CN208238002U - Air conditioner indoor unit - Google Patents

Abstract

The utility model provides a kind of air conditioner indoor unit, including refrigerating and heating combined equipment and aeration device, refrigerating and heating combined equipment includes ducting part, aeration device has fresh air channel, waste air channel and heat exchanging core, heat exchanging core is connected to fresh air channel and waste air channel, so that in heat exchanger core body heat exchange occurs for the fresh air being located in fresh air channel with the waste air being located in waste air channel；Ducting part includes that the first ducting assembly, the second ducting assembly and air inlet skeleton, air inlet framework ring are arranged around the first ducting assembly and the second ducting assembly, the first ducting assembly and the second ducting assembly split settings and with to enter the wind skeleton detachably connected.The air conditioner indoor unit of the utility model solves the problems, such as that the mode in the prior art for carrying out logical fresh air to interior can make indoor energy loss larger.

Description

Air conditioner indoor unit

Technical field

The utility model relates to household appliance technical fields, in particular to a kind of air conditioner indoor unit.

Background technique

In recent years, since economic fast development and urbanization process are accelerated, atmosphere pollution is on the rise.PM2.5 concentration Increase, directly result in haze weather and take place frequently and be significantly increased with poisonous and harmful substances in mist, seriously threatened the body of the mankind Body health.In this case, conventional household comfort air conditioning system has been unable to meet the needs of people, and health, comfortable, environmental protection are Target as modern air conditioning development.

For common air-conditioning, to guarantee its air-conditioning effect, it is desirable that air-conditioned room must be closed, as a result, indoor micro- Dirt, smog, bacterium, virus, exhaust gas are continuously increased, and oxygen content constantly reduces, and air quality is worse and worse.

In recent years, as " air conditioner disease " has attracted increasing attention, sky don't be stayed in for a long time by having begun requirement In between transferring house, and will be in such a way that the logical fresh air that opens a window either forms negative pressure by door, window gap leakage by indoor exhaust wind Fresh air is mended to room, improves indoor environment.

Currently, in the market applied to new and old air exchange mode there are mainly two types of:

One, indoor air is arranged to outdoor by single fan, makes indoor formation negative pressuren zone, force outdoor fresh air from The gap in room flows into indoor；

Two, outdoor fresh air is directly drawn into interior.

All there is energy loss in both above modes, because of the direct suction of outdoor hot and cold air, Shi Biyin The variation for playing former room temperature, causes a large amount of energy loss, increases the energy loss of air conditioner, reduce air conditioner refrigeration, Heating effect.Especially in winter, the input of outdoor cold air even will cause the generation of air-conditioning dew condensation phenomenon.

In addition, both the above mode has that pollute air enters the room without filtering, when outdoor is serious mist When haze weather, outdoor air is directly extracted, indoor more serious pollution will be caused.

Utility model content

The main purpose of the utility model is to provide a kind of air conditioner indoor unit, with solve it is in the prior art to interior into The problem that the mode of the logical fresh air of row can make indoor energy loss larger.

To achieve the goals above, the utility model provides a kind of air conditioner indoor unit, including refrigerating and heating combined equipment and new Wind apparatus, refrigerating and heating combined equipment include ducting part, and aeration device has fresh air channel, waste air channel and heat exchanging core, heat Exchange core is connected to fresh air channel and waste air channel so that the fresh air being located in fresh air channel in the waste air channel In heat exchanger core body heat exchange occurs for waste air；Ducting part includes the first ducting assembly, the second ducting assembly and air inlet skeleton, It enters the wind framework ring to be arranged around the first ducting assembly and the second ducting assembly, the first ducting assembly and the second ducting assembly fission are set It sets.

Further, the first ducting assembly and the second ducting assembly are detachably connected with air inlet skeleton.

Further, the first ducting assembly has the first ducted pathways, and the second ducting assembly has the second ducted pathways；Wind Road component further includes support frame, and support frame is between the first ducting assembly and the second ducting assembly, support frame and the first air duct Component and the second ducting assembly are detachably connected, so that the first ducting assembly and the second ducting assembly are assembled by support frame Together, and separate the first ducted pathways and the second ducted pathways by support frame.

Further, the air duct import of the first ducted pathways has the first air intake surface, and support frame has First Transition face, the One air intake surface is concordant with First Transition face and connects.

Further, the first air intake surface and First Transition face are located in the same arcwall face.

Further, support frame includes connecting plate, and the first ducting assembly includes the first air intake plate interconnected and first Mounting plate, the first air intake surface are the inner wall of the first air intake plate, and the first mounting plate and connecting plate are detachably connected.

Further, there is the first predetermined angle, the first mounting plate, which is located at, to be connected between the first mounting plate and the first air intake plate The lower section of fishplate bar is simultaneously overlapped with connecting plate.

Further, the air duct import of the second ducted pathways has the second air intake surface, and support frame has the second transition face, the Two air intake surfaces are concordant with the second transition face and connect.

Further, the second air intake surface and the second transition face are located in the same arcwall face.

Further, support frame includes the first side plate, the second side plate and between the first side plate and the second side plate Connecting plate, connecting plate and the first ducting assembly and the second ducting assembly are detachably connected；First side plate is far from the second side plate Surface is arranged towards the first ducted pathways, and surface of second side plate far from the first side plate is arranged towards the second ducted pathways.

Further, aeration device includes new wind part and discharge part, and new wind part is arranged in fresh air channel, air draft Component is arranged in waste air channel, so that fresh air inflow is indoor, outside waste air delivery chamber.

Further, new wind part and discharge part are through-flow fan blade.

Further, new wind part and discharge part are axial-flow leaf.

Further, new wind part is through-flow fan blade and discharge part is axial-flow leaf, or new wind part is axial-flow leaf And discharge part is through-flow fan blade.

Further, heat exchanging core is Total heat exchange core or Exchange of apparent heat core or latent heat exchange core.

Air conditioner indoor unit in the utility model includes refrigerating and heating combined equipment and aeration device, and aeration device is logical with fresh air Road, waste air channel and heat exchanging core, heat exchanging core are connected to fresh air channel and waste air channel, so as to be located at fresh air channel With the waste air being located in waste air channel heat exchange occurs in heat exchanger core body for interior fresh air, and refrigerating and heating combined equipment includes air duct portion Part, ducting part include the first ducting assembly, the second ducting assembly and air inlet skeleton, air inlet framework ring around the first ducting assembly and The setting of second ducting assembly, the first ducting assembly and the second ducting assembly split settings simultaneously removably connect with air inlet skeleton It connects.In this way, can more easily realize the replacement of outdoor fresh air and indoor waste air using the fresh air channel and realize outdoor Heat between fresh air and indoor waste air exchanges, and can use the air-out effect that the ducting part improves air conditioner indoor unit, solution The problem that the mode in the prior art for carrying out logical fresh air to interior of having determined can make indoor energy loss larger.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide a further understanding of the present invention, this is practical Novel illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model. In the accompanying drawings:

Fig. 1 shows first viewing angle constructions signal of one embodiment of air conditioner indoor unit according to the present utility model Figure；

Fig. 2 shows the signals of second viewing angle constructions of one embodiment of air conditioner indoor unit according to the present utility model Figure；

Fig. 3 shows the third viewing angle constructions signal of one embodiment of air conditioner indoor unit according to the present utility model Figure；

Fig. 4 shows the transverse sectional view of the air conditioner indoor unit in Fig. 1；

Fig. 5 shows first viewing angle constructions signal of second embodiment of air conditioner indoor unit according to the present utility model Figure；

Fig. 6 shows second viewing angle constructions signal of second embodiment of air conditioner indoor unit according to the present utility model Figure；

Fig. 7 shows the third viewing angle constructions signal of second embodiment of air conditioner indoor unit according to the present utility model Figure；

Fig. 8 shows first viewing angle constructions signal of the third embodiment of air conditioner indoor unit according to the present utility model Figure；

Fig. 9 shows second viewing angle constructions signal of the third embodiment of air conditioner indoor unit according to the present utility model Figure；

The third viewing angle constructions that Figure 10 shows the third embodiment of air conditioner indoor unit according to the present utility model show It is intended to；And

Figure 11 shows the whole installation diagram of air conditioner indoor unit according to the present utility model.

Wherein, the above drawings include the following reference numerals:

10, refrigerating and heating combined equipment；30, aeration device；31, fresh air channel；32, waste air channel；33, new wind part；34, it arranges Wind part；40, heat exchanging core；50, ducting part；60, the first ducting assembly；61, the first ducted pathways；611, the first air inlet Face；62, the first air intake plate；63, the first mounting plate；70, the second ducting assembly；71, the second ducted pathways；711, the second air inlet Face；72, the second air intake plate；73, the second mounting plate；80, skeleton is entered the wind；90, support frame；91, First Transition face；92, connecting plate； 93, the second transition face；94, the first side plate；95, the second side plate.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

The utility model provides a kind of air conditioner indoor unit, please refers to Fig. 1 to Figure 11, and air conditioner indoor unit includes cooling and warming Device 10 and the aeration device 30 being arranged in below refrigerating and heating combined equipment 10, refrigerating and heating combined equipment 10 include ducting part 50, newly Wind apparatus 30 has fresh air channel 31, waste air channel 32 and heat exchanging core 40, heat exchanging core 40 and fresh air channel 31 and dirt Wind channel 32 is connected to, so that the fresh air being located in fresh air channel 31 is with the waste air in waste air channel 32 in heat exchanging core Heat exchange occurs in 40；Ducting part 50 includes the first ducting assembly 60, the second ducting assembly 70 and air inlet skeleton 80, enters the wind bone Frame 80 is arranged around the first ducting assembly 60 and the second ducting assembly 70, and the first ducting assembly 60 and the second ducting assembly 70 are seperated It is arranged and detachably connected with air inlet skeleton 80.

Air conditioner indoor unit in the utility model includes refrigerating and heating combined equipment 10 and is arranged below refrigerating and heating combined equipment 10 Aeration device 30, aeration device 30 have fresh air channel 31, waste air channel 32 and heat exchanging core 40, heat exchanging core 40 with Fresh air channel 31 is connected to waste air channel 32, so that the fresh air being located in fresh air channel 31 and the dirt being located in waste air channel 32 Heat exchange occurs in heat exchanging core 40 for wind, and refrigerating and heating combined equipment 10 includes ducting part 50, and ducting part 50 includes first Ducting assembly 60, the second ducting assembly 70 and air inlet skeleton 80, air inlet skeleton 80 is around the first ducting assembly 60 and the second air duct The setting of component 70, the first ducting assembly 60 and 70 split settings of the second ducting assembly simultaneously removably connect with air inlet skeleton 80 It connects.In this way, can more easily realize the replacement of outdoor fresh air and indoor waste air using the fresh air channel 31 and realize room Heat between outer fresh air and indoor waste air exchanges, and can use the outlet air effect that the ducting part 50 improves air conditioner indoor unit Fruit solves the problems, such as that the mode in the prior art for carrying out logical fresh air to interior can make indoor energy loss larger.

In order to realize the installation of the first ducting assembly 60 and the second ducting assembly 70, as shown in figure 4, the first ducting assembly 60 With the first ducted pathways 61, the second ducting assembly 70 has the second ducted pathways 71；Ducting part 50 further includes support frame 90, Support frame 90 is between the first ducting assembly 60 and the second ducting assembly 70, support frame 90 and the first ducting assembly 60 and second Ducting assembly 70 is detachably connected, so that the first ducting assembly 60 and the second ducting assembly 70 are assembled in by support frame 90 Together, and separate the first ducted pathways 61 and the second ducted pathways 71 by support frame 90.

The specific structure of the first ducted pathways 61 in the present embodiment is, as shown in figure 4, the air duct of the first ducted pathways 61 Import has the first air intake surface 611, and support frame 90 has First Transition face 91, and the first air intake surface 611 and First Transition face 91 are flat Together and connect.

Preferably, as shown in figure 4, the first air intake surface 611 and First Transition face 91 are located in the same arcwall face.

The specific structure of support frame 90 in the utility model is, as shown in figure 4, support frame 90 includes connecting plate 92, the One ducting assembly 60 includes the first air intake plate 62 interconnected and the first mounting plate 63, and the first air intake surface 611 is the first air inlet The inner wall of plate 62, the first mounting plate 63 and connecting plate 92 are detachably connected.

When it is implemented, as shown in figure 4, between the first mounting plate 63 and the first air intake plate 62 have the first predetermined angle, First mounting plate 63 is located at the lower section of connecting plate 92 and overlaps with connecting plate 92.

When it is implemented, as shown in figure 4, the air duct import of the second ducted pathways 71 has the second air intake surface 711, support frame 90 have the second transition face 93, and the second air intake surface 711 is concordant with the second transition face 93 and connects.

When it is implemented, as shown in figure 4, the second air intake surface 711 and the second transition face 93 are located in the same arcwall face.

The specific structure of support frame 90 in the utility model is, as shown in figure 4, support frame 90 includes connecting plate 92, the Two ducting assemblies 70 include the second air intake plate 72 interconnected and the second mounting plate 73, and the second air intake surface 711 is the second air inlet The inner wall of plate 72, the second mounting plate 73 and connecting plate 92 are detachably connected.

When it is implemented, as shown in figure 4, between the second mounting plate 73 and the second air intake plate 72 have the first predetermined angle, Second mounting plate 73 is located at the lower section of connecting plate 92 and overlaps with connecting plate 92.

When it is implemented, support frame 90 is including the first side plate 94, the second side plate 95 and is located at the first side plate 94 and second Connecting plate 92 between side plate 95, connecting plate 92 and the first ducting assembly 60 and the second ducting assembly 70 are detachably connected；The Surface of the side plate 94 far from the second side plate 95 is arranged towards the first ducted pathways 61, and the second side plate 95 is far from the first side plate 94 Surface is arranged towards the second ducted pathways 71.

In the present embodiment, as shown in Fig. 1 to 3, Fig. 5 to Figure 10, aeration device 30 includes new wind part 33 and air draft portion Part 34, new wind part 33 are arranged in fresh air channel 31, and discharge part 34 is arranged in waste air channel 32, so that fresh air flows into room It is interior, outside waste air delivery chamber.

Constantly, the central axis of new wind part 33 and the central axis of discharge part 34 are arranged in parallel or vertically set for specific implementation It sets.

When it is implemented, new wind part 33 and discharge part 34 are coaxially disposed, fresh air is by new wind part 33 far from air draft portion The side of part 34 enters, and waste air is entered by discharge part 34 far from the side of new wind part 33.

In one embodiment, new wind part 33 and discharge part 34 are through-flow fan blade.

In the second embodiment, new wind part 33 and discharge part 34 are axial-flow leaf.

In third embodiment, new wind part 33 is through-flow fan blade and discharge part 34 is axial-flow leaf or fresh air portion Part 33 is axial-flow leaf and discharge part 34 is through-flow fan blade.

Preferably heat exchanging core 40 is Total heat exchange core or Exchange of apparent heat core or latent heat exchange core.

When it is implemented, double through-flow ducting part can be by single through-flow ducting part or centrifugation blade ducting part or mixed Flow the replacement of fan blade ducting part.

When it is implemented, the fan blade of aeration device can be centrifugation blade or through-flow fan blade either mixed flow fan blade

When it is implemented, the waste air mouth of aeration device can be in the surface or fuselage lower half portion of fuselage lower half portion Left side above or right side above or the left side of two sides or fuselage lower half portion below or right side issues or two sides Or the rear of lower half portion.

When it is implemented, the fresh wind port of aeration device can be in the surface or fuselage lower half portion of fuselage lower half portion Left side above or right side above or the left side of two sides or fuselage lower half portion below or right side issues or two sides Or the rear of lower half portion.

When it is implemented, fresh wind port or waste air mouth can be on chassis.

In the present embodiment, refrigerating and heating combined equipment includes air inlet faceplate component, evaporator portion, ducting part, front panel portion Part, water receiving disk component and electrical appliance kit component.

In the present embodiment, air inlet component includes air inlet faceplate and filter screen.

In the present embodiment, evaporator part includes evaporator, side plate, evaporator support, drip tray.

In the present embodiment, bezel assembly includes front panel and display unit.

In the present embodiment, evaporator part is fixed by screw up and down and air inlet faceplate component.

The refrigerating and heating combined equipment working principle of the utility model: after starting, the rotation of through-flow fan blade in ducting part, from into Wind panel component sucks room air, acts on by evaporator, subsequently into the ducting part of the right and left, from ducting part Outlet blowout.It is moved up and down, is realized on wind or so by the wind outlet panel rotation on ducting part and the swing flap blade on air duct Lower flowing.

Aeration device working principle:

Aeration device drives new wind part and discharge part to rotate by motor, and indoor waste air passes through waste air channel, filtering Net, heat exchanger core, are discharged to outdoor.Outdoor fresh air introduces interior by fresh air channel, filter screen, heat exchanger core.Waste air and Fresh air carries out the exchange of sensible heat and latent heat in heat exchanger core.

Such as in summer, outside air temperature is higher than indoor air temperature, and fresh air is passed by heat exchanger core, part energy Indoor waste air discharge is passed, realizes cooling effect.

Such as in winter, outside air temperature is lower than indoor air temperature, and fresh air is absorbed from waste air by heat exchanger core Part energy realizes temperature rise effect.

Through this it is achieved that be unlikely to temperature too high or too low for the fresh air introduced, cause to cause seriously to increase after introducing Load or the discomfort for causing human body.Part energy can be passed to fresh air or inhaled from fresh air by the waste air of discharge simultaneously Part energy is received, energy dissipation is avoided.

The course of work of aeration device are as follows:

One, outdoor fresh air enters the room process: under the drive of the motor, the rotation of new wind part, generate fresh air negative pressuren zone and Fresh air zone of positive pressure, is influenced by positive/negative-pressure, and outdoor fresh air enters fresh air channel from fresh air inlet and is filtered by filter screen Fall the pollutant contained in outdoor air and peculiar smell etc., carry out heat exchanger core and exchanged with indoor waste air progress heat exchange and humidity, The fresh air zone of positive pressure generated by new wind part is entered back into, is discharged in interior, is completed by outdoor new by the fresh air outlet of setting The whole process that wind enters the room；

Two, outdoor process is discharged in indoor waste air: under the drive of the motor, discharge part rotation, generate waste air negative pressuren zone and Waste air zone of positive pressure, is influenced by positive/negative-pressure, and indoor waste air enters waste air channel from waste air inlet and is filtered by filter screen Fall the big particulate matter such as dust contained in room air, prevent particulate matter from entering Total heat exchange core and result in blockage, reduces heat and hand over Change core service life, indoor waste air enters that heat exchanger core is synchronous to be exchanged with outdoor fresh air progress heat exchange and humidity, enter back by The waste air zone of positive pressure that discharge part generates is discharged to outdoor by the waste air outlet of setting, completes to be discharged by indoor waste air outdoor Whole process.

The air conditioner indoor unit of the air-conditioning of the utility model, can be with by the way that refrigerating and heating combined equipment and aeration device to be combined It introduces fresh air and updates room air, indoor waste air is discharged and improves air quality, fresh air can be exchanged with waste air by aeration device Energy carries out energy regenerating, reduces energy loss, the function having are as follows:

(1) inletting fresh air function；

(2) pollution and cleaning air function is eliminated；

(3) energy conservation, heat recovery function.

The utility model point of the utility model:

1, a kind of air conditioner, top half are refrigerating and heating combined equipments, and lower half portion is aeration device；

2, air conditioner top half refrigerating and heating combined equipment uses double through-flow mode, and more low noise, more high energy efficiency may be implemented, Blowing range is wider；

3, air conditioner lower half portion aeration device may be implemented to introduce fresh air and waste air be discharged；

4, it is also added to the devices such as filtering and purification function in aeration device, realizes the purification of fresh air or room air And filtering.

The utility model additionally provides a kind of air conditioner, the sky including air conditioner indoor unit and with air conditioner indoor unit pipeline connection Indoor unit is adjusted, air conditioner indoor unit is above-mentioned air conditioner indoor unit.

It can be seen from the above description that the above embodiments of the utility model achieve the following technical effects:

Air conditioner indoor unit in the utility model includes refrigerating and heating combined equipment 10 and is arranged below refrigerating and heating combined equipment 10 Aeration device 30, aeration device 30 have fresh air channel 31, waste air channel 32 and heat exchanging core 40, heat exchanging core 40 with Fresh air channel 31 is connected to waste air channel 32, so that the fresh air being located in fresh air channel 31 and the dirt being located in waste air channel 32 Heat exchange occurs in heat exchanging core 40 for wind, and refrigerating and heating combined equipment 10 includes ducting part 50, and ducting part 50 includes first Ducting assembly 60, the second ducting assembly 70 and air inlet skeleton 80, air inlet skeleton 80 is around the first ducting assembly 60 and the second air duct The setting of component 70, the first ducting assembly 60 and 70 split settings of the second ducting assembly simultaneously removably connect with air inlet skeleton 80 It connects.In this way, can more easily realize the replacement of outdoor fresh air and indoor waste air using the fresh air channel 31 and realize room Heat between outer fresh air and indoor waste air exchanges, and can use the outlet air effect that the ducting part 50 improves air conditioner indoor unit Fruit solves the problems, such as that the mode in the prior art for carrying out logical fresh air to interior can make indoor energy loss larger.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (15)

1. a kind of air conditioner indoor unit, including refrigerating and heating combined equipment (10) and aeration device (30), the refrigerating and heating combined equipment (10) Including ducting part (50), which is characterized in that

The aeration device (30) has fresh air channel (31), waste air channel (32) and heat exchanging core (40), the heat exchange Core (40) is connected to the fresh air channel (31) and the waste air channel (32), so as to be located in the fresh air channel (31) Fresh air heat exchange occurs in the heat exchanging core (40) with the waste air being located in the waste air channel (32)；

The ducting part (50) includes the first ducting assembly (60), the second ducting assembly (70) and enters the wind skeleton (80), described It enters the wind skeleton (80) to be arranged around first ducting assembly (60) and second ducting assembly (70), first air duct group Part (60) and second ducting assembly (70) split settings.

2. air conditioner indoor unit according to claim 1, which is characterized in that first ducting assembly (60) and described second Ducting assembly (70) is detachably connected with the air inlet skeleton (80).

3. air conditioner indoor unit according to claim 1, which is characterized in that first ducting assembly (60) has the first wind Road channel (61), second ducting assembly (70) have the second ducted pathways (71)；The ducting part (50) further includes branch Support (90), support frame as described above (90) is between first ducting assembly (60) and second ducting assembly (70), institute It states support frame (90) and first ducting assembly (60) and second ducting assembly (70) is detachably connected, so that institute It states the first ducting assembly (60) and second ducting assembly (70) to fit together by support frame as described above (90), and makes described First ducted pathways (61) and second ducted pathways (71) are separated by support frame as described above (90).

4. air conditioner indoor unit according to claim 3, which is characterized in that the air duct import of first ducted pathways (61) With the first air intake surface (611), support frame as described above (90) has First Transition face (91), first air intake surface (611) and institute It states First Transition face (91) concordantly and connects.

5. air conditioner indoor unit according to claim 4, which is characterized in that first air intake surface (611) and described first Transition face (91) is located in the same arcwall face.

6. air conditioner indoor unit according to claim 4, which is characterized in that support frame as described above (90) includes connecting plate (92), First ducting assembly (60) includes the first air intake plate (62) interconnected and the first mounting plate (63), first air inlet Face (611) is the inner wall of first air intake plate (62), and first mounting plate (63) and the connecting plate (92) are detachable Ground connection.

7. air conditioner indoor unit according to claim 6, which is characterized in that first mounting plate (63) with described first into Between aerofoil (62) have the first predetermined angle, first mounting plate (63) be located at the lower section of the connecting plate (92) and with institute Connecting plate (92) is stated to overlap.

8. the air conditioner indoor unit according to any one of claim 3 to 7, which is characterized in that second ducted pathways (71) air duct import have the second air intake surface (711), support frame as described above (90) have the second transition face (93), described second into Wind face (711) is concordant with second transition face (93) and connects.

9. air conditioner indoor unit according to claim 8, which is characterized in that second air intake surface (711) and described second Transition face (93) is located in the same arcwall face.

10. air conditioner indoor unit according to claim 3, which is characterized in that support frame as described above (90) includes the first side plate (94), the second side plate (95) and the connecting plate (92) between first side plate (94) and second side plate (95), The connecting plate (92) and first ducting assembly (60) and second ducting assembly (70) are detachably connected；Described Side plate (94) is arranged far from the surface of second side plate (95) towards first ducted pathways (61), second side plate (95) surface far from first side plate (94) is arranged towards second ducted pathways (71).

11. air conditioner indoor unit according to claim 1, which is characterized in that the aeration device (30) includes new wind part (33) it is arranged in the fresh air channel (31) with discharge part (34), the new wind part (33), the discharge part (34) Setting is in the waste air channel (32), so that fresh air inflow is indoor, outside waste air delivery chamber.

12. air conditioner indoor unit according to claim 11, which is characterized in that the new wind part (33) and the air draft portion Part (34) is through-flow fan blade.

13. air conditioner indoor unit according to claim 11, which is characterized in that the new wind part (33) and the air draft portion Part (34) is axial-flow leaf.

14. air conditioner indoor unit according to claim 11, which is characterized in that the new wind part (33) be through-flow fan blade and The discharge part (34) is axial-flow leaf or the new wind part (33) is axial-flow leaf and the discharge part (34) is to pass through Flow fan blade.

15. air conditioner indoor unit according to claim 1, which is characterized in that the heat exchanging core (40) is Total heat exchange Core or Exchange of apparent heat core or latent heat exchange core.