CN207584881U - A kind of double through-flow jet stream air-conditioning and air conditioner indoor unit - Google Patents

Abstract

The utility model discloses a kind of double through-flow jet stream air-conditioning and air conditioner indoor unit, indoor unit includes landing main body and at least two air conditioner main bodies in landing main body, insertion air channel is formed between adjacent the first air conditioner main body and the second air conditioner main body, rear end air-vent is formed between the rear end of air conditioner main body, upper end air-vent is formed between the upper end of air conditioner main body, air outlet is formed between the front end of air conditioner main body, the air outlet of air conditioner main body is located in insertion air channel；The negative pressure that first air conditioner main body and the second air conditioner main body are configured to generate in insertion air channel during axial-flow fan rotation makes the air outside the first air conditioner main body and the second air conditioner main body enter insertion air channel by rear end air-vent and upper end air-vent, and air outlet sends out the air in insertion air channel.The air-vent of the utility model includes rear end air-vent and upper end air-vent, and air inducing range expands, and absorbing quantity greatly improves, and improves blower effect, and the outlet air of air outlet is more mild comfortable.

Description

A kind of double through-flow jet stream air-conditioning and air conditioner indoor unit

Technical field

The utility model belongs to air-conditioning technical field, specifically, be related to a kind of double through-flow jet stream air conditioner indoor unit and Air-conditioning with above-mentioned air conditioner indoor unit.

Background technology

Double through-flow air-conditioning generally sets two groups of axial-flow fans in a housing, is respectively arranged on housing and two groups of through-flows The corresponding air inlet of fan and air outlet, to improve efficiency.

In order to realize the comfortable of air-supply, a kind of existing wind of submitting is the double through-flow air conditioner indoor unit of mixing wind.The application People had once applied for a kind of air conditioner, indoors casing body forepart formed air outlet, on the both sides of housing formed two into Air port is formed with air-vent between the rear portion of housing, two air inlets, on housing and/or enclosure interior be formed with it is front and rear The insertion air channel of perforation, one end of insertion air channel are connected with air outlet, and the other end is connected with air-vent, and insertion air channel includes The air inducing portion and the air supplying part extended from air outlet to air-vent direction that self-induced-air mouth extends to air outlet direction, it is remote in air inducing portion End and air supplying part from air-vent are formed between the beginning of air-vent there are two air outlet, in each air outlet and one Be formed with fan between air inlet, the air-out direction of fan towards corresponding air outlet, each fan and air inlet it Between be formed with heat exchanger.But in the vertical air conditioner, since air-vent is located between the rear portion of housing, two air inlets, because And air-vent is smaller, the problem of causing the non-heat exchange wind of sucking few, blower effect is poor.

In addition, due to air outlet be located at end of the air inducing portion far from air-vent and air supplying part close to the beginning of air-vent it Between, air outlet is located substantially at the middle part of insertion air channel, and the position of two air outlets causes wind direction and air supplying distance to be sent The limitation in wind portion.

Invention content

The purpose of this utility model is to provide a kind of increase absorbing quantity, the uniform double through-flow jet stream air conditioner indoor unit of mixed wind, Improve the overall performance of air-conditioning.

To realize above-mentioned purpose of utility model, the utility model is achieved using following technical proposals：

A kind of double through-flow jet stream air conditioner indoor unit, at least two air-conditionings including landing main body and in landing main body Ontology, the landing main body have certain height, and the landing body interior forms receiving cavity, in the air conditioner main body Offer air inlet and air outlet, be both provided with axial-flow fan in the air conditioner main body, the axial-flow fan for make air from Corresponding air inlet flows to air outlet, is provided with and changes between the axial-flow fan and the air inlet of each air conditioner main body Hot device；Insertion air channel, first air conditioner main body and second are formed between adjacent the first air conditioner main body and the second air conditioner main body The rear end air-vent of the insertion air channel, first air conditioner main body and the second air conditioner main body are formed between the rear end of air conditioner main body Upper end between form the upper end air-vent of the insertion air channel, the front end of first air conditioner main body and the second air conditioner main body it Between form the air outlet of the insertion air channel, the air outlet of first air conditioner main body and the second air conditioner main body is located at the perforation In air duct；First air conditioner main body and the second air conditioner main body are configured to generate in insertion air channel during corresponding axial-flow fan rotation Negative pressure the air outside the first air conditioner main body and the second air conditioner main body is made to enter institute by rear end air-vent and upper end air-vent Insertion air channel is stated, the air outlet sends out the air in the insertion air channel.

The air outlet of air conditioner indoor unit as described above, first air conditioner main body and the second air conditioner main body is located at described pass through In ventilating duct and close to the position of the air outlet, the air outlet is configured to from the wind that the air outlet is blown out described in Air outlet, it is possible to increase wind direction and air supplying distance.

Air conditioner indoor unit as described above, the insertion air channel is from the rear end air-vent into the air outlet direction The first tapered flaring again of bore, the air outlet are located on divergent segment, are conducive to improve absorbing quantity, increase wind direction and air-supply Distance.

Air conditioner indoor unit as described above is formed with the pendulum leaf for adjusting the air outlet direction on the air outlet And/or wind deflector, the air-out direction of air outlet can be adjusted.

Air conditioner indoor unit as described above, the air outlet be strip, the fan in the longitudinal direction with it is described go out Air port is adapted.

Air conditioner indoor unit as described above, first air conditioner main body and the second air conditioner main body are symmetrical arranged, raising air inducing, Mixed wind and the uniformity of air-supply.

Air conditioner indoor unit as described above, the heat exchanger are integral type arc heat exchanger, and heat exchange area is big, convenient for peace Dress, takes up space small.

The spacing of air conditioner indoor unit as described above, the heat exchanger and the air inlet is 20mm-35mm.

Air conditioner indoor unit as described above, the air inlet and the heat exchanger are strip, the width of the air inlet Spend the 70%-95% for the heat exchanger width.

Air conditioner indoor unit as described above, the heat exchanger include first heat exchanging part opposite with the air inlet and to skies Adjust the second heat exchanging part of ontology front end extension.

Air conditioner indoor unit as described above, when the air conditioner main body only includes the first air conditioner main body and the second air conditioner main body, The air inlet of first air conditioner main body and the second air conditioner main body is located at the outer of first air conditioner main body and the second air conditioner main body Side.

Air conditioner indoor unit as described above, the top of first air conditioner main body pass through company with the top of the second air conditioner main body Fitting connects, to improve the stability of the first air conditioner main body and the second air conditioner main body.

Air conditioner indoor unit as described above, between first air conditioner main body and the second air conditioner main body, the air outlet Top forms top insertion air channel, and the top insertion air channel is connected with upper end air-vent and insertion air channel, can increase air inducing Amount.

Air conditioner indoor unit as described above, the lower end of the air outlet is located at the top of the landing body top face, described Institute is formed between first air conditioner main body and the second air conditioner main body, between the lower end of the air outlet and the top surface for landing main body Lower part insertion air channel is stated, the lower part insertion air channel is connected with the insertion air channel, first air conditioner main body and the second air-conditioning The lower end air-vent connected with the lower part insertion air channel is formed between ontology rear end, the lower end air-vent is located at the rear end The lower section of air-vent can increase absorbing quantity.

The utility model also proposed a kind of double through-flow jet stream air-conditioning, including above-mentioned air conditioner indoor unit.

Compared with prior art, the advantages of the utility model and good effect is：The utility model air conditioner indoor unit includes At least two air conditioner main bodies in landing main body, form perforation between adjacent the first air conditioner main body and the second air conditioner main body The rear end of air duct, the rear end of the first air conditioner main body and the second air conditioner main body forms the rear end air-vent of insertion air channel, the first air-conditioning The upper end air-vent of insertion air channel is formed between the upper end of ontology and the upper end of the second air conditioner main body.The air-vent of the utility model Including rear end air-vent and upper end air-vent, air inducing range expands, and absorbing quantity greatly improves, and improves blower effect, air outlet Outlet air it is more mild comfortable.The air outlet of the utility model is located in insertion air channel, and the outlet air of air outlet can be in perforation wind Larger negative pressure is formed in road, external more non-heat exchange wind is introduced and is mixed to form mixing wind with heat exchange wind, mix wind energy Enough rapidly and uniformly to be spread from air outlet, wind pushing temperature is more uniformly, comfortably；Insertion air channel between air outlet and air-vent The non-heat exchange wind of sucking can be combed, not only facilitate raising suction air volume, and non-heat exchange wind and heat can be improved The mixing uniformity of wind is exchanged, meanwhile, it is filled in the insertion air channel that the utility model can be between air outlet and air outlet The mixing divided, is further ensured that mixed wind uniformity, improves the comfort and uniformity of air-supply.

After specific embodiment of the present utility model is read in conjunction with the figure, other features and advantages of the utility model will become It obtains clearer.

Description of the drawings

Fig. 1 is the front view of the utility model specific embodiment air conditioner indoor unit.

Fig. 2 is the rearview of the utility model specific embodiment air conditioner indoor unit.

Fig. 3 is the left view of the utility model specific embodiment air conditioner indoor unit.

Fig. 4 is the right view of the utility model specific embodiment air conditioner indoor unit.

Fig. 5 is the vertical view of the utility model specific embodiment air conditioner indoor unit.

Fig. 6 is the sectional view at the utility model specific embodiment Figure 1A-A places.

Fig. 7 is the diagrammatic cross-sectional view at the utility model specific embodiment Fig. 1 C-C.

Fig. 8 is the diagrammatic cross-sectional view at the utility model specific embodiment Fig. 1 E-E.

Fig. 9 is longitudinal diagrammatic cross-sectional view of Fig. 1.

Figure 10 is the exploded view of the utility model specific embodiment air conditioner indoor unit.

1st, main body is landed；11st, pedestal；12nd, housing；121st, procapsid；122nd, back casing；

2nd, connector；

61st, front column；62nd, rear column；63rd, short column；7th, third drip tray；

100th, the first air conditioner main body；101st, first shell；1011st, front panel；1012nd, rear panel；102nd, the first air inlet； 103rd, the first air outlet；104th, the first axial-flow fan；105th, the first air duct；1051st, volute tongue before first；1052nd, volute tongue after first； 1053rd, reinforcer；10531st, the first side plate, the 10532, second side plate；106th, First Heat Exchanger；1061st, the first heat exchanging part； 1062nd, the second heat exchanging part；108th, the first wind deflector；109th, the first drip tray；110th, the first bottom base；111 first top bases； 112nd, the first head cover；113rd, the first motor；

200th, the second air conditioner main body；201st, second shell；2011st, front panel；2012nd, rear panel；202nd, the second air inlet； 203rd, the second air outlet；204th, the second axial-flow fan；205th, the second air duct；2051st, volute tongue before second；2052nd, volute tongue after second； 206th, the second heat exchanger；2061st, the first heat exchanging part；2062nd, the second heat exchanging part；208th, the second wind deflector；209th, the second drip tray； 210th, the second bottom base；211 second top bases；212nd, the second head cover；213rd, the second motor；

300th, insertion air channel；301st, rear end air-vent；302nd, upper end air-vent；303rd, air outlet；304th, top perforation wind Road；305th, lower part insertion air channel；306th, lower part air inlet.

Specific embodiment

The technical solution of the utility model is described in further detail with reference to the accompanying drawings and detailed description.

First, a brief description is made to the technical term arrived involved in specific embodiment：

It is following before or after mentioning each structural member, up or down, left or right when, be under structural member normal operating condition It is defined relative to the position of user.In addition, it is desirable to explanation, with front or rear, up or down, left or right merely to just In description and simplify description rather than instruction or imply that signified device or structural member there must be specific orientation, with specific Azimuth configuration and operation, therefore it is not intended that limitation to utility model.Following heat exchange winds refers to from air-conditioning sheet Internal portion, the wind after heat exchanger heat exchange；Non- heat exchange wind refers to the wind from air conditioner main body local environment space, is phase For heat exchange wind, it is not directly from wind in heat exchanger；Mixing wind refers to that heat exchange wind is mixed with non-heat exchange wind Close the wind formed.

Double through-flow jet stream air-conditioning includes indoor unit and outdoor unit, and indoor unit is connected by online pipe with outdoor unit and realizes refrigerant Cycle, indoor unit and outdoor unit connect realization power supply by online line and communication, the drainpipe of drain pan of indoor machine are led to It is outdoor.

Air conditioner indoor unit is equal including landing main body and at least two air conditioner main bodies landed in main body, air conditioner main body Offer air inlet and air outlet, be both provided with axial-flow fan in air conditioner main body, axial-flow fan for make air from it is corresponding into Air port flows to air outlet, and heat exchanger is provided between the axial-flow fan and air inlet of each air conditioner main body；The first adjacent air-conditioning The rear end formation perforation wind of insertion air channel, the first air conditioner main body and the second air conditioner main body is formed between ontology and the second air conditioner main body The upper end air-vent of insertion air channel is formed between the upper end of the rear end air-vent in road, the first air conditioner main body and the second air conditioner main body, The air outlet of insertion air channel, the first air conditioner main body and the second sky are formed between the front end of first air conditioner main body and the second air conditioner main body Adjust ontology air outlet be located in insertion air channel, axial-flow fan rotation when the intrinsic heat exchange wind of air-conditioning from air outlet blow out to In insertion air channel；The negative pressure that first air conditioner main body and the second air conditioner main body are configured to generate during the rotation of corresponding axial-flow fan makes the Air outside one air conditioner main body and the second air conditioner main body by rear end air-vent and upper end air-vent enter insertion air channel namely Non- heat exchange wind enters in insertion air channel, and heat exchange wind and non-heat exchange wind mix in insertion air channel, form proper temperature Mixing wind, air outlet send out air namely mixing wind in insertion air channel.Air-vent includes rear end air-vent and upper end air inducing Mouthful, air inducing range expands, and absorbing quantity greatly improves, and improves blower effect, and the outlet air of air outlet is more mild comfortable.Air outlet In insertion air channel, the outlet air of air outlet can form larger negative pressure in insertion air channel, introduce external more non-thermal It exchanges wind and is mixed to form mixing wind with heat exchange wind, mixing wind can rapidly and uniformly be spread from air outlet, and wind pushing temperature is more Uniformly, comfortably；Insertion air channel between air outlet and air-vent can comb the non-heat exchange wind of sucking, not only help In raising suction air volume, and the mixing uniformity of non-heat exchange wind and heat exchange wind can be improved, meanwhile, in air outlet and air outlet Between insertion air channel in adequately mixed, be further ensured that mixed wind uniformity, improve the comfort and uniformity of air-supply.

As shown in figures 1 to 6, the present embodiment is illustrated by taking vertical air-conditioner indoor unit as an example, the vertical air conditioner room of the present embodiment Interior machine includes landing main body 1 and the first air conditioner main body 100 and the second air conditioner main body 200 in landing main body 1.

Landing main body 1 has certain height, so that the first air conditioner main body 100 and the second air conditioner main body 200 go out demeanour It encloses positioned at the middle part in room, the height of landing main body 1 is generally 40cm-90cm, and landing body interior forms receiving cavity, is used for Accommodate the devices such as the first air conditioner main body 100, the electrical appliance kit of the second air conditioner main body 200, disengaging liquid pipe, drainpipe.Landing main body 1 is wrapped Pedestal 11 and the housing 12 on pedestal 11 are included, pedestal 11 and housing 12 surround receiving cavity.

First air conditioner main body 100 includes first cylindrical shell body 101, and the first air inlet 102 is offered in first shell 101 With the first air outlet 103, the first air duct 105 and the first axial-flow fan 104, the first axial-flow fan are provided in first shell 101 104 and first are provided with First Heat Exchanger 106 between air inlet 102.First axial-flow fan 104 is used to make air from the first air inlet Mouth 102 flows to the first air outlet 103, that is, when the first air conditioner main body 100 works, the first axial-flow fan 104 rotates, by first Air outside air conditioner main body 100 enters by the first air inlet 102 inside the first air conditioner main body 100, with First Heat Exchanger 106 After carrying out heat exchange, heat exchange wind is blown out from the first air outlet 103, adjustment air-out direction is provided at the first air outlet 103 First pendulum leaf（It is not shown in figure）And/or first wind deflector 108, to meet the air-out direction demand of user.First air outlet 103rd, the first air inlet 102 is strip.

Second air conditioner main body 200 includes second cylindrical shell body 201, and the second air inlet 202 is offered in second shell 201 With the second air outlet 203, the second air duct 205 and the second axial-flow fan 204, the second axial-flow fan are provided in second shell 201 204 and second are provided with the second heat exchanger 206 between air inlet 202.Second axial-flow fan 204 is used to make air from the second air inlet Mouth 202 flows to the second air outlet 203, that is, when the second air conditioner main body 200 works, the second axial-flow fan 204 rotates, by second Air outside air conditioner main body 200 enters by the second air inlet 202 inside the second air conditioner main body 200, with the second heat exchanger 206 After carrying out heat exchange, heat exchange wind is blown out from the second air outlet 203, adjustment air-out direction is provided at the second air outlet 203 Second pendulum leaf（It is not shown in figure）And/or second wind deflector 208, to meet the air-out direction demand of user, the second air outlet 203rd, the second air inlet 202 is strip.

In the present embodiment, the cross section of first shell 101 and second shell 201 is ellipse, certainly, the utility model The cross-sectional shape of first shell 101 and second shell 201 is not limited, the horizontal stroke of first shell 101 and second shell 201 Section can also be approximate ellipsoidal, circle, egg type, triangle and polygon etc., the scope of protection of the utility model it It is interior.

Insertion air channel 300 is formed between first air conditioner main body 100 and the second air conditioner main body 200, the first air conditioner main body 100 The rear end L12 and rear end L22 of the second air conditioner main body 200 forms the rear end air-vent 301 of insertion air channel 300, the first air conditioner main body 100 and second the upper end of air conditioner main body 200 form the upper end air-vent 302 of insertion air channel 300, before the first air conditioner main body 100 Hold the air outlet 303 that insertion air channel 300 is formed between L11 and the front end L21 of the second air conditioner main body 200.Before insertion air channel 300 End connected with air outlet 303, the rear end of insertion air channel 300 is connected with rear end air-vent 301, the upper end of insertion air channel 300 with it is upper End air-vent 302 connects, thus, the air inducing range of the present embodiment expands, and insertion air channel 300 can be from 301 He of rear end air-vent Air inducing, absorbing quantity greatly improve upper end air-vent 302 simultaneously, can improve the air quantity of non-heat exchange wind in mixing wind, so that mixed The temperature for closing wind is more mild comfortable, simultaneously as absorbing quantity improves, can also improve the mobility of room air, can make Indoor temperature quickly adjusts uniform.Rear end air-vent 301 and air outlet 303 are strip.

Insertion air channel 300 is formed by the gap between first shell 101 and second shell 201 in the present embodiment, penetrates through wind The wind path wall in road 300 is the opposite side namely first shell 101 of first shell 101 and second shell 201 and second shell 201 Medial surface.Certainly, the wind path wall of insertion air channel 300 can also be separately provided, independently of first shell 101 and second shell Body 201, can be fixed with housing or not with the fixed wind path wall of housing, at this point, sky of the insertion air channel 300 between wind path wall Between.Certainly, wind path wall can also include partial shell and the part wind path wall being separately provided, and part wind path wall is consolidated with partial shell Setting is integrally formed, and complete wind path wall is collectively formed, at this point, insertion air channel 300 is between the wind path wall of part, partial shell it Between space.

Wherein, the air outlet 203 of 103 and second air conditioner main body 200 of air outlet of the first air conditioner main body 100 is respectively positioned on perforation In air duct 300.First air conditioner main body 100 and the second air conditioner main body 200 are configured to the first axial-flow fan 104 and the second axial-flow fan During 204 rotation, the negative pressure generated in insertion air channel 300 makes the sky outside the first air conditioner main body 100 and the second air conditioner main body 200 Gas enters by rear end air-vent 301 and upper end air-vent 302 in insertion air channel 300, forms non-heat exchange wind, meanwhile, first Heat exchange wind in 100 and second air conditioner main body 200 of air conditioner main body blows to respectively from the first air outlet 103, the second air outlet 203 In insertion air channel 300, non-heat exchange wind is mixed to form the mixing wind of temperature pleasant with heat exchange wind in insertion air channel 300, send The air in insertion air channel is sent out in air port 303, that is, air outlet 303 sends out the mixing wind of temperature pleasant.

As shown in fig. 6, the first air outlet 103 and the second air outlet 203 are located in insertion air channel 300, the first air outlet 103 Outlet air with the second air outlet 203 can form larger negative pressuren zone B in insertion air channel 300, introduce external more non-thermal It exchanges in wind to insertion air channel 300, non-heat exchange wind is mixed to form mixing wind with heat exchange wind in insertion air channel 300, mixes Wind energy is enough rapidly and uniformly to spread from air outlet 303, and wind pushing temperature is more uniformly, comfortably；First air outlet 103, the second outlet air The non-heat exchange wind that insertion air channel between mouth 203 and rear end air-vent 301 can suck rear end air-vent comb, no It only helps to improve suction air volume, and the mixing uniformity of non-heat exchange wind and heat exchange wind can be improved, meanwhile, non-heat exchange wind With being carried out fully in insertion air channel 300 of the heat exchange wind between the first air outlet 103, the second air outlet 203 and air outlet 303 Mixing, be further ensured that mixed wind uniformity, improve the comfort and uniformity of air-supply.

First air outlet 103 of the first air conditioner main body of the present embodiment 100 and the second air outlet of the second air conditioner main body 200 203 are respectively positioned in insertion air channel 300 and close to the position of air outlet 303, and the wind of the first air outlet 103 blowout is towards air outlet 303, the wind of the second air outlet 203 blowout is towards air outlet 303, and the wind of the first air outlet 103 and the blowout of the second air outlet 203 is not It can interfere with each other, wind direction and air supplying distance greatly improve, and are conducive to the flowing of room air.

In order to further improve blower effect, the structure of insertion air channel 300 is optimized, insertion air channel 300 from The first tapered flaring again of interior bore in rear end air-vent 301 to 303 direction of air outlet, air outlet are located on divergent segment, air outlet Outlet air will not interfere with each other, and expand air outlet angle and air supplying distance.Meanwhile negative pressuren zone B is formed in the first air outlet 103, Between two air outlets 203 and air outlet 303, under the action of negative pressure, outside the first air conditioner main body 100 and the second air conditioner main body 200 The air in portion enters insertion air channel 300 by rear end air-vent 301, converging transition is first passed through, using divergent segment so that non-thermal friendship It changes wind speed of the wind in insertion air channel 300 to be improved, improves blower effect.

First air outlet 103 and the second air outlet 203 are respectively positioned on 104 He of the first axial-flow fan of the first air conditioner main body 100 The front of 204 line of centres of the second axial-flow fan of second air conditioner main body 200, the front end K11 of the first air outlet 103 are passed through with first Between the center O2 of the line of 104 center O1 of flow fan, the center O1 of the first axial-flow fan 104 and the second axial-flow fan 204 The angle of line is 50 o-90 o；The line of the center O2 of the front end K21 of second air outlet 203 and the second axial-flow fan 204, The angle of line between the center O2 of the center O1 of first axial-flow fan 104 and the second axial-flow fan 204 is 50 o-90 o； The line of the 104 center O1 of rear end K12 and the first axial-flow fan of first air outlet 103, the center O1 of the first axial-flow fan 104 with The angle of line between the center O2 of second axial-flow fan 204 is 10 o-40 o；The rear end K22 of second air outlet 203 and The center O2 of the line of the center O2 of two axial-flow fans 204, the center O1 of the first axial-flow fan 104 and the second axial-flow fan 204 Between the angle of line be 10 o-40 o.The position of first air outlet 103 and the second air outlet 203 causes two air outlets Outlet air will not interfere with each other and influence, will not intersect, be conducive to reduce two air outlets and interact the windage of generation And noise, be conducive to blow, wind direction and air supplying distance are improved.

Axial-flow fan center and the front end of air outlet, rear end line between angle be 50 o-70 o.First air outlet The line of the line of front end K11 and the first axial-flow fan center O1, the first air outlet rear end K12 and the first axial-flow fan center O1 Between angle be 50 o-70 o；Line, the second air outlet of second air outlet front end K21 and the second axial-flow fan center O2 Angle between the line of rear end K22 and the second axial-flow fan center O2 is 50 o-70 o, can increase the area of air outlet.

On same cross section, the distance between the center of axial-flow fan and the center of corresponding air conditioner main body are less than through-flow The radius of fan.The distance between the center O1 of first axial-flow fan 104 and the center O1 ＇ of the first air conditioner main body 100 are less than the Between the center O2 ＇ of the radius of one axial-flow fan 104, the center O2 of the second axial-flow fan 204 and the second air conditioner main body 200 away from From the radius less than the first axial-flow fan 104, be conducive to be configured the position of air inlet and air outlet.In the present embodiment, air-conditioning sheet The cross section of body is ellipse, thus, the center of air conditioner main body is the center of ellipse.

The distance between first air outlet front end K11, second air outlet front end K21 are the first axial-flow fan center O1, The 80%-90% of the distance between two axial-flow fan center O2, between the first air outlet rear end K21, the second air outlet rear end K22 Distance is the 30%-40% of the distance between the first axial-flow fan center O1, the second axial-flow fan center O2.

The setting of the present embodiment air inlet, air outlet and axial-flow fan position causes at the first air outlet and the second air outlet Air-out direction be possibly realized in the same direction, the outlet air of the first air outlet and the second air outlet does not intersect, and will not influence each other and interfere, Be conducive to reduce two air outlets to interact the windage and noise of generation, be conducive to blow, wind direction and air-supply away from From being improved.

The cross-sectional shape of air conditioner main body is ellipse, and air inlet and air outlet are located at the both sides of oval long axis respectively. First air inlet 102 and the first air outlet 103 are located at the both sides of 100 cross section ellipse long axis of the first air conditioner main body respectively, the Two air inlets 202 and the second air outlet 203 are located at the both sides of 200 cross section of the second air conditioner main body ellipse respectively, shorten air Circulation path in air conditioner main body reduces windage and noise.

Air duct includes preceding volute tongue and rear volute tongue, and preceding volute tongue is connected with rear volute tongue by connector, and preceding volute tongue has air-supply face, Air-supply face is preferably plane, and certainly, air-supply face can also be the cambered surface for having slight radian.Specifically, the first air duct 105 includes Volute tongue 1052 after volute tongue 1051 and first before first, volute tongue 2052 after volute tongue 2051 and second before the second air duct 205 includes second. On same cross section, the extended line Y1 and the second air conditioner main body 200 in the air-supply of volute tongue 1051 face before the first air conditioner main body 100 first Before second volute tongue 2051 blow face extended line Y2 it is parallel or intersecting, intersect when first before volute tongue 1051 air-supply in face of end S11 with Before the distance between end S21 is more than first in face of the air-supply of volute tongue 2051 before second before the air-supply of volute tongue 1051 surface rear end S12 and second The distance between the air-supply surface rear end of volute tongue 2051 S22.The air-supply of volute tongue 2051 face before the air-supply of volute tongue 1051 face and second before first Position relationship will not intersect the outlet air generation of the first air outlet 103 and the second air outlet 203, the first air outlet 103 and second The outlet air of air outlet 203 will not be influenced each other and be interfered, and be conducive to reduce two air outlets and interacted the windage of generation And noise, be conducive to blow, wind direction and air supplying distance are improved.

The extended line and corresponding axial-flow fan in preceding volute tongue air-supply face are tangent, specifically, the air-supply of volute tongue 1051 face before first Extended line Y1 and the first axial-flow fan 104 it is tangent, before second volute tongue 2051 blow face extended line Y2 and the second axial-flow fan 204 is tangent.Due to air along axial-flow fan blade tangential direction send out, thus, the air-supply face of preceding volute tongue and going out for axial-flow fan Wind direction is identical, and volute tongue is to the obstruction of air movement before reduction.

The section of the present embodiment air conditioner main body is ellipse, and the angle of preceding volute tongue air-supply face and oval long axis is in 0 o-10 Between o, increase the width of air outlet.

The setting in spiral case air-supply face is so that the first air outlet and the air-out direction at the second air outlet are in the same direction before the present embodiment It is possibly realized, the outlet air of the first air outlet and the second air outlet does not intersect, and will not influence each other and interfere, and is conducive to reduce two Air outlet interacts the windage and noise of generation, is conducive to blow, wind direction and air supplying distance are improved.

After air outlet is collectively formed with housing in the rear end of front end formation air outlet of volute tongue or the front end of rear volute tongue afterwards End, the line at the front end of rear volute tongue and corresponding axial-flow fan center, two of the first air conditioner main body and the second air conditioner main body pass through Angle between the line at flow fan center is between 0 o-40 o.Specifically, after first volute tongue 1052 front end K12 and first The line of axial-flow fan center O1, the first axial-flow fan center O1, the second axial-flow fan center O2 line between angle 0 Between o-40 o；The line of the front end K22 of volute tongue 2052 and the second axial-flow fan center O2, the first axial-flow fan center after second O1, the second axial-flow fan center O2 line between angle between 0 o-40 o.The front end of volute tongue is risen after in the present embodiment Ellipse and the intersection of short axle are started from, and rear volute tongue moves closer to corresponding axial-flow fan to the back-end from front end, on the one hand, Can shorten circulation path of the air in air conditioner main body, reduce windage and noise, on the other hand, can increase wind direction and Air supplying distance.

Wherein, in the present embodiment, the first air inlet 102 is located at the lateral surface of the first air conditioner main body 100, the second air inlet 202 are located at the lateral surface of the second air conditioner main body 200, and position and the rear end air-vent of air inlet have a certain distance, not only may be used To reduce the interference of air-flow at air inlet and rear end air-vent, and the position of air inlet and air outlet can shorten air in air-conditioning Intrinsic flow path is conducive to reduce windage, reduces noise.In addition, air inlet is located at the lateral surface of air conditioner main body, outlet air Mouthful be located in insertion air channel namely the medial surface positioned at air conditioner main body, the position of air outlet make the wind distance that air outlet is sent out compared with Far, the wind that air outlet is sent out will not be sucked directly by air inlet, be conducive to the flowing of room air, can quickly and evenly be adjusted Indoor temperature.Certainly, when the number of air conditioner main body is more than two, in order to form perforation wind between two neighboring air conditioner main body Road, the position of air inlet 202 need to be arranged on the trailing flank of air conditioner main body.

Axial-flow fan there are one respectively being formed between air outlet, air inlet in each air conditioner main body, the outlet air of axial-flow fan Direction is adapted towards corresponding air outlet, axial-flow fan length with corresponding air outlet, and fan arrangement is from air inlet by wind Mouth is introduced and is sent through air outlet to insertion air channel 300.

Heat exchanger is also formed between each air conditioner main body axial-flow fan and air inlet.Moreover, the length of axial-flow fan The length of preferably greater than corresponding air outlet and the length of heat exchanger.Wherein, 106 and second heat exchanger 206 of First Heat Exchanger It is integral type arc heat exchanger, heat exchange area is big, and the arcuate structure formed compared to multi-segment structure, integral type arc knot Structure in housing not only convenient for installing, but also to occupy inner space few.

Due to the assembly relation of 106 and first air conditioner main body 100 of First Heat Exchanger and the second heat exchanger 206 and the second air-conditioning The assembly relation of ontology 200 is identical, the present embodiment only by taking the assembling of 106 and first air conditioner main body 100 of First Heat Exchanger as an example into Row explanation, the second heat exchanger 206 and the assembling of the second air conditioner main body 200 repeat no more.

As shown in fig. 6, First Heat Exchanger 106 includes first heat exchanging part 1061 opposite with the first air inlet 102 and to the Second heat exchanging part 1062 of one air conditioner main body, 100 front end extension, the first heat exchanging part 1061 and the second heat exchanging part 1062 are the from figure The dotted portion of one heat exchanger 106 separates.Cavity D is formed between second heat exchanging part 1062 and the first air duct 105）, cavity D configurations Forming negative pressuren zone D when being rotated for the first axial-flow fan 104 in cavity makes the air of the first air inlet 102 flow through the second heat exchanging part 1062.Due to the presence of vacuum cavity D, the air for being greatly improved the first air inlet 102 flows through the sky of the second heat exchanging part 1062 Tolerance so that the air at the first air inlet 102 can flow uniformly through the first heat exchanging part 1061 and the second heat exchanging part 1062, carry The high utilization rate of second heat exchanging part 1062 improves the heat exchange efficiency of heat exchanger entirety.

Specifically, the first air duct 105 include first before volute tongue 1052 and reinforcer 1053 after volute tongue 1051, first, strengthen 1053 one side of part plays the role of strengthening 105 intensity of the first air duct, on the other hand forms cavity D with the second heat exchanging part 1062. Reinforcer 1053 includes the first side plate 10531 that the rear end of volute tongue 1051 extends to 100 front end of the first air conditioner main body before first, Cavity D is formed between first side plate 10531 and the second heat exchanging part 1062.

In order to increase the negative pressure value in cavity D, reinforcer 1053 include the first side plate 10531 and with the first side plate 10531 The section of the second side plate 10532 that front end connects, the first side plate 10531 and the second side plate 10532 be L-shaped, the second side plate 10532 With the preceding end in contact of the second heat exchanging part 1062.It is enclosed between first side plate 10531, the second side plate 10532 and the second heat exchanging part 1062 Into cavity D.Wherein, the first side plate 10531 and 1062 parallel or less parallel of the second heat exchanging part can be further improved by The air capacity of two heat exchanging part 1062.

In order to be conducive to the heat exchange of heat exchanger, the spacing of the first heat exchanging part 1061 and the first air inlet 102 is 20mm-35mm, First heat exchanging part 1061 and the spacing of the first air inlet 102 are more uniform, the spacing of the second heat exchanging part 1062 and first shell 101 For 20mm-35mm, the second heat exchanging part 1062 and the spacing of housing 101 are also more uniform, thus, the first axial-flow fan 104 rotates The wind energy of generation is enough more uniformly by First Heat Exchanger 106, improves the uniformity of 106 overall heat exchange of First Heat Exchanger, has Conducive to the heat exchange efficiency for improving heat exchanger.

Wherein, the first air inlet 102 and First Heat Exchanger 106 are strip, the length and first of the first air inlet 102 The length of heat exchanger 106 is adapted, and preferably First Heat Exchanger 106 is slightly larger than the first air inlet 102 in length in the longitudinal direction Length on direction, the width of the first air inlet 102 are the 70%-95% of 106 width of First Heat Exchanger, the first heat exchanging part 1061 Width is adapted with the width of the first air inlet 102, and the width of the first heat exchanging part 1061 is 1061 width of First Heat Exchanger 70%-95%, the preferably width of the first heat exchanging part are slightly larger than the width of the first air inlet 102, that is, first heat exchanging part 1061 Width is slightly larger than the 70%-95% of 106 width of First Heat Exchanger.When being rotated due to the first axial-flow fan, in air conditioner main body front end shape Into negative pressuren zone D, thus, the air part that the first air inlet 102 enters is directly over the first heat exchanging part 1061 and exchanges heat, Partial air exchanges heat by the second heat exchanging part 1062, and heat exchange efficiency can be further improved by increasing by the second heat exchanging part 1062.

The First Heat Exchanger 106 of the present embodiment is arc integral heat exchanger, and First Heat Exchanger 106 can be whole arc Shape or including middle part have segmental arc and end flat section.It should be noted that middle part is not necessarily referring to First Heat Exchanger 106 at the center of geometric position, but including First Heat Exchanger 106 at the center of geometric position and close to geometric position center Position.The distance of O1 is no more than the first axial-flow fan between the center of circle of circle and the center of circle of the first axial-flow fan 104 where segmental arc The 15% of 104 radiuses.The position relationship of first axial-flow fan 104 and First Heat Exchanger 106 is enabled at the first air inlet 102 Air uniformly across First Heat Exchanger 106.

The company at the center of heat exchanger segmental arc and the center of the line at axial-flow fan center, axial-flow fan center and air inlet The angle of line is 0o-10o, can further improve the uniformity for flowing through heat exchanger air.

In the present embodiment, First Heat Exchanger 106 includes the first heat exchanging part 1061 and the second heat exchanging part 1062, the first heat exchanging part 1062 and second heat exchanging part 1062 be a heat exchanger；Second heat exchanger 206 includes the first heat exchanging part 2061 and the second heat exchanging part 2062, the first heat exchanging part 2061 and the second heat exchanging part 2062 are a heat exchanger.

First air conditioner main body 100 and the second air conditioner main body 200 are symmetrical arranged, the first air conditioner main body 100 and the second air-conditioning sheet Body has the plane of symmetry, and the plane of symmetry is the center line in the longitudinal direction of rear end air-vent 301 and air outlet 303 in length direction The plane that line is formed.First air conditioner main body 100 and the second air conditioner main body 200, which are symmetrical arranged, refers to first shell 101, second shell 201 shape is symmetrical with the plane of symmetry, the first air inlet 102 in first shell 101 and the second air inlet in second shell 201 202 is symmetrical with the plane of symmetry, the first air outlet 103 in first shell 101 and the second air outlet 203 in second shell 201 with The plane of symmetry is symmetrical, the first air duct 105, the first axial-flow fan 104, First Heat Exchanger 106 and second shell in first shell 101 The second air duct 205, the second axial-flow fan 204 in 201, the second heat exchanger 206 are symmetrical with the plane of symmetry, are drawn with further improving The uniformity of wind, mixed wind and air-supply.

It, can be in the first air conditioner main body in order to improve the stability of the first air conditioner main body 100 and the second air conditioner main body 200 100 top is connect with the top of the second air conditioner main body 200 by connector 2.In order to reduce shadow of the connector 2 to blower effect It ringing, the connector 2 of the present embodiment is elongated strip, and in order to improve the aesthetics of air conditioner indoor unit, connector 2 is Transparent Parts, and And icon, LOGO etc. can be set in Transparent Parts.

In order to further increase absorbing quantity, as shown in Fig. 1,7, the present embodiment is in the first air conditioner main body 100 and the second air-conditioning Between ontology 200, the top of air outlet formed top insertion air channel 304.The upper end of air outlet and the upper end of air conditioner main body have Certain height difference H 1, top insertion air channel 304 mark H1's between the first air conditioner main body 100 and the second air conditioner main body 200 Space.Top insertion air channel 304 is connected with upper end air-vent 302 and insertion air channel 300, at this point, two air conditioner main body upper ends it Between between two air conditioner main body rear ends with 304 corresponding position of top insertion air channel formed upper end air-vent 302, air conditioner main body Upper end air-vent 302 between rear end is located at the top of rear end air-vent 301, and air inducing area further increases.Upper end air-vent Air at 302 initially enters top insertion air channel 304 under the action of negative pressure, is combed in top insertion air channel 304, The suction air volume for improving upper end air-vent 302 is not only facilitated, and being uniformly mixed for non-heat exchange wind and heat exchange wind can be improved Property.

In order to further improve absorbing quantity, as shown in Fig. 1,8,9, the present embodiment can also further increase lower part perforation wind Road 305.The lower end of air outlet is located at the top of 1 top surface of landing main body, in the first air conditioner main body 100 and the second air conditioner main body 200 Between, the lower end of air outlet and land main body 1 top surface between form lower part insertion air channel 305, the lower end of air outlet and landing Difference in height between 1 top surface of main body is H2, lower part insertion air channel 305 for the first air conditioner main body 100 and the second air conditioner main body 200 it Between mark H2 parts space.Lower part insertion air channel 305 is connected with insertion air channel 300, the first air conditioner main body 100 and the second air-conditioning The lower end air-vent 306 connected with lower part insertion air channel 305 is formed between 200 rear end of ontology, lower end air-vent 306 is located at rear end The lower section of air-vent 301.Air at lower end air-vent 306 initially enters lower part insertion air channel 305 under the action of negative pressure, It is combed in lower part insertion air channel 305, not only facilitates the suction air volume for improving lower end air-vent 306, and can improve non-thermal Exchange wind and the mixing uniformity of heat exchange wind.

As shown in Fig. 1,2,9,10, the of 106 and second air conditioner main body 200 of First Heat Exchanger of the first air conditioner main body 100 The disengaging liquid pipe of two heat exchangers 206 connects with the online pipe of outdoor unit, the first drip tray 109 of 106 bottom of First Heat Exchanger Drainpipe needs to be connected to outdoor drainage, and the drainpipe of the second drip tray 209 of 206 bottom of the second heat exchanger is also required to be connected to Outdoor drainage, in order to simplify the structure of indoor unit, the disengaging liquid pipe of the present embodiment First Heat Exchanger 106 and the second heat exchanger 206 Liquid in-out manifold flow to after collecting pipe and connect again with outdoor online pipe, by the first drip tray 109, the water of the second drip tray 209 A drainpipe is converged into, in order to place the components such as collecting pipe and drainpipe, the present embodiment lands the receiving cavity of main body 1, uses In the receiving components such as collecting pipe and drainpipe.

As shown in Figure 10, the assembly relation of the present embodiment air conditioner indoor unit is illustrated：

Land the column for being equipped on the pedestal 11 of main body and being used to support landing main body and air conditioner main body.Specifically, column Including two front columns, 61, two rear columns 62 and two short column 63.Front column 61 and rear column are long column, are used to support Main body and air conditioner main body are landed, the length of short column is less than the length of long column, and short column is used to support landing main body.

The housing 12 of landing main body is installed on front column 61, rear column 62 and short column 63.In order to simplify installation, housing 12 include procapsid 121 and back casing 122, and procapsid 121 includes integrally formed front side board and top plate, and back casing 122 includes Integrally formed back side panel and top plate.The water receiving of through-hole, the first air conditioner main body 100 and the second air conditioner main body 200 is formed on top plate Disk, disengaging liquid pipe etc. enter the receiving cavity in housing 12 by through-hole.

The housing of air conditioner main body is mounted on front column and rear column, specifically, first shell 101 is stood before being mounted on one group On column 61 and rear column 62, first shell 101 includes front panel 1011, rear panel 1012, and second shell 201 is mounted on other one On group front column 62 and rear column 62, second shell 201 includes front panel 2011, rear panel 2012.Air outlet is located at front panel On, air inlet is located on rear panel.

Drip tray is mounted on front column, rear column and short column, drip tray has been sequentially arranged above bottom base, wind Road, top base, top base and bottom base are used to install support air duct, and top base and bottom base are fixedly installed in front column and stand afterwards On column, for installing axial-flow fan, axial-flow fan is located in air duct in air duct, heat exchanger between axial-flow fan and air inlet, Heat exchanger is located at the top of drip tray and is fixedly installed on front column and rear column, and driving axial-flow fan is equipped on top base Motor, the top of top base is provided with head cover.Specifically, in the first air conditioner main body 100, front column 61,62 and of rear column First drip tray 109 is installed, the first drip tray 109 has been sequentially arranged above the first bottom base 110, the first wind on short column 63 Road 105, the first top base 111, the first top base 111 and the first bottom base 110 support the first air duct 105 for installing, and first 111 and first bottom base 110 of top base is fixedly installed on front column 61 and rear column 62, and the first air duct 105 is for installing the One axial-flow fan 104, the first axial-flow fan 104 are located in the first air duct 105, and First Heat Exchanger 106 is located at the first axial-flow fan 104 and first between air inlet 102, and First Heat Exchanger 106 is located at the top of the first drip tray 109 and is fixedly installed in front column 61 and rear column 62 on, the first motor 113 of the first axial-flow fan 104 of driving, base on first are installed on first top base 111 The top of seat 111 is provided with the first head cover 112.In the second air conditioner main body 200, front column 61, rear column 62 and short column 63 On the second drip tray 209 is installed, the second drip tray 209 has been sequentially arranged above the second bottom base 210, the second air duct 205, Two top bases 211, the second top base 211 and the second bottom base 210 support the second air duct 205, the second top base 211 for installing It is fixedly installed on front column 61 and rear column 62 with the second bottom base 210, the second air duct 205 is for the second axial-flow fan of installation 204, the second axial-flow fan 204 is located in the second air duct 205, the second heat exchanger 206 be located at the second axial-flow fan 204 and second into Between air port 202, the second heat exchanger 206 is located at the top of the second drip tray 209 and is fixedly installed in front column 61 and rear column On 62, the second motor 213 of the second axial-flow fan 204 of driving, the top of the second top base 211 are installed on second top base 211 End is provided with the second head cover 212.

In the present embodiment, third drip tray 7, third water receiving are connected between the first drip tray 109 and the second drip tray 209 The height of disk 7 is less than the first drip tray 109 and the second drip tray 209, the water remittance of the first drip tray 109 and the second drip tray 209 Third drip tray 7 is flow to, third drip tray 7 is connected with drainpipe（It is not shown in figure）.Third drip tray 7 is located at landing ontology 1 Receiving cavity in, land ontology 1 back casing 122 on offer for collecting pipe and drainpipe extraction through-hole.

The assembly relation of the present embodiment air conditioner indoor unit so that the structure of air conditioner indoor unit is compacter clean and tidy, easy for installation Fast.

During operation of air conditioner, the air outside air conditioner main body is entered air conditioner main body by axial-flow fan rotation by air inlet Inside, generation heat exchange wind is blown out, and negative pressure is generated in insertion air channel from air outlet after carrying out heat exchange with heat exchanger, is penetrated through Negative pressure in air duct makes the air outside air conditioner main body enter insertion air channel by rear end air-vent, by upper end air-vent, on Portion's insertion air channel enters insertion air channel, enters in insertion air channel by lower end air-vent, lower part insertion air channel, forms non-heat exchange Wind, as shown in figure 9, heat exchange wind and non-heat exchange wind are mixed to form the mixing wind of temperature pleasant in insertion air channel, and from sending It sends out in air port.

Certainly, the present embodiment is only illustrated so that air conditioner indoor unit includes two air conditioner main bodies as an example, the utility model The quantity of the air conditioner main body of air conditioner indoor unit can be determined according to actual demand, more in the quantity more than two of air conditioner main body A air conditioner main body is listed in landing main body 1, as long as there is the configuration of one group of adjacent first air conditioner main body and the second air conditioner main body When mode is consistent with the technical solution that claim describes, that is, the scope of protection of the utility model is fallen into, it is certainly, all adjacent The configuration mode of air conditioner main body with claim description technical solution it is consistent when, also the scope of protection of the utility model it It is interior.

Above example is only to illustrate the technical solution of the utility model rather than is limited；Although with reference to before Embodiment is stated the utility model is described in detail, it for those of ordinary skill in the art, still can be right Technical solution recorded in previous embodiment modifies or carries out equivalent replacement to which part technical characteristic；And these Modifications or substitutions, the utility model technical solution claimed that it does not separate the essence of the corresponding technical solution spirit and Range.

Claims (15)

1. a kind of double through-flow jet stream air conditioner indoor unit, which is characterized in that it include land main body and positioned at landing main body on extremely Few two air conditioner main bodies, the landing main body have certain height, and the landing body interior forms receiving cavity, the sky It adjusts and offers air inlet and air outlet on ontology, axial-flow fan is both provided in the air conditioner main body, the axial-flow fan is used In air is made to flow to air outlet from corresponding air inlet, the axial-flow fan and the air inlet of each air conditioner main body it Between be provided with heat exchanger；Insertion air channel, first air-conditioning are formed between adjacent the first air conditioner main body and the second air conditioner main body The rear end air-vent of the insertion air channel, first air conditioner main body and are formed between the rear end of ontology and the second air conditioner main body The upper end air-vent of the insertion air channel, first air conditioner main body and the second air-conditioning sheet are formed between the upper end of two air conditioner main bodies The air outlet position of the air outlet of the insertion air channel, first air conditioner main body and the second air conditioner main body is formed between the front end of body In in the insertion air channel；First air conditioner main body and the second air conditioner main body are configured to passing through during corresponding axial-flow fan rotation The negative pressure that ventilating duct generates makes the air outside the first air conditioner main body and the second air conditioner main body draw by rear end air-vent and upper end Air port enters the insertion air channel, and the air outlet sends out the air in the insertion air channel.

2. air conditioner indoor unit according to claim 1, which is characterized in that first air conditioner main body and the second air conditioner main body Air outlet be located in the insertion air channel and close to the position of the air outlet, the air outlet is configured to from the outlet air The wind of mouthful blowout is towards the air outlet.

3. air conditioner indoor unit according to claim 1, which is characterized in that the insertion air channel from the rear end air-vent to The first tapered flaring again of interior bore in the air outlet direction, the air outlet are located on divergent segment.

4. the air conditioner indoor unit according to claim 1, which is characterized in that be formed with described in adjustment on the air outlet The pendulum leaf and/or wind deflector in air outlet direction.

5. air conditioner indoor unit according to claim 1, which is characterized in that the air outlet is strip, and the fan exists It is adapted on length direction with the air outlet.

6. air conditioner indoor unit according to claim 1, which is characterized in that first air conditioner main body and the second air conditioner main body It is symmetrical arranged.

7. air conditioner indoor unit according to claim 1, which is characterized in that the heat exchanger is integral type arc heat exchanger.

8. air conditioner indoor unit according to claim 7, which is characterized in that the spacing of the heat exchanger and the air inlet is 20mm-35mm。

9. air conditioner indoor unit according to claim 7, which is characterized in that the air inlet and the heat exchanger are strip Shape, the width of the air inlet are the 70%-95% of the heat exchanger width.

10. air conditioner indoor unit according to claim 9, which is characterized in that the heat exchanger includes and the air inlet phase To the first heat exchanging part and to air conditioner main body front end extend the second heat exchanging part.

11. air conditioner indoor unit according to claim 1, which is characterized in that the air conditioner main body only includes the first air-conditioning sheet When body and the second air conditioner main body, the air inlet of first air conditioner main body and the second air conditioner main body is located at first air conditioner main body With the lateral surface of the second air conditioner main body.

12. air conditioner indoor unit according to claim 1, which is characterized in that the top and second of first air conditioner main body The top of air conditioner main body is connected by connector.

13. according to the air conditioner indoor unit described in claim 1-12 any one, which is characterized in that first air conditioner main body and Between second air conditioner main body, the top of the air outlet form top insertion air channel, the top insertion air channel and upper end air inducing Mouth is connected with insertion air channel.

14. according to the air conditioner indoor unit described in claim 1-12 any one, which is characterized in that the lower end position of the air outlet In the top of the landing body top face, between first air conditioner main body and the second air conditioner main body, the lower end of the air outlet Lower part insertion air channel is formed between the top surface of the landing main body, the lower part insertion air channel is connected with the insertion air channel, The lower end air-vent connected with the lower part insertion air channel is formed between first air conditioner main body and the second air conditioner main body rear end, The lower end air-vent is located at the lower section of the rear end air-vent.

15. a kind of double through-flow jet stream air-conditioning, which is characterized in that the air-conditioning includes the sky described in claim 1-14 any one Adjust indoor unit.