CN108344040A - Air conditioner indoor unit - Google Patents

Abstract

The present invention relates to air conditioner indoor unit comprising：There is casing at least one air outlet of the air-flow outflow for entering its internal at least one air inlet for surrounding air and for supplying it internal, at least one air outlet to be located at the front side of casing；Heat-exchanger rig is set in casing, and is configured to carry out heat exchange at least partly air-flow via at least one air inlet entered in casing；And at least one air flow drive device group for controllably promoting at least partly air-flow in casing to be flowed towards at least one air outlet, each air flow drive device group includes at least one first axial flow blower and at least one first ion wind generation apparatus, and at least one first axial flow blower and at least one first ion wind generation apparatus are set in casing on from least one air inlet to the air-flow flow path of at least one air outlet with being in series.The air conditioner indoor unit of the present invention has higher wind speed and larger air quantity, and noise is smaller.

Description

Air conditioner indoor unit

Technical field

The present invention relates to air-conditioning techniques, more particularly to a kind of air conditioner indoor unit.

Background technology

Currently, traditional wall-hanging air conditioner indoor unit be mostly upper air inlet, lower outlet air airflow circulating mode, and for driving The device of airflow circulating is mostly axial-flow fan.Air-flow edge enters the inside of axial-flow fan perpendicular to the axial direction of axial-flow fan, And the impeller of axial-flow fan is passed twice through, in impeller internal, air-flow is forced to bend so that the pressure loss of air-flow is larger, wind Measure it is relatively low, complete machine run when noise it is larger.

In order to avoid using axial-flow fan certain driving air-flow tape loop come a series of problems, some air-conditionings in the prior art Axial-flow fan is substituted for centrifugal fan or aerofoil fan by indoor unit.Although this air conditioner indoor unit can solve to a certain extent The problem that certainly above-mentioned air quantity is relatively low, air-flow crushing is larger, but effect is not particularly evident, and cannot at all solve noise compared with Big problem.As the defect that noise is big, the small this user of air quantity can be experienced by direct feel has seriously affected air conditioning chamber The whole performance of interior machine, and greatly limit the use scope of air conditioner indoor unit.

In order to reduce noise, involved air conditioner indoor unit is directly simple by wind turbine in some presently disclosed patent documents Ground is substituted for ion wind apparatus, however, ion wind wind speed caused by its ion wind apparatus is extremely limited, replaced air conditioning chamber The wind speed of interior machine significantly lowers, and can hardly meet the most basic use demand of user.Also just because of existing this Technical solution there are many defects and can not practicality, cut-off up to the present, using ion wind blow technology also only stop On most basic theoretic.

Invention content

One object of the present invention is intended to overcome at least one defect in the prior art, and it is larger and make an uproar to provide a kind of air quantity The smaller air conditioner indoor unit of sound.

Another object of the present invention is to expand the blowing range of air conditioner indoor unit, improves the equilibrium of air conditioner indoor unit air-supply Property.

A further object of the present invention is to improve the mildness and comfort level of air conditioner indoor unit air-supply.

To achieve the goals above, the present invention provides a kind of air conditioner indoor unit, including：

Casing has for entering its internal at least one air inlet for surrounding air and for for its internal gas At least one air outlet of outflow, at least one air outlet are located at the front side of the casing；

Heat-exchanger rig is set in the casing, and is configured to enter the machine with via at least one air inlet At least partly air-flow in shell carries out heat exchange；And

For controllably promoting at least partly air-flow in the casing to be flowed extremely towards at least one air outlet A few air flow drive device group, each air flow drive device group include at least one first axial flow blower and at least one A first ion wind generation apparatus, at least one first axial flow blower and at least one first ion wind generation apparatus It is set to being in series in the casing and flows road from least one air inlet to the air-flow of at least one air outlet On diameter.

Optionally, the heat-exchanger rig includes integral type plate evaporator；And

Each air flow drive device group is respectively positioned on the front side of the heat-exchanger rig, or each air stream drives dress Set the rear side that group is respectively positioned on the heat-exchanger rig.

Optionally, the heat-exchanger rig includes segmented plate evaporator, and the hop count of the evaporator drives with the air-flow The number of dynamic device group is identical；And

Each air flow drive device group is respectively positioned on the front side of corresponding one section of evaporator, or each gas Stream driving device group is respectively positioned on the rear side of corresponding one section of evaporator.

Optionally, the air conditioner indoor unit further includes for controllably promoting the fraction in the casing described in At least one second ion wind generation apparatus of corresponding one or more flowings at least one air outlet, wherein

At least one second ion wind generation apparatus is set with being in parallel at least one air flow drive device group It is placed in the casing on from least one air inlet to the air-flow flow path of at least one air outlet.

Optionally, at least one air flow drive device group and at least one second ion wind generation apparatus edge are horizontal Be equipped with to being alternately arranged, and between the adjacent air flow drive device group and the second ion wind generation apparatus air duct every Plate, so that between air duct residing for each air flow drive device group and each second ion wind generation apparatus mutually solely It is vertical.

Optionally, the heat-exchanger rig includes integral type plate evaporator, and at least one air flow drive device group It is respectively positioned on the front side of the heat-exchanger rig at least one second ion wind generation apparatus or is respectively positioned on the heat-exchanger rig Rear side so that by least one air flow drive device group and at least one second ion wind generation apparatus driving Air-flow flows at least one air outlet after heat-exchanger rig heat exchange.

Optionally, the quantity of the air flow drive device group is one, and the heat-exchanger rig includes being set to the air-flow The integral type plate evaporator of driving device group front side or rear side；Or the quantity of the air flow drive device group is multiple, institute It includes segmented plate evaporator, the number phase of the hop count of the evaporator and the air flow drive device group to state heat-exchanger rig Together, evaporator described in multistage is respectively arranged in the air duct where multiple air flow drive device groups, so that

Institute is flowed to after the corresponding evaporator heat exchange by the air-flow of each air flow drive device group driving State a corresponding air outlet at least one air outlet, direct by the air-flow of each second ion wind generation apparatus driving Flow to a corresponding air outlet at least one air outlet.

Optionally, the air conditioner indoor unit further includes for controllably promoting the fraction in the casing described in At least one second axial flow blower of corresponding one or more flowings at least one air outlet, wherein

At least one second axial flow blower is set to institute with being in parallel at least one air flow drive device group It states in casing on from least one air inlet to the air-flow flow path of at least one air outlet.

Optionally, at least one air flow drive device group transversely replaces at least one second axial flow blower Arrangement, and air-duct clapboard is equipped between the adjacent air flow drive device group and second axial flow blower, so that each institute It states between the air duct residing for air flow drive device group and each second axial flow blower independently of each other.

Optionally, the heat-exchanger rig includes integral type plate evaporator, and at least one air flow drive device group It is respectively positioned on the front side of the heat-exchanger rig at least one second axial flow blower or is respectively positioned on the rear side of the heat-exchanger rig, To pass through institute by the air-flow through at least one air flow drive device group and at least one second axial flow blower driving At least one air outlet is flowed to after stating heat-exchanger rig heat exchange.

Optionally, the quantity of the air flow drive device group is one, and the heat-exchanger rig includes being set to the air-flow The integral type plate evaporator of driving device group front side or rear side；Or the quantity of the air flow drive device group is multiple, institute It includes segmented plate evaporator, the number phase of the hop count of the evaporator and the air flow drive device group to state heat-exchanger rig Together, evaporator described in multistage is respectively arranged in the air duct where multiple air flow drive device groups, so that

Institute is flowed to after the corresponding evaporator heat exchange by the air-flow of each air flow drive device group driving It states a corresponding air outlet at least one air outlet, institute is flowed directly by the air-flow of each second axial flow blower driving State a corresponding air outlet at least one air outlet.

Optionally, in each air flow drive device group, first axial flow blower and first ion wind occur The quantity of device is one；And

First axial flow blower is set to the rear side of the first ion wind generation apparatus or first axial flow blower It is set to the front side of the first ion wind generation apparatus.

Optionally, in each air flow drive device group, at least one first axial flow blower and described at least one A first ion wind generation apparatus is configured to controllably select startup operation or starts operation simultaneously, so that the air conditioner indoor unit It works in quickly cooling/speed heat pattern only by first axial flow blower driving air-supply or is only occurred by first ion wind The silent mode of device driving air-supply is driven simultaneously by first axial flow blower and the first ion wind generation apparatus The Wind Volume pattern of air-supply.

Optionally, each first ion wind generation apparatus includes being arranged in order along the longitudinal direction and in parallel or series Multiple electric discharge modules of connection, each electric discharge module all have in the metal mesh extended in plane in the front-back direction With on rear side of the metal mesh and multiple spray points for being arranged in array；And

The spray point of the two neighboring electric discharge module is directly to arrangement of arranging or misplace.

The air conditioner indoor unit of the present invention includes at least one air flow drive device group, and each air flow drive device group includes At least one first axial flow blower and at least one first ion wind generation apparatus being in series.First axial flow blower is in motor It is rotated by, to which certain driving air-flow flows, the first ion wind generation apparatus can be flowed by electric field force certain driving air-flow, and first After axial flow blower and the first ion wind generation apparatus arranged in series, air-flow can repeatedly be accelerated, realizes the superposition of wind speed, To obtain higher wind speed and larger air quantity.Meanwhile first ion wind generation apparatus make the grain in air by electric field force Son obtains kinetic energy, to form ion wind.For air-supply assembly (such as wind turbine) compared to rotation class, the first ion wind occurs The advantages such as device has crushing pin, energy consumption is low, noise is small.The present invention is by filling the first axial flow blower and the first ion wind That sets is arranged in series, and has not only expanded the air output of air conditioner indoor unit, has improved its air supply velocity, but also has not increased additional noise, For the air conditioner indoor unit all using rotation class air-supply assembly, noise when air conditioner indoor unit of the invention is run is big It is big to reduce.

Further, heat-exchanger rig of the invention can be integral type plate evaporator, can also be that segmented plate is steamed Send out device.Heat-exchanger rig can be located at the front side of all air flow drive device groups, can also be located at all air flow drive device groups Rear side.It can be seen that the designs such as shape, position of the air conditioner indoor unit exchange thermal of the present invention all have it is larger flexible Property, to be conducive to being designed and arranged for air conditioner indoor unit other structures.

Further, air conditioner indoor unit of the invention further includes being in parallel setting at least one air flow drive device group At least one second ion wind generation apparatus or at least one second axial flow blower can not only increase additionally as a result, no Further increase the air output of air conditioner indoor unit under the premise of noise, but also can to avoid regional area wind speed excessive, office The too small problem of portion region wind speed, to expand the blowing range of air conditioner indoor unit, and the air-flow for making air conditioner indoor unit send out It is more balanced.

Further, since the heat-exchanger rig of the air conditioner indoor unit of the present invention is only arranged at where air flow drive device group In air duct, therefore, through air flow drive device group drive air-flow all formed by the heat exchange of heat-exchanger rig temperature it is higher or Lower heat exchange air-flow, the second ion wind generation apparatus or the second axial flow blower through being arranged in parallel with air flow drive device group drive Dynamic air-flow forms natural airflow without the heat exchange of heat-exchanger rig.Air-flow and natural airflow exchange heat at air outlet or outlet air The milder mixing wind of ratio for mouthful nearby mixing and being formed moderate temperature, to avoid cold wind or hot wind from directly blowing to human body, The comfort level for improving air conditioner indoor unit makes the usage experience of user more preferably.

According to the following detailed description of specific embodiments of the present invention in conjunction with the accompanying drawings, those skilled in the art will be brighter The above and other objects, advantages and features of the present invention.

Description of the drawings

Some specific embodiments that the invention will be described in detail by way of example and not limitation with reference to the accompanying drawings hereinafter. Identical reference numeral denotes same or similar component or part in attached drawing.It should be appreciated by those skilled in the art that these What attached drawing was not necessarily drawn to scale.In attached drawing：

Fig. 1 is the schematic elevational view of air conditioner indoor unit according to an embodiment of the invention；

Fig. 2 is the schematic structure exploded view of air conditioner indoor unit according to an embodiment of the invention；

Fig. 3 is the schematic cross sectional views of air conditioner indoor unit according to an embodiment of the invention；

Fig. 4 is the schematic structure sectional view of air conditioner indoor unit in accordance with another embodiment of the present invention；

Fig. 5 is the schematic cross sectional views according to the air conditioner indoor unit of third embodiment of the invention；

Fig. 6 is the schematic cross sectional views according to the air conditioner indoor unit of four embodiment of the invention；

Fig. 7 is the schematic cross sectional views according to the air conditioner indoor unit of fifth embodiment of the invention；

Fig. 8 is the schematic cross sectional views according to the air conditioner indoor unit of sixth embodiment of the invention；

Fig. 9 is the schematic structure point of an electric discharge module of ion wind generation apparatus according to an embodiment of the invention Xie Tu；

Figure 10 is the schematic cross sectional views of electric discharge module according to an embodiment of the invention；

Figure 11 is that the one of which dislocation arrangement of two neighboring electric discharge module according to an embodiment of the invention shows It is intended to；

Figure 12 is that another dislocation arrangement of two neighboring electric discharge module in accordance with another embodiment of the present invention shows It is intended to.

Specific implementation mode

The embodiment of the present invention provides a kind of air conditioner indoor unit, and Fig. 1 is air conditioner indoor unit according to an embodiment of the invention Schematic elevational view, Fig. 2 is the schematic structure exploded view of air conditioner indoor unit according to an embodiment of the invention, and Fig. 3 is The schematic structure sectional view of air conditioner indoor unit according to an embodiment of the invention, Fig. 4 are according to another implementation of the present invention The schematic structure sectional view of the air conditioner indoor unit of example.Referring to Fig. 1 to Fig. 4, the air conditioner indoor unit 1 of the embodiment of the present invention includes machine Shell 10, heat-exchanger rig 20 and at least one air flow drive device group 30.In the embodiment as shown in fig.4, air conditioner indoor unit 1 Including two air flow drive device groups 30, in embodiment as shown in Figure 2 to Figure 3, air conditioner indoor unit 1 includes that three air-flows drive Dynamic device group 30.In other examples, air conditioner indoor unit 1 may also include an air flow drive device group 30 or more than three More air flow drive device groups 30, the present invention no longer one by one with description of the drawings.

Casing 10 has for entering its internal at least one air inlet 11 for surrounding air and for for inside it Air-flow outflow at least one air outlet 12, which is located at the front side of casing 10.Specifically, casing 10 It may include rear shell 18 and front panel 19.Air outlet 12 is formed on front panel 19, and shape can be rectangular, round or other Suitable shape.Air inlet 11 is formed in the roof or rear wall of rear shell 18.At least one air inlet 11 can be entirely located in casing 10 rear side；Or a part of air inlet 11 is located at the rear side of casing 10, another part air inlet 11 is located at the top of casing 10 Portion.In embodiment shown in Fig. 3, the quantity of air inlet 11 is one, which is located at the rear side of casing 10, and edge Casing 10 is laterally extended, so that the air inlet 11 can be opposite with above-mentioned at least one air outlet 12.In other implementations In mode, the quantity of air inlet 11 can be two, three or it is more than three more.The quantity of air inlet 11 can be with gas Flow driving device group 30 quantity is identical or the quantity of air inlet 11 is more than the quantity of air flow drive device group 30.Similarly, exist In some embodiments, the quantity of air outlet 12 can be one, being laterally extended along casing 10 of air outlet 12.Fig. 2 extremely In embodiment shown in Fig. 4, the quantity of air outlet 12 is identical as the quantity of air flow drive device group 30.Each air stream drives dress It sets 30 and corresponds to an air outlet 12.

In some embodiments, air inlet grid 14 can be equipped at air inlet 11.It can be equipped with and be used at each air outlet 12 Grid 13 is streamed in guiding air-flow flowing, meets the needs of different air-out directions with the air-flow for controllably sending out air outlet 12.

Heat-exchanger rig 20 is set in casing 10, and is configured to enter in casing 10 with via at least one air inlet 11 At least partly air-flow carries out heat exchange.Specifically, heat-exchanger rig 20 can carry out heat exchange with its air-flow is flowed through, and be somebody's turn to do with changing The temperature of air-flow, so that it becomes temperature is higher or the lower heat exchange air-flow of temperature.

Above-mentioned at least one air flow drive device group 30 is used to controllably promote at least partly air-flow direction in casing 10 Above-mentioned at least one air outlet 12 flows.The quantity of air flow drive device group 30 can be identical as the quantity of air outlet 12, each Air flow drive device group 30 corresponds to an air outlet 12.Each air flow drive device group 30 includes at least one first axle stream Wind turbine 31 and at least one first ion wind generation apparatus 32 (that is to say that each axial flow blower 31 and each first ion wind occur Device 32 is all an air flow drive device), at least one first axial flow blower 31 and at least one first ion wind occur Device 32 is set in casing 10 from above-mentioned at least one air inlet 11 to the gas of above-mentioned at least one air outlet 12 with being in series It flows on flow path.It should be noted that " being in series " of the present invention means at least one first axial flow blower 31 and at least one A first ion wind generation apparatus 32 is arranged in order in the air current flow direction in casing 10 with random order.That is, Any one air flow drive device at least one first axial flow blower 31 and at least one first ion wind generation apparatus 32 is sent The air-flow gone out can all pass through other air flow drive devices.

Further, at least one first axial flow blower 31 and at least one first ion wind generation apparatus 32 are in series Can be also equipped on path allow air-flow by other devices, such as purifier 70.Purifier 70 is configured to absorption and flows through Impurity in its air-flow, inside can be can be used for coating powders shape catalyst, above-mentioned catalyst decompose air in having Evil gas, such as include the metal oxide etc. for decomposing nitrogen oxide.

In each air flow drive device group 30, at least one first axial flow blower 31 and at least one first ion wind hair The mode that generating apparatus 32 is in series can there are many.After for example, at least first axial flow blower 31 is in series, then at least one A first ion wind generation apparatus 32 is connected.For example, at least first axial flow blower 31 and at least one first ion wind hair again Generating apparatus 32 is respectively connected, i.e. the first axial flow blower 31 and the first ion wind generation apparatus 32 replace in air current flow direction Arrangement.In each air flow drive device group 30, the quantity of the first axial flow blower 31 can be one or more, the first ion wind The quantity of generating means 32 may be one or more." multiple " mentioned in the embodiment of the present invention include two, three It is a and it is more than three more.

When the quantity of air flow drive device group 30 is multiple, as shown in Figures 2 to 4, multiple air flow drive device groups 30 It is set to being in parallel in casing 10 and is flowed from above-mentioned at least one air inlet 11 to the air-flow of above-mentioned at least one air outlet 12 On path, to expand the blowing range and air output of air conditioner indoor unit 1.In other embodiments, multiple air stream drives dresses Setting group 30 can also be arranged in series.

In embodiments of the present invention, the first being rotated by motor of axial flow blower 31, to which certain driving air-flow flows, the One ion wind generation apparatus 32 can flow (the ion general mood of ion wind generation apparatus generation flowing by electric field force certain driving air-flow The principle of stream is those skilled in the art than more conventional and be easy to get, therefore which is not described herein again), the first axial flow blower 31 After 32 arranged in series of the first ion wind generation apparatus, air-flow can repeatedly be accelerated, realize the superposition of wind speed, to obtain Obtain higher wind speed and larger air quantity.Meanwhile first ion wind generation apparatus 32 so that the particle in air is obtained by electric field force Kinetic energy is obtained, to form ion wind.For air-supply assembly (such as wind turbine) compared to rotation class, the first ion wind generation apparatus 32 have the advantages such as crushing is small, energy consumption is low, noise is small.The present invention is by filling the first axial flow blower 31 and the first ion wind It sets 32 to be arranged in series, has not only expanded the air output of air conditioner indoor unit 1, improved its air supply velocity, but also do not increase additional make an uproar Sound, for the air conditioner indoor unit all using rotation class air-supply assembly, making an uproar when air conditioner indoor unit 1 of the invention is run Sound substantially reduces.

In some embodiments of the invention, referring to Fig. 2 and Fig. 3, heat-exchanger rig 20 includes integral type plate evaporator, It is the platy structure that heat-exchanger rig 20 is integral type.Each air flow drive device group 30 is respectively positioned on the front side of heat-exchanger rig 20, Or each air flow drive device group 30 is respectively positioned on the rear side of heat-exchanger rig 20.That is, each air flow drive device group 30 It is respectively positioned on downwind side of the heat-exchanger rig 20 in the air current flow direction in casing 10, or each air flow drive device group 30 is Positioned at weather side of the heat-exchanger rig 20 in the air current flow direction in casing 10.

In other embodiments of the present invention, referring to Fig. 4, heat-exchanger rig 20 includes segmented plate evaporator, namely It is the platy structure that heat-exchanger rig 20 is segmented, it includes have multi-stage evaporation device 21.The hop count and air stream drives of evaporator 21 The number of device group 30 is identical.Each air flow drive device group 30 is respectively positioned on the front side of corresponding one section of evaporator 21, or every A air flow drive device group 30 is respectively positioned on the rear side of corresponding one section of evaporator 21.Air conditioner indoor unit shown in Fig. 4 has two A air flow drive device group 30, correspondingly, heat-exchanger rig 20 include two-stage evaporation device 21.In some alternative implementations of the present invention In mode, the number of air flow drive device group 30 and the hop count of evaporator 21 can also be three, four or more more than four It is multiple.

Fig. 5 is according to the schematic cross sectional views of the air conditioner indoor unit of third embodiment of the invention, in some of the present invention In embodiment, referring to Fig. 5, air conditioner indoor unit 1 further includes for controllably promoting the fraction in casing 10 towards at least one Corresponding one or more flowing in a air outlet 12 at least one second ion wind generation apparatus 40 (it is understood that Second ion wind generation apparatus 40 is also a kind of air flow drive device).In the embodiment shown in fig. 5, the second ion wind occurs The quantity of device 40 is three, and in some alternate embodiments, the quantity of the second ion wind generation apparatus 40 can also be one It is a, two or it is more than three more.Above-mentioned at least one second ion wind generation apparatus 40 and above-mentioned at least one air-flow Driving device group 30 is set in casing 10 from above-mentioned at least one air inlet 11 to above-mentioned at least one air outlet with being in parallel On 12 air-flow flow path.At this point, the quantity of air outlet 12 be preferably with the quantity of air flow drive device group 30 and second from The sum of the quantity of sub- wind generation apparatus 40 is identical." being in parallel " of the present invention means that above-mentioned at least one second ion wind fills 40 are set with above-mentioned at least one air flow drive device group 30 along the lateral with arbitrary of the air current flow direction in casing 10 Sequence is arranged in order.That is, above-mentioned at least one second ion wind generation apparatus 40 and above-mentioned at least one air stream drives The air-flow that any one air flow drive device in device group 30 is sent out is all without going past other air flow drive devices.As a result, may be used To avoid the problem that regional area wind speed is excessive at air outlet, regional area wind speed is too small, to expand air conditioner indoor unit 1 Blowing range, and the air-flow for making air conditioner indoor unit 1 send out is more balanced.

Further, above-mentioned at least one second ion wind generation apparatus 40 and above-mentioned at least one air flow drive device group 30 modes being in parallel have more.For example, after at least one second ion wind generation apparatus 40 is transversely arranged in order, it is at least one Air flow drive device group 30 is transversely arranged in order again.In some preferred embodiments, referring to Fig. 5, at least one air-flow Driving device group 30 is transversely alternately arranged at least one second ion wind generation apparatus 40, and adjacent air flow drive device Group 30 and second is equipped with air-duct clapboard 50 between ion wind generation apparatus 40, so that each air flow drive device group 30 and each the Between air duct residing for two ion wind generation apparatus 40 independently of each other.The air-flow that can avoid as a result, between different air ducts generates phase Mutually interference improves the air supply velocity of air conditioner indoor unit 1 to avoid the appearance of turbulent flow, mixed flow phenomenon.

In some embodiments of the invention, when heat-exchanger rig 20 includes integral type plate evaporator, above-mentioned at least one A air flow drive device group 30 is respectively positioned on the front side (ginseng of heat-exchanger rig 20 with above-mentioned at least one second ion wind generation apparatus 40 See Fig. 5) or it is respectively positioned on the rear side of heat-exchanger rig 20, so that by above-mentioned at least one air flow drive device group 30 and above-mentioned at least one The air-flow that a second ion wind generation apparatus 40 drives flows at least one air outlet 12 after the heat exchange of heat-exchanger rig 20. It is that the air-flow driven by all air flow drive device groups 30 and the second all ion wind generation apparatus 40 is exchanging air Stream.During the air conditioner indoor unit 1 of the embodiment is more applicable for fast-refrigerating or the environment that quickly heats as a result,.

In other embodiments of the present invention, the quantity of air flow drive device group 30 is one, and heat-exchanger rig 20 includes It is set to the integral type plate evaporator of 30 front side of air flow drive device group or rear side；Alternatively, referring to Fig. 6, air flow drive device The quantity of group 30 is multiple, and heat-exchanger rig 20 includes segmented plate evaporator, the hop count and air flow drive device of evaporator 21 The number of group 30 is identical, and multi-stage evaporation device 21 is respectively arranged in the air duct at 30 place of multiple air flow drive device groups.Namely It says, the evaporator of heat-exchanger rig 20 is only arranged in the air duct at 30 place of air flow drive device group, so that by each gas The air-flow of 30 driving of stream driving device group flows to after the heat exchange of corresponding evaporator 21 corresponding at least one air outlet 12 An air outlet, the air-flow that is driven by each second ion wind generation apparatus 40 flow directly into phase at least one air outlet 12 The air outlet answered.In other words, the air-flow driven by air flow drive device group 30 is all by the heat exchange of heat-exchanger rig 20 And the higher or lower heat exchange air-flow of temperature is formed, it is filled by the second ion wind being arranged in parallel with air flow drive device group 30 The air-flow for setting 40 drivings forms natural airflow without the heat exchange of heat-exchanger rig 20.Heat exchange air-flow is with natural airflow in air outlet At 12 or air outlet 12 nearby mixes and is formed the milder mixing wind of ratio of moderate temperature, to avoid cold wind or hot wind straight It connects and blows to human body, improve the comfort level of air conditioner indoor unit 1, make the usage experience of user more preferably.

Further, every section of evaporator 21 of heat-exchanger rig 20 is respectively positioned on the front side or equal of corresponding air flow driving device group 30 Positioned at the rear side of corresponding air flow driving device group 30 (referring to Fig. 6).

Fig. 7 is according to the schematic cross sectional views of the air conditioner indoor unit of fifth embodiment of the invention, in the another of the present invention In a little embodiments, air conditioner indoor unit 1 further includes for controllably promoting the fraction in casing 10 towards at least one outlet air At least one second axial flow blowers 60 of corresponding one or more flowings are (it is understood that the second axial flow blower in mouth 12 60 be also a kind of air flow drive device).In the embodiment shown in fig. 7, the quantity of the second axial flow blower 60 is three；In others In embodiment, the quantity of the second axial flow blower 60 can also be one, two, three or it is more than three more.It is above-mentioned extremely Few second axial flow blower 60 is set in casing 10 with above-mentioned at least one air flow drive device group 30 from upper with being in parallel It states at least one air inlet 11 to the air-flow flow path of above-mentioned at least one air outlet 12.At this point, the quantity of air outlet 12 It is preferably identical as the sum of the quantity of air flow drive device group 30 and the quantity of the second axial flow blower 60.Thus, it is possible to avoid out The problem that regional area wind speed is excessive at air port, regional area wind speed is too small, to expand the air-supply model of air conditioner indoor unit 1 It encloses, and the air-flow for making air conditioner indoor unit 1 send out is more balanced." being in parallel " herein and " being in parallel " meaning class said before Seemingly, therefore which is not described herein again.

Further, above-mentioned at least one second axial flow blower 60 with above-mentioned at least one 30 phase of air flow drive device group simultaneously The mode of connection has more.For example, after at least one second axial flow blower 60 is transversely arranged in order, at least one air flow drive device Group 30 is transversely arranged in order again.In some preferred embodiments, referring to Fig. 7, at least one air flow drive device group 30 It is transversely alternately arranged at least one second axial flow blower 60, and adjacent air flow drive device group 30 and the second axial flow blower Air-duct clapboard 50 is equipped between 60 so that the air duct residing for each air flow drive device group 30 and each second axial flow blower 60 it Between independently of each other.The air-flow generation that can avoid as a result, between different air ducts interferes with each other, turbulent, mixed flow phenomenon to avoid Occur, improves the air supply velocity of air conditioner indoor unit 1.

In some embodiments of the invention, referring to Fig. 7, when heat-exchanger rig 20 includes integral type plate evaporator, on It states at least one air flow drive device group 30 and is respectively positioned on the front side of heat-exchanger rig 20 with above-mentioned at least one second axial flow blower 60 Or it is respectively positioned on the rear side of heat-exchanger rig 20, so that by above-mentioned at least one air flow drive device group 30 and above-mentioned at least one second The air-flow that axial flow blower 60 drives flows at least one air outlet 12 after the heat exchange of heat-exchanger rig 20.It that is to say, by owning Air flow drive device group 30 and the second all axial flow blowers 60 driving the air-flow for being sent to air outlet 12 be heat exchange air-flow. During the air conditioner indoor unit 1 of the embodiment is more applicable for fast-refrigerating or the environment that quickly heats as a result,.

In other embodiments of the present invention, the quantity of air flow drive device group 30 is one, and heat-exchanger rig 20 includes It is set to the integral type plate evaporator of 30 front side of air flow drive device group or rear side；Or referring to Fig. 8, air flow drive device group 30 quantity is multiple, and heat-exchanger rig 20 includes segmented plate evaporator, hop count and the air flow drive device group of evaporator 21 30 number is identical, and multi-stage evaporation device 21 is respectively arranged in the air duct at 30 place of multiple air flow drive device groups.That is, The evaporator of heat-exchanger rig 20 is only arranged in the air duct at 30 place of air flow drive device group, so that being driven by each air-flow The air-flow of dynamic 30 driving of device group flows to after the heat exchange of corresponding evaporator 21 corresponding one at least one air outlet 12 A air outlet, the air-flow driven by each second axial flow blower 60 flow directly at least one air outlet 12 corresponding one and go out Air port.In other words, the air-flow driven by air flow drive device group 30 all forms temperature by the heat exchange of heat-exchanger rig 20 Higher or lower heat exchange air-flow, the air-flow driven by the second axial flow blower 60 being arranged in parallel with air flow drive device group 30 is not Natural airflow is formed by the heat exchange of heat-exchanger rig 20.Exchange heat air-flow with natural airflow at air outlet 12 or air outlet 12 is attached Close mix and the milder mixing wind of the ratio for forming moderate temperature improves to avoid cold wind or hot wind from directly blowing to human body The comfort level of air conditioner indoor unit 1, makes the usage experience of user more preferably.

Further, every section of evaporator 21 of heat-exchanger rig 20 is respectively positioned on the front side or equal of corresponding air flow driving device group 30 Positioned at the rear side of corresponding air flow driving device group 30 (referring to Fig. 6).

It can be seen that the air conditioner indoor unit 1 of the present invention exchange thermal 20 the designs such as shape, position all have it is larger Flexibility, to be conducive to 1 other structures of air conditioner indoor unit (such as air flow drive device group, first ion wind generation apparatus etc.) It is designed and arranged.

In some embodiments of the invention, in each air flow drive device group 30, the first axial flow blower 31 and first from The quantity of sub- wind generation apparatus 32 is one.First axial flow blower 31 is set to the rear side of the first ion wind generation apparatus 32, Or first axial flow blower 31 be set to the front side of the first ion wind generation apparatus 32.It that is to say, each air flow drive device group 30 In the first axial flow blower 31 and the first ion wind generation apparatus 32 be arranged in order along the longitudinal direction with random order, improve cloth Set flexibility.

In some embodiments of the invention, in each air flow drive device group 30, above-mentioned at least one first axle stream wind Machine 31 and at least one first ion wind generation apparatus 32 are configured to controllably select startup operation or start operation simultaneously, so that Air conditioner indoor unit 1 works in only by quickly cooling/speed heat pattern of the first axial flow blower 31 driving air-supply or only by the first ion The silent mode of the driving air-supply of wind generation apparatus 32 or by the first axial flow blower 31 and the first ion wind generation apparatus 32 simultaneously Drive the Wind Volume pattern of air-supply.That is, the present invention passes through to the first axle stream wind in each air flow drive device group 30 The start and stop of machine 31 and the first ion wind generation apparatus 32 are controlled, may make air conditioner indoor unit 1 at least have quickly cooling/speed heat, Mute and three kinds of operating modes of Wind Volume make to meet different user or same user in varied situations a variety of simultaneously With demand, the usage experience of user is improved.

Specifically, under quickly cooling/speed heat pattern, the first ion wind generation apparatus 32 does not start operation, and air conditioner indoor unit 1 is only It is driven and is blown to above-mentioned at least one air outlet 12 by the first axial flow blower 31, driven air-flow flows through the first ion wind hair Air duct in generating apparatus 32, the first ion wind generation apparatus 32 do not generate air-flow any driving effect.Due to first axle stream The air output of wind turbine 31 is relatively large, refrigerating efficiency or heating efficiency are relatively high, therefore can rapidly alleviate indoor temperature Degree.Such pattern is suitable for the situation or the rapid feelings freezed or heat of other needs that air conditioner indoor unit 1 just starts startup operation Shape.Under the silent mode, the first axial flow blower 31 does not start operation, and air conditioner indoor unit 1 only passes through the first ion wind generation apparatus 32 drive air-supply, driven air-flow to flow through the first axial flow blower 31, the first axial flow blower to above-mentioned at least one air outlet 12 31 do not generate air-flow any driving effect.Operating noise when being run due to the first ion wind generation apparatus 32 of the present invention Close to even lower than indoor background noise, therefore overall noise when air conditioner indoor unit 1 is run is greatly reduced, solves The industry problems of ultralow mute air-supply.Such pattern is suitable for use environments and the air conditioner indoor unit such as medical treatment, child custody 1 operation situation later for a period of time.Under Wind Volume pattern, the first axial flow blower 31 and the first ion wind generation apparatus 32 can Controllably start operation simultaneously, to blow simultaneously to above-mentioned at least one air outlet 12, that is to say air-flow through the first axial flow blower 31 and first ion wind generation apparatus 32 multiple driving effect after send out.Therefore, such pattern is suitable for air quantity and wind speed Situation, more fast-refrigerating or the situation and other situations having higher requirements to wind speed that quickly heat having higher requirements.

Further, when the quantity of air flow drive device group 30 is multiple, the in multiple air flow drive device groups 30 One axial flow blower 31 controllably starts or stops simultaneously, the first ion wind generation apparatus 32 in multiple air flow drive device groups 30 Controllably start or stop simultaneously.

Fig. 9 is the schematic knot of an electric discharge module of the first ion wind generation apparatus according to an embodiment of the invention Structure exploded view.In some embodiments of the invention, occur referring to Fig. 9, the first ion wind generation apparatus 32 and the second ion wind Device 40 includes at least one electric discharge module 410.Each electric discharge module 410 all has in metal mesh 411 and is located at metal mesh 411 rear sides and the multiple spray points 412 being arranged in array.Metal mesh 411 extends in plane in the front-back direction.Metal The through-hole of round hole, square hole, diamond hole or other shapes is evenly distributed on net 411.Spray point 412 has discharge tip, The discharge tip can be directly to the center of a certain through-hole of metal mesh 411.Apply respectively on spray point 412 and metal mesh 411 positive and negative High-field electrode, spray point 412 are equivalent to the radiation pole for generating corona discharge, and metal mesh 411 is equivalent to receiving pole.

That is, each the flow direction of ion wind caused by electric discharge module 410 is multiple spray points from back to front 412 is identical as flowing to for the arragement direction of metal mesh 411 and ion wind.

Figure 10 is the schematic cross sectional views of electric discharge module according to an embodiment of the invention.Referring to Figure 10, in order to improve The air supply velocity of ion wind generation apparatus, designer of the invention have carried out a large amount of measuring wind speed experiment, and experimental result is found, It is arranged to the needle point of each spray point 412 and 411 distance L of metal mesh that it to be made to meet L=aL₁(wherein, a is range 0.7 Either constant between~1.3, i.e. a can value be 0.7,0.8,0.9,1.0,1.1,1.2 or 1.3, L₁To make metal mesh 411 The ion wind wind speed of wind speed center reach maximum wind velocity V_maxWhen spray point 412 needle point and metal mesh 411 between away from Wind speed central point from, metal mesh 411 is subpoint of the needle point of spray point 412 on metal mesh 411) relationship after, a side Ion wind wind speed can preferably meet caused by face, the first ion wind generation apparatus 32 and the second ion wind generation apparatus 40 On the other hand the normal use demand of user also can ensure that spray point 412 generates the region of effective ion wind in metal mesh 411 It is interior to partly overlap to achieve the effect that the projection of shadowless lamp, so that the ion wind distribution of metal mesh 411 is more uniform.

In order to improve the air output of ion wind generation apparatus, designer of the invention has carried out a large amount of needle point projection radius The experiment of measurement, experimental result is found, is arranged to the distance between the needle point of two neighboring spray point 412 R that it to be made to meet R= aR₁(wherein, R₁Reach maximum wind velocity V for wind speed_maxB times of measuring wind speed point and the distance between wind speed central point, b is model The either constant being trapped among between 0.3~0.7, i.e. b can value be 0.3,0.4,0.5,0.6 or 0.7, the value of a is same as described above) Relationship after, ion wind air quantity can be more preferable caused by the first ion wind generation apparatus 32 and the second ion wind generation apparatus 40 Ground meets the normal use demand of user.Meanwhile after being specifically designed to the distance between two neighboring spray point 412, both It can avoid wind speed occurs cancelling out each other because distance is too close between two neighboring spray point 412, and two electric discharges can be avoided The distance between needle 412 is too far and causes air quantity reduction and air volume adjustment uneven.

It can be seen that spatial relation of the present invention by rational design spray point 412 and metal mesh 411, and simultaneously The mutual position relationship of the multiple spray points 412 of rational deployment, may make the first ion wind generation apparatus 32 and the second ion Wind generation apparatus 40 can generate the ion wind of uniform, larger air quantity, to improve 32 He of the first ion wind generation apparatus Air supply velocity, air output and the air supply efficiency of second ion wind generation apparatus 40.

In some embodiments of the invention, each first ion wind generation apparatus 32 includes arranging successively along the longitudinal direction Row and the multiple electric discharge modules 410 connected in parallel or series, each module 410 that discharges all have perpendicular in the front-back direction The metal mesh 411 that extends in plane and positioned at the multiple spray points 412 metal mesh 411 rear side and be arranged in array.It is each as a result, Electric discharge module 410 in spray point 412 and corresponding metal mesh 411 between will generate corona discharge phenomenon, to may make from Sub- wind is repeatedly accelerated by multiple electric discharge modules 410, and the superposition of wind speed may be implemented, with obtain it is higher go out wind velocity. And negative pressure can be formed under high speed outlet air effect, further increases intake, improve sending for multipole ion air supply module Wind velocity, air output and air supply efficiency.

In certain embodiments of the present invention, the spray point 412 of two neighboring electric discharge module 410 is directly to arrangement, also It is to say, discharge projection of the spray point 412 in the outlet air surface of ion wind generation apparatus of module of each adjacent two overlaps.As a result, Region corresponding to the tip of each spray point 412 will produce larger stronger electric field, therefore the region will produce local wind speed Higher ion wind, which, which blows to the another user of meeting with user, has stronger wind sense.In other words, such arrangement Can be obtained near each wind speed central point of metal mesh 411 part larger wind speed, with promoted air conditioner indoor unit 1 individually by from Wind sense when sub- wind generation apparatus driving air-supply.

In some alternative embodiments of the present invention, the dislocation cloth of spray point 412 of two neighboring electric discharge module 410 It sets.Embodiment illustrated in fig. 11 is one of which dislocation arrangement, and wherein OZ axis indicates that short transverse, OY axis indicate laterally.For It is easy to understand, the structure of two neighboring electric discharge module 410 is respectively shown with solid line and dotted line.The dislocation arrangement is： The spray point 412 of each adjacent two electric discharge module misplace arrangement in the horizontal, and each adjacent two is discharged the corresponding electric discharge of module Projection of the needle 412 in the outlet air surface of ion wind generation apparatus 10 is in same horizontal line (i.e. each adjacent two electric discharge module The dislocation arrangement of spray point 412, but the height residing for corresponding spray point 412 is identical).As a result, in the horizontal direction several More uniform soft wind can be generated in linear region, multiple superpositions for discharging modules can form larger in the linear region again Stronger electric field, therefore the ion wind wind speed in the linear region is relatively high.Further, the spray point of multiple electric discharge modules 412 are formed by every group of three spray points projection adjacent to each other in the horizontal plane is respectively formed isosceles triangle, to ensure ion The ion wind distribution that wind generation apparatus generates is relatively uniform.

Embodiment illustrated in fig. 12 is another dislocation arrangement, and wherein OZ axis indicates that short transverse, OY axis indicate laterally. In order to make it easy to understand, the structure of two neighboring electric discharge module 410 is shown with solid line and dotted line respectively.Another kind dislocation arrangement Mode is：The spray point 412 of each adjacent two electric discharge module in transverse direction and vertical direction arrange by dislocation.Ion as a result, The ion wind that wind generation apparatus generates can be uniformly distributed in its outlet air surface, in low-voltage, existing fringing field intensity, the feelings of low-power The air-supply of soft, uniform Wind Volume is realized under condition.That is, equal per the spray point 412 of two adjacent electric discharge modules 410 Mutual dislocation can fill up the gap between multiple spray points 412 of each electric discharge module 410.It as a result, can be in metal mesh 411 Relatively uniform ion wind is formed in whole region, improves whole air output.Further, the electric discharge of multiple electric discharge modules Needle 412 be formed by the outlet air surface of ion wind generation apparatus every group of three spray points projection adjacent to each other be respectively formed it is equilateral Triangle, to ensure that the ion wind distribution that ion wind generation apparatus generates is more uniform.

In some embodiments of the invention, referring to Fig. 9, each module 410 that discharges further includes shell 416, with multiple It the metal conductive strips 413 of metallic conduction piece 414 and is electrically connected with metal conductive strips 413 and perpendicular to metal conductive strips 413 At least one PCB multilayer board 415.PCB multilayer board 415 has front and back two layers of insulating protective layer and is located at two layers of insulating protective layer Between conductive layer, which is electrically connected with metallic conduction piece 414.Buckle 4161, metal are offered on the bottom wall of shell 416 The metallic conduction piece 414 of conductive bar 413 is fastened in the buckle 4161 of shell 416.

The quantity of PCB multilayer board 415 can be one, generally rectangular；Or the quantity of PCB multilayer board 415 can Think multiple, the perpendicular elongated strip extended in metal conductive strips 413 of each PCB multilayer board 415.

Multiple spray points 412 are evenly distributed in the outside towards metal mesh 411 of at least one PCB multilayer board 415.Tool Body, several pin holes for installing spray point 412 are offered on the outer surface of each PCB multilayer board 415.Pin hole Aperture is slightly smaller than the diameter of spray point 412, so that pin hole is interference fitted with spray point 412.It is inserted into around the pin hole of spray point 412 Equipped with the filled layer filled up by welding procedure, it that is to say that being equipped with around spray point 412 for pin hole passes through welding procedure The filled layer filled up is electrically connected with ensureing that spray point 412 and the conductive layer in PCB multilayer board 415 keep good, while again may be used Strictly conductive layer is avoided to be exposed to outside, to avoid generating the phenomenon that leaving about electricity or sparking.

Correspondingly, each second ion wind generation apparatus 40 may also comprise is arranged in order and in parallel or string along the longitudinal direction Join multiple electric discharge modules of connection, the electric discharge module 410 of the structure of the electric discharge module and above-mentioned first ion wind generation apparatus 32 Structure it is identical, therefore repeat no more.

The preferably wall-mounted air conditioner indoor unit of the air conditioner indoor unit 1 of the present invention, rear side and interval between the walls are certain Distance, in order to air-flow from air inlet 11 flow into casing 10 inside.

It will be understood by those skilled in the art that in case of no particular description, so-called "upper" in the embodiment of the present invention, "lower", "inner", "outside", " cross ", "front", "rear" etc. are for indicating that the term of orientation or positional relationship is with air conditioner indoor unit 1 For on the basis of real use state, these terms are merely for convenience of describing and understanding technical scheme of the present invention, without It is that the device of instruction or hint meaning or component must have a particular orientation, therefore be not considered as limiting the invention.

So far, although those skilled in the art will appreciate that present invention has been shown and described in detail herein multiple shows Example property embodiment still without departing from the spirit and scope of the present invention, still can according to the present disclosure directly Determine or derive many other variations or modifications consistent with the principles of the invention.Therefore, the scope of the present invention is understood that and recognizes It is set to and covers other all these variations or modifications.

Claims (14)

1. a kind of air conditioner indoor unit, which is characterized in that including：

Casing has for entering its internal at least one air inlet for surrounding air and for for its internal air-flow stream At least one air outlet gone out, at least one air outlet are located at the front side of the casing；

Heat-exchanger rig is set in the casing, and is configured to enter in the casing with via at least one air inlet At least partly air-flow carry out heat exchange；And

For controllably promoting at least partly air-flow in the casing towards at least the one of at least one air outlet flowing A air flow drive device group, each air flow drive device group include at least one first axial flow blower and at least one the One ion wind generation apparatus, at least one first axial flow blower are mutually gone here and there at least one first ion wind generation apparatus It is set to connection in the casing on from least one air inlet to the air-flow flow path of at least one air outlet.

2. air conditioner indoor unit according to claim 1, which is characterized in that

The heat-exchanger rig includes integral type plate evaporator；And

Each air flow drive device group is respectively positioned on the front side of the heat-exchanger rig, or each air flow drive device group It is respectively positioned on the rear side of the heat-exchanger rig.

3. air conditioner indoor unit according to claim 1, which is characterized in that

The heat-exchanger rig includes segmented plate evaporator, of the hop count of the evaporator and the air flow drive device group Number is identical；And

Each air flow drive device group is respectively positioned on the front side of corresponding one section of evaporator, or each air-flow drives Dynamic device group is respectively positioned on the rear side of corresponding one section of evaporator.

4. air conditioner indoor unit according to claim 1, which is characterized in that further include for controllably promoting in the casing Fraction towards corresponding one or more flowings at least one air outlet at least one second ion winds hair Generating apparatus, wherein

At least one second ion wind generation apparatus is set to being in parallel at least one air flow drive device group In the casing from least one air inlet to the air-flow flow path of at least one air outlet on.

5. air conditioner indoor unit according to claim 4, which is characterized in that

At least one air flow drive device group is transversely alternately arranged at least one second ion wind generation apparatus, And air-duct clapboard is equipped between the adjacent air flow drive device group and the second ion wind generation apparatus, so that each institute It states between the air duct residing for air flow drive device group and each second ion wind generation apparatus independently of each other.

6. air conditioner indoor unit according to claim 5, which is characterized in that

The heat-exchanger rig includes integral type plate evaporator, and at least one air flow drive device group and described at least one A second ion wind generation apparatus is respectively positioned on the front side of the heat-exchanger rig or is respectively positioned on the rear side of the heat-exchanger rig, so that by At least one air flow drive device group and the air-flow of at least one second ion wind generation apparatus driving pass through institute At least one air outlet is flowed to after stating heat-exchanger rig heat exchange.

7. air conditioner indoor unit according to claim 5, which is characterized in that

The quantity of the air flow drive device group is one, and the heat-exchanger rig includes before being set to the air flow drive device group The integral type plate evaporator of side or rear side；Or the quantity of the air flow drive device group is multiple, the heat-exchanger rig packet Segmented plate evaporator is included, the hop count of the evaporator is identical as the number of air flow drive device group, is steamed described in multistage It sends out in the air duct where device is respectively arranged at multiple air flow drive device groups, so that

By the air-flow of each air flow drive device group driving after the corresponding evaporator heat exchange described in flow direction extremely A corresponding air outlet, the air-flow driven by each second ion wind generation apparatus flow directly into a few air outlet A corresponding air outlet at least one air outlet.

8. air conditioner indoor unit according to claim 1, which is characterized in that further include for controllably promoting in the casing Fraction towards corresponding one or more flowings at least one air outlet at least one second axial flow blowers, Wherein

At least one second axial flow blower is set to the machine with being in parallel at least one air flow drive device group In shell from least one air inlet to the air-flow flow path of at least one air outlet on.

9. air conditioner indoor unit according to claim 8, which is characterized in that

At least one air flow drive device group is transversely alternately arranged at least one second axial flow blower, and adjacent The air flow drive device group and second axial flow blower between be equipped with air-duct clapboard so that each air stream drives dress It sets between the air duct residing for group and each second axial flow blower independently of each other.

10. air conditioner indoor unit according to claim 9, which is characterized in that

The heat-exchanger rig includes integral type plate evaporator, and at least one air flow drive device group and described at least one A second axial flow blower is respectively positioned on the front side of the heat-exchanger rig or is respectively positioned on the rear side of the heat-exchanger rig so that by it is described extremely A few air flow drive device group and the air-flow of at least one second axial flow blower driving are changed by the heat-exchanger rig At least one air outlet is flowed to after heat.

11. air conditioner indoor unit according to claim 9, which is characterized in that

The quantity of the air flow drive device group is one, and the heat-exchanger rig includes before being set to the air flow drive device group The integral type plate evaporator of side or rear side；Or the quantity of the air flow drive device group is multiple, the heat-exchanger rig packet Segmented plate evaporator is included, the hop count of the evaporator is identical as the number of air flow drive device group, is steamed described in multistage It sends out in the air duct where device is respectively arranged at multiple air flow drive device groups, so that

By the air-flow of each air flow drive device group driving after the corresponding evaporator heat exchange described in flow direction extremely A corresponding air outlet in a few air outlet, by the air-flow of each second axial flow blower driving flow directly into it is described extremely A corresponding air outlet in a few air outlet.

12. air conditioner indoor unit according to claim 1, which is characterized in that

In each air flow drive device group, the quantity of first axial flow blower and the first ion wind generation apparatus is equal It is one；And

First axial flow blower is set to rear side or first axial flow blower setting of the first ion wind generation apparatus In the front side of the first ion wind generation apparatus.

13. air conditioner indoor unit according to claim 1, which is characterized in that

In each air flow drive device group, at least one first axial flow blower and at least one first ion wind Generating means is configured to controllably select startup operation or starts operation simultaneously, so that the air conditioner indoor unit works in and only passes through Quickly cooling/speed heat pattern of the first axial flow blower driving air-supply only drives air-supply by the first ion wind generation apparatus Silent mode or drive the Wind Volume of air-supply simultaneously by first axial flow blower and the first ion wind generation apparatus Pattern.

14. air conditioner indoor unit according to claim 1, which is characterized in that

Each first ion wind generation apparatus includes being arranged in order and connecting in parallel or series multiple along the longitudinal direction Discharge module, and each electric discharge module all has in the metal mesh extended in plane in the front-back direction and positioned at described Multiple spray points metal mesh rear side and be arranged in array；And

The spray point of the two neighboring electric discharge module is directly to arrangement of arranging or misplace.