CN208606270U - Air conditioner indoor unit and air-conditioning - Google Patents

Abstract

The utility model relates to a kind of air conditioner indoor unit and air-conditionings, comprising: shell has accommodating chamber, is provided with the first air inlet and the first air outlet, first air inlet is connected to the accommodating chamber with first air outlet；Interconnected evaporator and supercharging device, is all set in the accommodating chamber；The evaporator is connected to first air inlet and first air outlet respectively with the supercharging device, is pressurized after-blow to first air outlet by the supercharging device with the air after the evaporator heat exchange；Or the supercharging device is connected to first air inlet and first air outlet respectively with the evaporator, by the pressurized air of the supercharging device and the evaporator heat exchange after-blow to first air outlet.Since supercharging device can be such that the pressure of air increases, then air has enough speed to blow out from the first air outlet, and compared to the prior art by the way of blower blow out air, supercharging device noise is lower.

Description

Air conditioner indoor unit and air-conditioning

Technical field

The utility model relates to heat exchange equipment technologies, more particularly to a kind of air conditioner indoor unit and air-conditioning.

Background technique

Air-conditioning includes air-conditioner outdoor unit and air conditioner indoor unit, and air-conditioner outdoor unit generally comprises compressor, condenser and throttling Valve, air conditioner indoor unit generally comprise evaporator and blower.

In air conditioner refrigerating, refrigerant is compressed to the gaseous state of high temperature and pressure in compressor, and the gaseous state of high temperature and pressure passes through Become the liquid of normal temperature high voltage after condenser heat dissipation, the liquid of normal temperature high voltage enters evaporator after throttle valve, evaporator with The gaseous state for becoming low-temp low-pressure after room air heat exchange again flows to compressor, blower by with the cryogenic gas after evaporator heat exchange Blow to interior.And air-conditioning is in heating, flow direction of the refrigerant in evaporator and condenser is on the contrary, blower will be with steaming at this time High-temperature gas after hair device heat exchange blows to interior.

In this way, traditional indoor air conditioner, which relies primarily on blower, blows to interior for the cold wind of evaporator, when fan operation, makes an uproar Sound is larger.

Utility model content

Based on this, it is necessary to be dried for traditional air conditioner indoor unit using blower and cause air conditioner indoor unit that there is larger make an uproar Mail topic provides a kind of lesser air conditioner indoor unit of noise and air-conditioning.

A kind of air conditioner indoor unit, the air conditioner indoor unit include:

Shell has accommodating chamber, is provided with the first air inlet and the first air outlet, first air inlet and described first Air outlet is connected to the accommodating chamber；

Interconnected evaporator and supercharging device, is all set in the accommodating chamber；

The evaporator is connected to first air inlet and first air outlet respectively with the supercharging device, with institute Air after stating evaporator heat exchange is pressurized after-blow to first air outlet by the supercharging device；Or the pressurization dress It sets and is connected to respectively with first air inlet and first air outlet with the evaporator, after supercharging device pressurization Air and the evaporator heat exchange after-blow to first air outlet.

The supercharging device is provided with booster cavity in one of the embodiments, and the supercharging device offer with The second air inlet and the second air outlet of booster cavity connection, second air inlet are provided with filter screen, and described second First flow regulating valve is provided at air outlet.

The air conditioner indoor unit further includes air holder in one of the embodiments, the air holder and institute Supercharging device connection is stated, for storing through the pressurized air of the supercharging device.

The air holder is provided with storage chamber in one of the embodiments, and the air holder offers The third air inlet and third air outlet being connected to the storage chamber, the third air inlet are connected to the supercharging device, Second flow regulating valve is provided at the third air outlet.

The air conditioner indoor unit further includes exhaust apparatus in one of the embodiments, and the exhaust apparatus has the 4th Air inlet and the 4th air outlet；

When the evaporator is connected to first air inlet and first air outlet respectively with the supercharging device, institute The 4th air inlet for stating exhaust apparatus is connected to the supercharging device, the 4th air outlet and the first air outlet phase It is right；

When the supercharging device is connected to first air inlet and first air outlet respectively with the evaporator, institute The 4th air inlet for stating exhaust apparatus is connected to the evaporator, the 4th air outlet and the first air outlet phase It is right.

The exhaust apparatus includes multiple is mutually arranged along first direction and can relative telescopic in one of the embodiments, Outlet air part, the side of each outlet air part is provided with the sub- air outlet being interconnected along the first direction, multiple described Sub- air outlet connects to form the 4th air outlet.

Circumferential position limiting structure, institute are provided between two outlet air parts being mutually arranged in one of the embodiments, Stating circumferential position limiting structure includes mutually matched card slot and protrusion, and the card slot is set to one of described two outlet air parts On, the protrusion is set on the other of described two outlet air parts.

The height of the multiple outlet air part is equal in one of the embodiments, and each sub- air outlet is along first Through corresponding each outlet air part setting on direction, multiple sub- air outlets are along perpendicular with the first direction Second direction be equal in length；

The air conditioner indoor unit further includes height sensor, and the height sensor is used to detect the height of the exhaust apparatus Degree, to control the air-out area of the 4th air outlet of the exhaust apparatus.

The air conditioner indoor unit further includes driving mechanism and gear assembly in one of the embodiments,；

When the exhaust apparatus is connected to the supercharging device, the gear assembly be connected to the exhaust apparatus with it is described Between supercharging device, the driving mechanism is for driving the exhaust apparatus to fill by the gear assembly relative to the pressurization Rotation is set, the 4th air inlet of the exhaust apparatus is connected to supercharging device holding, and the institute of the exhaust apparatus It states the 4th air outlet and first air outlet keeps opposite；

When the exhaust apparatus is connected to the evaporator, the gear assembly is connected to the exhaust apparatus and the steaming It sends out between device, the driving mechanism is for driving the exhaust apparatus to turn by the gear assembly relative to the evaporator Dynamic, the 4th air inlet of the exhaust apparatus is connected to evaporator holding, and the described 4th of the exhaust apparatus Air outlet and first air outlet keep opposite.

A kind of air-conditioning, including air-conditioner outdoor unit and air conditioner indoor unit as described in any one of the above embodiments, the air-conditioner outdoor unit It is connect with the air conditioner indoor unit.

Air conditioner indoor unit and air-conditioning provided by the utility model, when supercharging device is located at the upstream of evaporator, air from First air inlet enters in the accommodating chamber of shell, and by supercharging device pressurization after-blow to evaporator, and with evaporator heat exchange It is blown out afterwards from the first air outlet；Or when evaporator is located at the upstream of supercharging device, air enters outer by the first air inlet Carry out heat exchange with evaporator in the accommodating chamber of shell, by with the air after evaporator heat exchange after supercharging device is pressurized from The blowout of first air outlet.Since supercharging device can be such that the pressure of air increases, air has enough speed to go out from first Air port blowout, compared to the prior art by the way of blower blow out air, supercharging device noise is lower.

Detailed description of the invention

Fig. 1 is the structure chart for the air conditioner indoor unit that an embodiment of the present invention provides；

Fig. 2 is the schematic cross-sectional view of the exhaust apparatus of air conditioner indoor unit provided in Fig. 1.

Specific embodiment

The utility model is more fully retouched below with reference to relevant drawings for the ease of understanding the utility model, It states.The preferred embodiment of the utility model is given in attached drawing.But the utility model can come in many different forms in fact It is existing, however it is not limited to embodiment described herein.On the contrary, purpose of providing these embodiments is makes public affairs to the utility model The understanding for opening content is more thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement are for illustrative purposes only.

Unless otherwise defined, all technical and scientific terms used herein are led with the technology for belonging to the utility model The normally understood meaning of the technical staff in domain is identical.Terminology used in the description of the utility model herein only be The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term " and or " used herein includes Any and all combinations of one or more related listed items.

Refering to fig. 1, an embodiment of the present invention provides a kind of air-conditioning, including air-conditioner outdoor unit and air conditioner indoor unit 100, Air-conditioner outdoor unit is connect with air conditioner indoor unit 100.

Air conditioner indoor unit 100 includes shell, evaporator 10 and supercharging device 20, evaporator 10 be used for air heat exchange, So that the blowing cold air in refrigeration of air conditioner indoor unit 100, blows out hot wind in heating, supercharging device 20 be used for supercharging air with It is blown out out of shell convenient for air.

For ease of description, defining air conditioner indoor unit 100 has orthogonal vertical direction (short transverse) and level Direction, the vertical direction and horizontal direction of above-mentioned air conditioner indoor unit 100 are when being placed in work top with air conditioner indoor unit 100 Direction subject to.

Shell is provided with accommodating chamber along the vertical direction, and shell is also provided with the first air inlet and the first air outlet, and first Air inlet is connected to accommodating chamber with the second air outlet.Specifically, shell has opposed facing front and the back side, the first air inlet Mouth is set to the back side of shell, and the first air outlet is set to the front of shell, i.e. the first air inlet and the mutual face of the first air outlet To setting.It is understood that in other embodiments, the first air inlet can not also be used with the first air outlet and be faced each other Mode be arranged, such as between the first air inlet and the first air outlet mutual dislocation be arranged.

Evaporator 10 and supercharging device 20 are all set in accommodating chamber, supercharging device 20 and evaporator 10 respectively with first into Air port is connected to the first air outlet, i.e. the upstream that is located at evaporator 10 of supercharging device 20, and air enters appearance by the first air inlet Receive it is intracavitary after, initially enter pressurization in supercharging device 20, pressurized air again with after 10 heat exchange of evaporator from the first outlet air Mouth blowout.

Air-conditioning provided in this embodiment, air pass through supercharging device out of the first air inlet enters shell accommodating chamber 20 pressurization after-blow are blown out to evaporator 10, and with after 10 heat exchange of evaporator from the first air outlet.Since supercharging device 20 can be with Increase the pressure of air, then air has enough speed to blow out from the first air outlet, uses wind compared to the prior art The mode of machine blow out air, 20 noise of supercharging device are lower.

Specifically, supercharging device 20 is provided with booster cavity 21, and supercharging device 20 is offered and is connected to booster cavity 21 Second air inlet 22 and the second air outlet, the second air inlet 22 are connected to the first air inlet, the second air outlet and the first air outlet Connection.Specifically, the quantity of the second air inlet 22 is multiple, and multiple second air inlets 22 are connected to the first air inlet, to protect Supercharging device 20 is demonstrate,proved to enter the wind from many places.

It is provided with filter screen 30 at the second air inlet 22 of supercharging device 20, to filter the sky for entering supercharging device 20 Gas.Specifically, filter screen 30 is multiple, and a filter screen 30 is provided at each second air inlet 22.

It is provided with first flow regulating valve 40 at the second air outlet of supercharging device 20, for adjusting from supercharging device The flow of the air of 20 the second air outlet blowout.Specifically, first flow regulating valve 40 is unidirectional regulating valve, to guarantee to be pressurized Air afterwards is blown out from the second air outlet, without passing back into supercharging device 20 from the second air outlet.

Air conditioner indoor unit 100 further includes air holder 50, and air holder 50 is connected to supercharging device 20, for storing By the pressurized air of supercharging device 20.Air holder 50 is connected between supercharging device 20 and evaporator 10, by increasing The pressurized air of pressure device 20 is flowed to after evaporator 10 exchanges heat and is blown out from the first air outlet after air holder 50.

In the present embodiment, supercharging device 20, air holder 50 and evaporator 10 along the vertical direction on from bottom to top according to Secondary setting, i.e. air holder 50 are located at the top of supercharging device 20, and evaporator 10 is located at the top of air holder 50.

In the present embodiment, air holder 50 has storage chamber, and air holder 50 offers and connects with storage chamber Logical third air inlet and third air outlet, third air inlet are connected to the second air outlet of supercharging device 20, third air outlet Place is provided with second flow regulating valve 60, with the stream for adjusting the air blown out from the third air outlet of air holder 50 Amount.More specifically, second flow regulating valve 60 is controllable electromagnetic valve, in other embodiments, second flow regulating valve 60 can also To select hand-operated valve.

Air conditioner indoor unit 100 further includes support, and support is set in accommodating chamber, and support is set on air holder 50, Support is provided with accommodation space, and accommodation space is connected to third air outlet, and evaporator 10 is placed in the accommodation space of support.

Specifically, evaporator 10 is helical form, and the diameter of one end of evaporator 10 to the other end becomes larger, evaporator The relatively small one end face third air outlet setting of 10 diameters, and should be facing towards the projection covering of plane where third air outlet Third air outlet, relatively large the first air outlet of one end face setting of 10 diameter of evaporator, to guarantee from third air outlet stream Air out is blown out after exchanging heat with evaporator 10 from the first air outlet.

Air conditioner indoor unit 100 further includes exhaust apparatus 70, and exhaust apparatus 70 is connect with support, and 70 face of exhaust apparatus is steamed Device 10 is sent out to be arranged.Exhaust apparatus 70 has the 4th air inlet and the 4th air outlet 71, and the 4th air inlet is connected to evaporator 10, the Four air outlets 71 are opposite with the first air outlet.It so ensure that the air after exchanging heat with evaporator 10 passes through the 4th air inlet first The first air outlet is flowed into exhaust apparatus 70, and from the 4th air outlet 71 of exhaust apparatus 70.

Exhaust apparatus 70 include it is multiple be mutually arranged along the vertical direction and can relative telescopic outlet air part, each outlet air part Side (the perpendicular plane with horizontal direction) is provided with sub- air outlet, and multiple sub- air outlets connect to form the 4th air outlet 71.In this way, since multiple outlet air parts along the vertical direction can be corresponding then when multiple outlet air parts are mutually flexible with relative telescopic The areas of multiple sub- air outlets can be overlapped, total face of the 4th air outlet 71 of so many sub- the connected formation of air outlet Product changes, then the air-out area variation of exhaust apparatus 70, the air output for flowing to the first air outlet is adjusted with this.

With continued reference to Fig. 1, specifically, exhaust apparatus 70 includes the first outlet air part 72, the second outlet air part 73 and third outlet air Part 74, the first outlet air part 72 are connect with support, and the second outlet air part 73 is sheathed in the first outlet air part 72 and relative to the first outlet air Part 72 is scalable along the vertical direction, and third outlet air part 74 is sheathed in the second outlet air part 73 and relative to the second outlet air part 73 along perpendicular Histogram is to scalable.In other embodiments, also can be set the second outlet air part 73 be sheathed on it is in the first outlet air part 72 and opposite Scalable along the vertical direction in the first outlet air part 72, third outlet air part 74 is sheathed on outside the second outlet air part 73 and goes out relative to second Wind part 73 is scalable along the vertical direction.

Further, the 4th air inlet is opened in the bottom surface of the first outlet air part 72, and the side of the first outlet air part 72 is provided with First sub- air outlet 721, the first sub- air outlet 721 are connected to the 4th air inlet, and the side of the second outlet air part 73 is provided with second Sub- air outlet 731, the side of third outlet air part 74 are provided with the sub- air outlet 741 of third, and the first sub- air outlet 721, the second son go out Air port 731 and the sub- air outlet 741 of third are interconnected to form the 4th air outlet 71.

More specifically, the first sub- air outlet 721 is arranged through the first outlet air part 72 along the vertical direction, the second sub- air outlet 731 are arranged through the second outlet air part 73 along the vertical direction, and the sub- air outlet 741 of third is set through third outlet air part 74 along the vertical direction It sets.

In other embodiments, exhaust apparatus 70 can also include the 4th outlet air part, the 5th outlet air part and the 6th outlet air part Deng being referred to setting for above-mentioned multiple outlet air parts as the set-up mode of the 4th outlet air part, the 5th outlet air part and the 6th outlet air part Mode is set, details are not described herein.

For the ease of measuring the height of exhaust apparatus 70, to calculate the air-out area of exhaust apparatus 70, air conditioner indoor unit 100 It further include height sensor, height sensor is installed on exhaust apparatus 70.The height that multiple outlet air parts such as can be set is H, every sub- air outlet are arranged through each outlet air part, multiple sub- air outlets being equal in length in the horizontal direction, so each The air-out area of sub- air outlet is A, if outlet air part is three, the maximum height of exhaust apparatus 70 is 3H, correspondingly Air-out area is 3A, when measuring the height change of exhaust apparatus 70, the correspondingly air-out area of exhaust apparatus 70 also phase Accordingly proportional variation can successively calculate the air-out area of exhaust apparatus 70.

In the present embodiment, multiple outlet air parts circumferentially rotate between each other in telescopic process in order to prevent, two phases Be provided with circumferential position limiting structure 80 between the outlet air part being mutually arranged, circumferential position limiting structure 80 protect mutually matched card slot with it is convex It rises, card slot is set on one of two outlet air parts, and protrusion is set on the other of two outlet air parts.

It is circumferentially arranged in the first outlet air part 72 to have card slot for by taking the first outlet air part 72 and the second outlet air part 73 as an example, Circumferentially being provided with outside second outlet air part 73 circumferentially arranged in protrusion or the first outlet air has protrusion, the second outlet air outer week To being provided with card slot.Specifically, circumferentially arranged in the first outlet air part 72 to have multiple evenly spaced multiple card slots, the second outlet air Circumferentially be provided with outside part 73 in multiple raised correspondingly with card slot or the first outlet air it is circumferentially arranged have it is multiple uniform The protrusion at interval, the second outlet air are circumferentially provided with multiple and raised one-to-one card slot outside.

In the present embodiment, air conditioner indoor unit 100 further includes gear assembly and driving device, and exhaust apparatus 70 passes through gear Component is connect with support, and driving mechanism drives exhaust apparatus 70 to rotate by gear assembly relative to support, to adjust outlet air dress The position of 70 the 4th air outlet 71 is set, so that exhaust apparatus 70 is rotated relative to support, to meet the outlet air need of different directions It asks.Exhaust apparatus 70 such as can be set relative to support in 180 ° of rotations, be placed in rotation angle of the exhaust apparatus 70 relative to support Degree is not limited thereto.

Another embodiment of the utility model also provides a kind of air-conditioning, unlike the embodiments above, evaporator 10 and increasing Pressure device 20 is connected to the first air inlet with the first air outlet respectively, i.e. the upstream that is located at supercharging device 20 of evaporator 10, air By the first air inlet enter in the accommodating chamber of shell with evaporator 10 carry out heat exchange, by with after 10 heat exchange of evaporator Air is blown out after the pressurization of supercharging device 20 from the first air outlet.

This manner it is also possible to achieve the effect that it is same as the previously described embodiments, only since supercharging device 20 is located at evaporator 10 downstream then enters temperature after supercharging device 20 is pressurized with the air after 10 heat exchange of evaporator and has a degree of mention The temperature of height, the air so blown out from supercharging device 20 can be relatively high, and refrigeration effect is bad.

Unlike the embodiments above, the second air inlet 22 in the present embodiment is designed as one, one second air inlet Mouth 22 face evaporators 10 setting.

Specifically, in the present embodiment, support is connect with supercharging device 20, and evaporator 10 is set to the accommodation space of support It is interior.

In the present embodiment, evaporator 10 is also configured as helical form, but the lesser one end face of 10 diameter of evaporator The setting of one air inlet, the second air inlet of one end face 22 that evaporator 10 is relatively large in diameter are arranged, with guarantee from the first air inlet into The air entered enters supercharging device 20 from the second air inlet 22 with after the heat exchange of evaporator 10.

Specifically, when supercharging device 20 is located at the downstream of evaporator 10, air holder 50 is connected to supercharging device 20 And be connected to the first air outlet, the air after exchanging heat with evaporator 10 flows to supercharging device 20 and is pressurized, and pressurized air flows through Air holder 50, and the first air outlet is flowed to from air holder 50.

In the present embodiment, exhaust apparatus 70 is directly connected to air holder 50, the specific structure ginseng of exhaust apparatus 70 It is arranged according to above-described embodiment.

An embodiment of the present invention also provides air-conditioner outdoor unit included by a kind of above-mentioned air-conditioning, and air-conditioner outdoor unit includes Shell, evaporator 10 and supercharging device 20.Shell has accommodating chamber, and shell is provided with the first air inlet and the first air outlet, First air inlet is connected to accommodating chamber with the first air outlet, evaporator 10 and supercharging device 20 be all set in accommodating chamber and It is interconnected.Evaporator 10 is connected to the first air inlet and the first air outlet respectively with supercharging device 20, is handed over 10 heat of evaporator Air after changing is pressurized after-blow to the first air outlet by supercharging device 20；Or supercharging device 20 and evaporator 10 are respectively with the One air inlet and the connection of the first air outlet, by the pressurized air of supercharging device 20 and 10 heat exchange after-blow of evaporator to first Air outlet.

Air conditioner indoor unit 100 and air-conditioning provided by the embodiment of the utility model, when supercharging device 20 is located at evaporator 10 When upstream, air is pressurized after-blow to evaporator 10 out of, the first air inlet enters shell accommodating chamber, and by supercharging device 20, And it is blown out with after 10 heat exchange of evaporator from the first air outlet；It is empty or when evaporator 10 is located at the upstream of supercharging device 20 Gas enters in the accommodating chamber of shell by the first air inlet carries out heat exchange with evaporator 10, by with after 10 heat exchange of evaporator Air by supercharging device 20 pressurization after from the first air outlet blow out.Since supercharging device 20 can be such that the pressure of air increases Greatly, then air has enough speed to blow out from the first air outlet, uses the side of blower blow out air compared to the prior art Formula, 20 noise of supercharging device are lower.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a kind of air conditioner indoor unit (100), which is characterized in that the air conditioner indoor unit (100) includes:

Shell has accommodating chamber, is provided with the first air inlet and the first air outlet, first air inlet and first outlet air Mouth is connected to the accommodating chamber；

Interconnected evaporator (10) and supercharging device (20), is all set in the accommodating chamber；

The evaporator (10) is connected to first air inlet and first air outlet respectively with the supercharging device (20), After-blow is pressurized to first air outlet by the supercharging device (20) with the air after the evaporator (10) heat exchange；Or Supercharging device described in person (20) is connected to first air inlet and first air outlet respectively with the evaporator (10), warp The supercharging device (20) pressurized air and the evaporator (10) heat exchange after-blow are crossed to first air outlet.

2. air conditioner indoor unit (100) according to claim 1, which is characterized in that the supercharging device (20) is provided with increasing It presses chamber (21), and the supercharging device (20) offers equal the second air inlet (22) and second being connected to the booster cavity (21) Air outlet is provided with filter screen (30) at second air inlet (22), is provided with first flow tune at second air outlet It saves valve (40).

3. air conditioner indoor unit (100) according to claim 1, which is characterized in that the air conditioner indoor unit (100) further includes Air holder (50), the air holder (50) are connected to the supercharging device (20), fill for storing through the pressurization Set (20) pressurized air.

4. air conditioner indoor unit (100) according to claim 3, which is characterized in that the air holder (50) is provided with Storage chamber, and the air holder (50) offers the equal third air inlet being connected to the storage chamber and third air outlet, The third air inlet is connected to the supercharging device (20), is provided with second flow regulating valve at the third air outlet (60)。

5. air conditioner indoor unit (100) according to claim 1-4, which is characterized in that the air conditioner indoor unit It (100) further include exhaust apparatus (70), the exhaust apparatus (70) has the 4th air inlet and the 4th air outlet (71)；

The evaporator (10) is connected to first air inlet and first air outlet respectively with the supercharging device (20) When, the 4th air inlet of the exhaust apparatus (70) is connected to the supercharging device (20), the 4th air outlet (71) It is opposite with first air outlet；

The supercharging device (20) is connected to first air inlet and first air outlet respectively with the evaporator (10) When, the 4th air inlet of the exhaust apparatus (70) is connected to the evaporator (10), the 4th air outlet (71) with First air outlet is opposite.

6. air conditioner indoor unit (100) according to claim 5, which is characterized in that the exhaust apparatus (70) includes multiple Mutually be arranged along first direction and can relative telescopic outlet air part, the side of each outlet air part is provided with along the first party To interconnected sub- air outlet, multiple sub- air outlets connect to form the 4th air outlet (71).

7. air conditioner indoor unit (100) according to claim 6, which is characterized in that two outlet air parts being mutually arranged Between be provided with circumferential position limiting structure, the circumferential direction position limiting structure includes mutually matched card slot and protrusion, the card slot setting In on one of described two outlet air parts, the protrusion is set on the other of described two outlet air parts.

8. air conditioner indoor unit (100) according to claim 6, which is characterized in that the height of the multiple outlet air part is equal, And each sub- air outlet is arranged through corresponding each outlet air part along first direction, multiple sub- outlet air The opening's edge second direction perpendicular with the first direction is equal in length；

The air conditioner indoor unit (100) further includes height sensor, and the height sensor is for detecting the exhaust apparatus (70) height, to control the air-out area of the 4th air outlet (71) of the exhaust apparatus (70).

9. air conditioner indoor unit (100) according to claim 5, which is characterized in that the air conditioner indoor unit (100) further includes Driving mechanism and gear assembly；

When the exhaust apparatus (70) is connected to the supercharging device (20), the gear assembly is connected to the exhaust apparatus (70) between the supercharging device (20), the driving mechanism is for driving the exhaust apparatus (70) to pass through the gear set Part is rotated relative to the supercharging device (20), the 4th air inlet and the supercharging device of the exhaust apparatus (70) (20) connection is kept, and the 4th air outlet (71) of the exhaust apparatus (70) and first air outlet keep opposite；

When the exhaust apparatus (70) is connected to the evaporator (10), the gear assembly is connected to the exhaust apparatus (70) Between the evaporator (10), the driving mechanism is for driving the exhaust apparatus (70) opposite by the gear assembly It is rotated in the evaporator (10), the 4th air inlet of the exhaust apparatus (70) and the evaporator (10) keep connecting It is logical, and the 4th air outlet (71) of the exhaust apparatus (70) and first air outlet keep opposite.

10. a kind of air-conditioning, which is characterized in that including air-conditioner outdoor unit and as in the described in any item air conditioning chambers claim 1-9 Machine (100), the air-conditioner outdoor unit are connect with the air conditioner indoor unit (100).