 22, which is characterized in that the length of the 9th training wall (9) is 20~25mm.

24. windy mouth air conditioner according to claim 1, which is characterized in that first air outlet (15) goes out to be provided with Turn on or off the first wind deflector of first air outlet (15)；And/or it is provided with and beats at second air outlet (18) On or off closes the second wind deflector of second air outlet (18).

25. windy mouth air conditioner according to claim 6, which is characterized in that the windy mouth air conditioner further includes heat exchange Device (24), the heat exchanger (24) are arranged at first air inlet (13) and second air inlet (14), and are located at institute It states between the second training wall (2) and the 8th training wall (8).

26. windy mouth air conditioner according to claim 1, which is characterized in that first air outlet (15) goes out to be provided with The first wind deflector (25) that the outlet air of first air outlet (15) is oriented to；And/or at second air outlet (18) It is provided with the second wind deflector (26) being oriented to the outlet air of second air outlet (18).