CN207622138U - Indoor unit and air conditioner - Google Patents

Abstract

The utility model provides an indoor unit and air conditioner, the indoor unit is including the casing that has the air intake, be provided with the main wind channel with the air intake intercommunication in the casing, the air current gets into the main wind channel from the air intake, be provided with the air-out passageway in the casing, air-out passageway one end is connected with the main wind channel, the other end forms the air outlet on the surface of casing, be provided with the baffle in the air-out passageway, be used for separating into two at least branch road passageways with the air-out passageway, all be provided with the regulating part in the position that corresponds with every branch road passageway, each regulating part can adjust the temperature of the air current of flowing into each branch road passageway from the main wind channel respectively. The utility model discloses can realize carrying the air current of different temperatures to the region of difference to satisfy the different cold and hot demands of a plurality of people.

Description

Indoor unit and air conditioner

Technical field

The utility model is related to air-conditioning technical field, more particularly to a kind of indoor unit and air conditioner.

Background technology

With the increasingly raising of science and technology being constantly progressive with people's living standard, air-conditioning has become the daily life of people One of most important household electrical appliance in work.

Air conditioner indoor unit outlet air at present only has a kind of temperature, can not take into account the cooling in entire room, for thermal comfort, especially It is the room of large bay, user is more, everyone constitution is different, and the demand to cold and hot is also different, therefore existing interior machine It is difficult to meet everyone hot-cool demand under air supply pattern.

Utility model content

The main purpose of the utility model is to provide a kind of indoor unit and air conditioners, can realize different temperatures Air-flow is delivered to different regions, to meet the different hot-cool demand of multiple people.

The utility model provides a kind of indoor unit, and the indoor unit includes the shell for having air inlet, in the shell It is provided with the main air duct being connected to the air inlet, air-flow enters the main air duct from the air inlet, is arranged in the shell There are air-out passage, described air-out passage one end to be connect with the main air duct, the other end forms outlet air on the surface of the shell Mouthful, be provided with partition board in the air-out passage, the air-out passage is separated at least two bypass passages, with it is every The corresponding position of a bypass passage is both provided with adjustment portion, and each adjustment portion can be adjusted respectively from the main air duct stream Enter the temperature of the air-flow of each bypass passage, and the air-flow in each bypass passage is made to blow to different regions.

More preferably, it is provided with heat exchanger in the main air duct, to exchange heat with the air-flow for entering the main air duct；

The adjustment portion includes the branched bottom for being arranged in the shell and separating with the main air duct, and the branch is logical The one end in road is connected to the air inlet, and the other end is forming air draft on the side wall of the corresponding bypass passage Mouthful, when the air-flow in the main air duct flows through the bypass passage, the air-flow in the branched bottom can be driven to pass through institute It states exhaust outlet and enters the bypass passage, and mixed with the air-flow flowed out in the main air duct, to change in the bypass passage The temperature of air-flow.

More preferably, the adjustment portion further includes regulating mechanism, corresponding into its by each exhaust outlet to adjust The throughput of the bypass passage.

More preferably, it is equal with the bypass passage to be separated into quantity by the partition board for the air outlet, and with the branch The one-to-one branch air port in channel；

The adjustment portion further includes the wind deflector being arranged on the branch air port, and the wind deflector is rotatably connected in institute State on shell, to the rotation angle by adjusting the wind deflector with by the air-flow flowed out by the branch air port guide to Target area.

More preferably, further include driving equipment, the driving equipment is connect with the wind deflector, and can drive the wind-guiding Plate rotates.

More preferably, guarantor is provided on the main air duct and/or the inner wall of the branched bottom and/or the bypass passage Warm layer.

More preferably, further include filter device；

The filter device is arranged in the gas for flowing to the main air duct and the branched bottom respectively by the air inlet On flow path, to be filtered to the air-flow for entering the main air duct and the branched bottom.

More preferably, the filter device is HEPA nets；And/or the filter device is arranged on the air inlet.

More preferably, the regulating mechanism includes sliding door, and the sliding door is connected on the exhaust outlet and can be in institute It states and is slided on exhaust outlet, to adjust the unlatching size of the exhaust outlet.

More preferably, the regulating mechanism further includes first driving means, and the first driving means connect with the sliding door It connects, to drive the sliding door to be slided on the exhaust outlet.

More preferably, the regulating mechanism includes wind blade, wind blade setting with the bypass passage in, and It is rotatably connected on the housing, to adjust the air-flow velocity for flowing through the bypass passage by the rotation of itself.

More preferably, the regulating mechanism further includes the second driving device, second driving device and the wind blade Connection, to drive the wind blade to rotate.

More preferably, the shell includes panel and bottom case, and the panel has the first horizontally extending edge, institute Stating bottom case has the second horizontally extending edge, and between first edge and second edge described in formation Air outlet；

The partition board includes horizontally extending first partition, and the air-out passage is separated by the first partition Upper bypass passage close to the panel and the lower bypass passage close to the bottom case；

The branched bottom include top set channel corresponding with the upper bypass passage and with the lower bypass passage pair The inferior division channel answered, the top set channel are arranged between the main air duct and the panel, and the inferior division channel is set It sets between the main air duct and the bottom case or in the bottom case.

More preferably, there is panel body, top set channel to be arranged between the panel and the main air duct described In panel body.

More preferably, the partition board further includes the second partition vertically extended；

The second partition setting is separated into branch on first in the upper bypass passage, and by the upper bypass passage Bypass passage on channel and second, the top set channel include that first top set corresponding with bypass passage on described first is logical Road and with bypass passage corresponding second top set channel on described second.

More preferably, the partition board further includes the third partition board vertically extended；

The third partition board is vertically arranged in the lower bypass passage, and the lower bypass passage is separated under first Bypass passage and second time bypass passage, the inferior division channel include first lower point corresponding with first time bypass passage Subchannel and with second time bypass passage corresponding second inferior division channel.

More preferably, the shell includes panel and bottom case, and there is the panel the first horizontal edge, the bottom case to have The second horizontal edge, and form the air outlet between first edge and second edge；

The partition board includes the 4th partition board being vertically arranged, and the air-out passage is separated into left branch by the 4th partition board Channel and right bypass passage；

The branched bottom include left branch channel corresponding with the left bypass passage and with the right bypass passage pair The right branch channel answered.

More preferably, the left branch channel be arranged between the main air duct and the panel or the main air duct with it is described Between bottom case or in the bottom case, the right branch channel is arranged between the main air duct and the panel or the main air duct Between the bottom case or in the bottom case.

The another aspect of the utility model provides a kind of air conditioner, includes the indoor unit of arbitrary technical characteristic.

The indoor unit of the offer of the utility model can be adjusted using each adjustment portion from the main air duct and be flowed into respectively The temperature of the air-flow of each bypass passage, and the air-flow in each bypass passage is made to blow to the technical side in different regions Case can be realized and the air-flow of different temperatures is delivered to different regions, to meet the different hot-cool demand of multiple people.

Description of the drawings

Attached drawing described herein is used to provide a further understanding of the present invention, and constitutes one of the utility model Point, the exemplary embodiment of the utility model and the description thereof are used to explain the utility model, does not constitute to the utility model Improper restriction.In the accompanying drawings：

Fig. 1 is the one embodiment diagrammatic cross-section of indoor unit of the utility model；

Fig. 2 is Fig. 1 partial left side views (the first frame mode schematic diagram of air-out passage)；

Fig. 3 is Fig. 1 close-up schematic views；

Fig. 4 is second of frame mode schematic diagram of the air-out passage in Fig. 1；

Fig. 5 is the third frame mode schematic diagram of the air-out passage in Fig. 1；

Fig. 6 is A-A diagrammatic cross-sections of Fig. 5；

In figure：1, shell；11, air inlet；12, main air duct；121, heat exchanger；122, fan blade；13, air-out passage；131、 Upper bypass passage；132, lower bypass passage；133, bypass passage on first；134, bypass passage on second；135, first lower Paths；136, second time bypass passage；137, left bypass passage；138, right bypass passage；14, branched bottom；141, air draft Mouthful；142, top set channel；143, inferior division channel；144, left branch channel；15, panel；151, the first edge；16, bottom case； 161, the second edge；17, panel body；2, partition board；21, first partition；22, second partition；23, third partition board；24, the 4th every Plate；3, regulating mechanism；31, sliding door；32, wind blade；4, filter device；5, wind deflector.

Specific implementation mode

It is specific below in conjunction with the utility model to keep the purpose of this utility model, technical solution and advantage clearer Technical solutions of the utility model are clearly and completely described in embodiment and corresponding attached drawing.Obviously, described embodiment Only it is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, this field The every other embodiment that those of ordinary skill is obtained without making creative work, belongs to the utility model The range of protection.

It should be noted that term " first " in the specification and claims of the utility model and above-mentioned attached drawing, " second " etc. is for distinguishing similar object, without being used to describe specific sequence or precedence.It should be appreciated that in this way The data used can be interchanged in the appropriate case, so that the embodiments of the present invention described herein can be in addition at this In illustrate or description those of other than sequence implement.

As shown in Figure 1,3, a kind of indoor unit, indoor unit include the shell 1 for having air inlet 11, be provided in shell 1 with The main air duct 12 that air inlet 11 is connected to, air-flow enter main air duct 12 from air inlet 11.It is provided with air-out passage 13 in shell 1, goes out 13 one end of wind channel is connect with main air duct 12, and the other end forms air outlet on the surface of shell 1, is provided in air-out passage 13 Partition board 2, air-out passage 13 is separated at least two bypass passages, it is all provided in the corresponding position with each bypass passage It is equipped with adjustment portion, each adjustment portion can adjust the temperature for the air-flow that each bypass passage is flowed into from main air duct 12 respectively, and make each Air-flow in paths blows to different regions.It can realize in this way and the air-flow of different temperatures is delivered to different regions, with Meet the different hot-cool demand of multiple people.

Specifically, as shown in fig. 1, it is provided with heat exchanger 121 in main air duct 12, to the air-flow with entrance main air duct 12 It exchanges heat；Regulating member includes being arranged in shell 1 and separating the branched bottom 14 being arranged, branched bottom with main air duct 12 14 one end is connected to air inlet 11, the other end on the side wall of corresponding bypass passage formed exhaust outlet 141, when When air-flow in main air duct 12 flows through bypass passage, the air-flow in branched bottom 14 can be driven to enter branch by exhaust outlet 141 Paths, and mixed with the air-flow flowed out in main air duct 12 to change the gas flow temperature in bypass passage.Preferably, the adjusting Portion further includes regulating mechanism 3, to adjust the throughput for entering its corresponding bypass passage by each exhaust outlet 141, has been passed through Regulating main air road 12 enters the ratio of bypass passage interior air-flow into the air-flow and branched bottom 14 of bypass passage, with logical to branch Gas flow temperature in road is adjusted.

In actual fabrication, as shown in Fig. 1,3, main air duct 12 is provided with fan blade (can be through-flow fan blade) 122, makes Used time can enter main air duct 12 by 122 certain driving air-flow of fan blade from air inlet 11, and be flowed to after being exchanged heat with heat exchanger 121 Air-out passage 13, since air-out passage 13 is separated at least two bypass passages by partition board 2, after the heat exchange in main air duct 12 Air-flow can flow separately through each bypass passage.

By taking one of bypass passage as an example, since bypass passage corresponds to a branched bottom 14, and branched bottom 14 Exhaust outlet 141 is formed on the side wall of bypass passage, when the air-flow in main air duct 12 flows through bypass passage, can be relied on and be insinuated original Reason brings the air-flow in branched bottom 14 in bypass passage by exhaust outlet 141 into, and two strands of air-flows can be in bypass passage at this time It is interior to mix and blown out after forming mixed airflow.Since the air-flow in main air duct 12 is after being exchanged heat with heat exchanger 121 Air-flow, and the air-flow flowed out by exhaust outlet 141 does not exchange heat with heat exchanger 121, therefore the temperature of the two is different, Adjustable mechanism 3 adjusts the throughput flowed out by exhaust outlet 141 for flowing through bypass passage when in use, to realize to gaseous mixture The temperature of stream is adjusted.Heat exchanger 121 can be communicated with compressor with by expansion valve in actual operation, cold and hot in use environment In the case that load changes, heat exchanger can be adjusted by adjusting the frequency of compressor or the aperture of expansion valve at this time 121 temperature, and then the temperature for flowing through the air-flow in main air duct 12 is adjusted, to adapt to use needs.

The realization method that the different mixed airflow of temperature is blowed to to each bypass passage different regions first is introduced：

As shown in Figure 3, it is equal with bypass passage and a pair of with bypass passage one to be separated into quantity by partition board 2 for air outlet The branch air port (not shown) answered, regulating member further include the wind deflector 5 being arranged on branch air port, and wind deflector 5 is rotatable It is connected on shell 1, to the rotation angle by adjusting wind deflector 5 guiding the air-flow flowed out by branch air port to mesh Mark region.It can be by adjusting separately the rotation angle of the wind deflector 5 on each branch air port, to realize each branch when specifically used The air-flow of air port outflow is because leading to different regions.Further, further include driving equipment (not shown), driving equipment with lead Aerofoil 5 connects, and wind deflector 5 can be driven to rotate.

Next enter the side that the throughput of its corresponding bypass passage is adjusted to exhaust outlet 141 to regulating mechanism 3 Formula is introduced：

As shown in figure 3, regulating mechanism 3 includes sliding door 31, sliding door 31 is connected on exhaust outlet 141 and can be in air draft It is slided on mouth 141, to adjust the unlatching size of exhaust outlet 141.In this manner, coming from bypass passage is being flowed through In the case that the air-flow velocity of main air duct 12 is constant, the unlatchings size by adjusting exhaust outlet 141 adjusts the outflow of exhaust outlet 141 Throughput, and then realize the adjusting to the mixed airflow temperature flowed out in bypass passage.Preferably, regulating mechanism 3 further includes One driving device (not shown), first driving means are connect with sliding door 31, to drive sliding door 31 on exhaust outlet 141 Sliding.

Further, regulating mechanism 3 includes wind blade 32, the setting of wind blade 32 with bypass passage in, and can turn It is dynamic to be connected on shell 1, to adjust the air-flow velocity for flowing through bypass passage by the rotation of itself.In this manner, It can be rotated by wind blade 32 and change its blocking area to flowing through the air-flow in bypass passage, and then adjustment flows through branch and leads to The air-flow velocity from main air duct 12 in road.Due to the difference of the air-flow velocity from main air duct 12, by injection principle from The throughput that exhaust outlet 141 is taken out of also differs, therefore can be adjusted by the adjusting to the air-flow velocity from main air duct 12 It saves the throughput that exhaust outlet 141 flows out and then realizes the adjusting to the mixed airflow temperature flowed out in bypass passage.More preferably, it adjusts It further includes the second driving device to save mechanism 3, and the second driving device is connect with wind blade 32, to drive 32 turns of wind blade It is dynamic.It should be noted that wind blade 32 turns to different angles in each bypass passage, it can also realize and flow branch air port The air-flow gone out because leading to different region purposes, and wind deflector 5 also can by rotate realize in bypass passage come autonomous wind The adjusting of the air-flow velocity in road 12.

In actual use, it can also be carried out by adjusting the rotating speed of fan blade 122 to flowing through the air-flow velocity in main air duct 12 It adjusts, and then adjusts the throughput for entering its corresponding bypass passage by each exhaust outlet 141.

As a kind of embodiment, it is arranged on main air duct 12 and/or the inner wall of branched bottom 14 and/or bypass passage There is insulating layer, each gas channel is avoided dew condensation phenomenon occur in refrigerating operaton operating mode.

Further include filter device 4 as a kind of embodiment, the setting of filter device 4 is flowed respectively by air inlet 11 It on the air flow path of main air duct 12 and branched bottom 14, specifically may be provided on air inlet 11, to entering main air duct 12 It is filtered with the air-flow of branched bottom 14.Main air duct 12 and branched bottom 14 can be made to share a filter device 4, section in this way About cost of manufacture.Wherein, filter device 4 can be HEPA nets.

Finally several optional frame modes of air-out passage 13 are introduced：

First way

As described in Fig. 1,2, shell 1 includes panel 15 and bottom case 16, and panel 15 has the first horizontally extending side Along 151, bottom case 16 has the second horizontally extending edge 161, and between the first edge 151 and the second edge 161 Form air outlet.Partition board 2 includes horizontally extending first partition 21, and air-out passage 13 is separated into and leans on by first partition 21 The lower bypass passage 132 of the upper bypass passage 131 of nearly panel 15 and close bottom case 16.Branched bottom 14 includes and upper bypass passage 131 corresponding top set channels 142 and inferior division channel 143 corresponding with lower bypass passage 132, top set channel 142 are arranged Between main air duct 12 and panel 15, inferior division channel 143 is arranged between main air duct 12 and bottom case 16 or in bottom case 16.Using Such mode is that air-out passage 13 is separated into the upper bypass passage 131 being arranged above and below and lower branch by first partition 21 Channel 132.And then the air-flow of different temperatures is delivered to two not respectively by upper bypass passage 131 and lower bypass passage 132 Same region.There is panel body 17, top set channel in actual fabrication as shown in Figure 1, between panel 15 and main air duct 12 142 are arranged in panel body 17.

The second way

The method is the further expansion to air-out passage described in first way 13, i.e., in the base of first way On plinth, as shown in figure 4, partition board 2 further includes the second partition 22 vertically extended.The setting of second partition 22 is logical in upper branch In road 131, and upper bypass passage 131 is separated on first bypass passage 134 on bypass passage 133 and second, top set is logical Road 142 include and first on the corresponding first top set channel of bypass passage 133 and corresponding with bypass passage on second 134 Two top set channels.It may be implemented so logical by bypass passage 134 on bypass passage 133, second on first and lower branch The air-flow of different temperatures is delivered to three different regions by road 132.

Further, as shown in figure 4, partition board 2 further includes the third partition board 23 vertically extended.Third partition board 23 is perpendicular Straight setting is separated into first time bypass passage 135 and second time branch in lower bypass passage 132, and by lower bypass passage 132 Channel 136, inferior division channel 143 include with first time corresponding first inferior division channel of bypass passage 135 and with second lower 136 corresponding second inferior division channel of paths.It in this manner can be by bypass passage 133, second on first Four kinds of different air-flows of temperature are delivered to four by bypass passage 134, first time bypass passage 135 and second time bypass passage 136 A different region, further improves the adaptability of work.

The third mode

As shown in Figure 5,6, shell 1 includes panel 15 and bottom case 16, and panel 15 has the first horizontal edge 151, bottom case 16 have the second horizontal edge 161, and form air outlet between the first edge 151 and the second edge 161；Partition board 2 includes Air-out passage 13 is separated into left bypass passage 137 and right bypass passage by the 4th partition board 24 being vertically arranged, the 4th partition board 24 138；Branched bottom 14 includes and the corresponding left branch channel 144 of the left bypass passage 137 and right side corresponding with right bypass passage 138 Branched bottom.In this manner, it is that air-out passage 13 is separated into the left branch of left-right situs to lead to by the 4th partition board 24 Road 137 and right bypass passage 138.And then the air-flow of different temperatures is distinguished by left bypass passage 137 and right bypass passage 138 It is delivered to two different regions.In actual fabrication, left branch channel 144 is arranged between main air duct 12 and panel 15 or master Between air duct 12 and bottom case 16 or in bottom case 16, right branch channel be arranged between main air duct 12 and panel 15 or main air duct 12 with Between bottom case 16 or in bottom case 16.

The another aspect of the utility model provides a kind of air conditioner, including appoints indoor unit described in above example.

Above example, which makes the utility model have, can realize the air-flow of different temperatures is delivered to different regions, with The advantages of meeting multiple people different hot-cool demand.

The above description is only the embodiments of the present invention, is not intended to limit the utility model, for this field Technical staff for, various modifications and changes may be made to the present invention.Within the spirit and principle of the utility model, Any modification, equivalent replacement, improvement and so on should be included within the right of the utility model.

Claims (19)

1. a kind of indoor unit, the indoor unit includes the shell (1) with air inlet (11), be provided in the shell (1) with The main air duct (12) of air inlet (11) connection, air-flow enter the main air duct (12), feature from the air inlet (11) It is：

It is provided with air-out passage (13) in the shell (1), described air-out passage (13) one end is connect with the main air duct (12), The other end forms air outlet on the surface of the shell (1), and partition board (2) is provided in the air-out passage (13), to incite somebody to action The air-out passage (13) is separated at least two bypass passages, is both provided in the corresponding position with each bypass passage Adjustment portion, each adjustment portion can adjust the temperature for the air-flow that each bypass passage is flowed into from the main air duct (12) respectively Degree, and the air-flow in each bypass passage is made to blow to different regions.

2. indoor unit according to claim 1, it is characterised in that：

It is provided with heat exchanger (121) in the main air duct (12), to exchange heat with the air-flow for entering the main air duct (12)；

The adjustment portion includes the branched bottom (14) that setting separates in the shell (1) and with the main air duct (12), institute The one end for stating branched bottom (14) is connected to the air inlet (11), side wall of the other end in the corresponding bypass passage Upper formation exhaust outlet (141) can drive the branch when the air-flow in the main air duct (12) flows through the bypass passage Air-flow in channel (14) enters the bypass passage by the exhaust outlet (141), and is flowed out in the main air duct (12) Air-flow mixing, to change the temperature of the bypass passage interior air-flow.

3. indoor unit according to claim 2, it is characterised in that：

The adjustment portion further includes regulating mechanism (3), corresponding described into its by each exhaust outlet (141) to adjust The throughput of bypass passage.

4. indoor unit according to claim 2, it is characterised in that：

It is equal with the bypass passage that the air outlet is separated into quantity by the partition board (2), and one by one with the bypass passage Corresponding branch air port；

The adjustment portion further includes the wind deflector (5) being arranged on the branch air port, and the wind deflector (5) is rotatably connected On the shell (1), the gas to the rotation angle by adjusting the wind deflector (5) will be flowed out by the branch air port Stream is guided to target area.

5. indoor unit according to claim 4, it is characterised in that：

Further include driving equipment, the driving equipment is connect with the wind deflector (5), and the wind deflector (5) can be driven to turn It is dynamic.

6. indoor unit according to claim 2, it is characterised in that：

It is provided with heat preservation on the main air duct (12) and/or the inner wall of the branched bottom (14) and/or the bypass passage Layer.

7. indoor unit according to claim 2, it is characterised in that：

Further include filter device (4)；

The filter device (4) setting is flowing to the main air duct (12) and the branch leads to respectively by the air inlet (11) On the air flow path in road (14), to be filtered to the air-flow for entering the main air duct (12) and the branched bottom (14).

8. indoor unit according to claim 7, it is characterised in that：

The filter device (4) is HEPA nets；And/or the filter device (4) is arranged on the air inlet (11).

9. according to the indoor unit described in claim 3 to 8 any one, it is characterised in that：

The regulating mechanism (3) includes sliding door (31), and the sliding door (31) is connected on the exhaust outlet (141) and can It is slided on the exhaust outlet (141), to adjust the unlatching size of the exhaust outlet (141).

10. indoor unit according to claim 9, it is characterised in that：

The regulating mechanism (3) further includes first driving means, and the first driving means are connect with the sliding door (31), is used To drive the sliding door (31) to be slided on the exhaust outlet (141).

11. according to the indoor unit described in claim 3 to 8 any one, it is characterised in that：

The regulating mechanism (3) includes wind blade (32), and the wind blade (32) is arranged in the bypass passage, and can It is rotatably connected on the shell (1), to adjust the air-flow velocity for flowing through the bypass passage by the rotation of itself.

12. indoor unit according to claim 11, it is characterised in that：

The regulating mechanism (3) further includes the second driving device, and second driving device is connect with the wind blade (32), To drive the wind blade (32) to rotate.

13. according to the indoor unit described in claim 2 to 8 any one, it is characterised in that：

The shell (1) includes panel (15) and bottom case (16), and the panel (15) has the first horizontally extending side Along (151), the bottom case (16) has horizontally extending the second edge (161), and first edge (151) and The air outlet is formed between second edge (161)；

The partition board (2) includes horizontally extending first partition (21), and the first partition (21) leads to the outlet air Road (13) is separated into the upper bypass passage (131) close to the panel (15) and the lower bypass passage close to the bottom case (16) (132)；

The branched bottom (14) include top set channel (142) corresponding with upper bypass passage (131) and with it is described under The corresponding inferior division channel (143) of bypass passage (132), the top set channel (142) setting the main air duct (12) with Between the panel (15), the inferior division channel (143) be arranged between the main air duct (12) and the bottom case (16) or In the bottom case (16).

14. indoor unit according to claim 13, it is characterised in that：

There is panel body (17), top set channel (142) setting between the panel (15) and the main air duct (12) In the panel body (17).

15. indoor unit according to claim 13, it is characterised in that：

The partition board (2) further includes the second partition (22) vertically extended；

The upper bypass passage (131) is separated by second partition (22) setting in the upper bypass passage (131) Bypass passage (134) on bypass passage (133) and second on first, the top set channel (142) include on described first Bypass passage (133) corresponding first top set channel and second top set corresponding with bypass passage (134) on described second Channel.

16. indoor unit according to claim 13, it is characterised in that：

The partition board (2) further includes the third partition board (23) vertically extended；

The third partition board (23) is vertically arranged in the lower bypass passage (132), and the lower bypass passage (132) is divided It is divided into first time bypass passage (135) and second time bypass passage (136), the inferior division channel (143) includes and described Once bypass passage (135) corresponding first inferior division channel and under second time bypass passage (136) corresponding second Branched bottom.

17. according to the indoor unit described in claim 2 to 8 any one, it is characterised in that：

The shell (1) includes panel (15) and bottom case (16), and the panel (15) has horizontal the first edge (151), institute Stating bottom case (16) has horizontal the second edge (161), and first edge (151) and second edge (161) it Between form the air outlet；

The partition board (2) includes the 4th partition board (24) being vertically arranged, and the 4th partition board (24) is by the air-out passage (13) It is separated into left bypass passage (137) and right bypass passage (138)；

The branched bottom (14) include left branch channel (144) corresponding with left bypass passage (137) and with the right side The corresponding right branch channel of bypass passage (138).

18. indoor unit according to claim 17, it is characterised in that：

The left branch channel (144) is arranged between the main air duct (12) and the panel (15) or the main air duct (12) Between the bottom case (16) or in the bottom case (16), the right branch channel is arranged in the main air duct (12) and the face Between plate (15) or between the main air duct (12) and the bottom case (16) or in the bottom case (16).

19. a kind of air conditioner, it is characterised in that：

Including the indoor unit described in claim 1 to 18 any one.