CN106855267A - Vertical air-conditioner indoor unit - Google Patents
Vertical air-conditioner indoor unit Download PDFInfo
- Publication number
- CN106855267A CN106855267A CN201710057071.9A CN201710057071A CN106855267A CN 106855267 A CN106855267 A CN 106855267A CN 201710057071 A CN201710057071 A CN 201710057071A CN 106855267 A CN106855267 A CN 106855267A
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- Prior art keywords
- air
- axial flow
- generation apparatus
- ion wind
- wind generation
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- 230000005684 electric field Effects 0.000 claims abstract description 9
- 239000007921 spray Substances 0.000 claims description 41
- 238000001816 cooling Methods 0.000 claims description 7
- 238000005457 optimization Methods 0.000 claims description 7
- 230000001737 promoting effect Effects 0.000 claims description 6
- 150000002500 ions Chemical class 0.000 description 138
- 239000010410 layer Substances 0.000 description 8
- 239000002184 metal Substances 0.000 description 6
- 238000000034 method Methods 0.000 description 6
- 238000007664 blowing Methods 0.000 description 5
- 230000000694 effects Effects 0.000 description 5
- 239000007789 gas Substances 0.000 description 5
- 238000010438 heat treatment Methods 0.000 description 4
- MWUXSHHQAYIFBG-UHFFFAOYSA-N Nitric oxide Chemical compound O=[N] MWUXSHHQAYIFBG-UHFFFAOYSA-N 0.000 description 3
- 238000013461 design Methods 0.000 description 3
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- 239000002245 particle Substances 0.000 description 2
- 239000011241 protective layer Substances 0.000 description 2
- 238000003466 welding Methods 0.000 description 2
- 238000004378 air conditioning Methods 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 239000011248 coating agent Substances 0.000 description 1
- 238000000576 coating method Methods 0.000 description 1
- 229910003460 diamond Inorganic materials 0.000 description 1
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- 230000005611 electricity Effects 0.000 description 1
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- 238000005259 measurement Methods 0.000 description 1
- 229910044991 metal oxide Inorganic materials 0.000 description 1
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F1/00—Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
- F24F1/0007—Indoor units, e.g. fan coil units
- F24F1/0018—Indoor units, e.g. fan coil units characterised by fans
- F24F1/0029—Axial fans
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/02—Ducting arrangements
- F24F13/06—Outlets for directing or distributing air into rooms or spaces, e.g. ceiling air diffuser
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/24—Means for preventing or suppressing noise
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01T—SPARK GAPS; OVERVOLTAGE ARRESTERS USING SPARK GAPS; SPARKING PLUGS; CORONA DEVICES; GENERATING IONS TO BE INTRODUCED INTO NON-ENCLOSED GASES
- H01T23/00—Apparatus for generating ions to be introduced into non-enclosed gases, e.g. into the atmosphere
Abstract
The present invention relates to vertical air-conditioner indoor unit, it includes:Casing, with least one air inlet and at least one air outlet, at least one air inlet is located at the rear side of casing, and at least one air outlet is located at the front side of casing;Heat-exchanger rig, is arranged in casing, and is configured to carry out heat exchange at least part of air-flow in casing with via at least one air inlet;At least two first axial flow blowers, are configured to controllably promote at least part of air-flow in casing towards at least part of air outlet flowing at least one air outlet, and at least two first axial flow blower is arranged in order along the short transverse of casing;And at least one first ion wind generation apparatus, it is configured to controllably promote at least part of air-flow in casing to be flowed towards the part air outlet at least one air outlet using electric field force.Vertical air-conditioner indoor unit of the invention can either realize the air-supply of Wind Volume, and noise during its operation can be greatly reduced again.
Description
Technical field
The present invention relates to air-conditioning technique, more particularly to a kind of vertical air-conditioner indoor unit.
Background technology
At present, air current flow is driven as power source using centrifugal fan more than traditional vertical air-conditioner indoor unit.Centrifugation
Fan and heat-exchanger rig are arranged in the casing of indoor set along the vertical direction, and air inlet is arranged at the bottom of casing, and with centrifugation
Fan is relative, and air outlet is arranged at the forward upper of casing, and relative with heat-exchanger rig.Air-flow enters machine through the air inlet of bottom
In shell, and flow through successively centrifugal fan air channel and heat-exchanger rig after from the air outlet on top send out.As can be seen here, air-flow by
The distance that air inlet to air outlet is flowed through is more long, and air loss is more serious, and energy ezpenditure is larger, and the fan-out capability of fan subtracts
It is weak so that the operational efficiency of whole machine is greatly reduced.
In order to avoid using centrifugal fan drive air-flow tape loop come a series of problems, it is of the prior art that some are vertical
Centrifugal fan is substituted for axial-flow fan or aerofoil fan by indoor apparatus of air conditioner, and air inlet is arranged at the rear side of casing, will be gone out
Air port is arranged at the front side of casing.Although this indoor apparatus of air conditioner can solve to a certain extent air-flow crushing it is larger, power consumption
The relatively low problem of larger, operational efficiency, but it is unable to the problem of balanced draft amount and noise.That is, in order to increase interior
The air output of machine, prior art generally sets multiple aerofoil fans, but can produce larger noise during multiple aerofoil fan operations.
In order to avoid noise is excessive, the quantity of aerofoil fan must be limited within the scope of certain, and this can cause air quantity smaller again, with
Cause in the normal demand that can not meet some users.As noise is big, the small this user of air quantity can be experienced by direct feel
Defect had a strong impact on the overall performance of indoor apparatus of air conditioner, and greatly limit the use model of vertical air-conditioner indoor unit
Enclose.
The content of the invention
One object of the present invention is intended to overcome at least one defect of the prior art, there is provided a kind of air quantity is larger and makes an uproar
The less vertical air-conditioner indoor unit of sound.
Another object of the present invention is the blowing range for expanding vertical air-conditioner indoor unit, improves indoor apparatus of air conditioner air-supply
It is harmonious.
A further object of the present invention is to improve the mildness and comfort level of vertical air-conditioner indoor unit air-supply.
To achieve these goals, the present invention provides a kind of vertical air-conditioner indoor unit, including:
Casing, with for entering its at least one internal air inlet and for for its internal gas for surrounding air
At least one air outlet of outflow, at least one air inlet is located at the rear side of the casing, at least one air-out
Mouth is located at the front side of the casing;
Heat-exchanger rig, is arranged in the casing, and is configured to enter the machine with via at least one air inlet
At least part of air-flow in shell carries out heat exchange;
At least two first axial flow blowers, are configured to controllably promote at least part of air-flow direction in the casing described
In at least one air outlet at least part of air outlet flowing, described at least two first axial flow blowers along the casing height
Direction is arranged in order;And
At least one first ion wind generation apparatus, are configured to controllably promote in the casing at least using electric field force
Fraction flows towards the part air outlet at least one air outlet.
Alternatively, described at least two first axial flow blowers and at least one ion wind generation apparatus set with being in parallel
It is placed in the casing on from least one air inlet to the air current flow path of at least one air outlet.
Alternatively, described at least two first axial flow blowers and at least one ion wind generation apparatus are along the casing
Short transverse be alternately arranged.
Alternatively, be provided between adjacent first axial flow blower and the first ion wind generation apparatus air channel every
Plate, so that between each described first axial flow blower and the air channel residing for each described first ion wind generation apparatus mutually solely
It is vertical;And
It is additionally provided with for promoting the fraction court in the casing in air channel where each described first axial flow blower
To one at least one air outlet the second ion wind generation apparatus of flowing, the second ion wind generation apparatus with
First axial flow blower is arranged in the casing from least one air inlet at least one air-out with being in series
On the air current flow path of mouth.
Alternatively, be provided between adjacent first axial flow blower and the first ion wind generation apparatus air channel every
Plate, so that between each described first axial flow blower and the air channel residing for each described first ion wind generation apparatus mutually solely
It is vertical;And
It is additionally provided with for promoting the part in the casing in air channel where each described first ion wind generation apparatus
Air-flow towards one at least one air outlet the second axial flow blower of flowing, second axial flow blower with this first
Ion wind generation apparatus are arranged in the casing from least one air inlet at least one air-out with being in series
On the air current flow path of mouth.
Alternatively, the quantity of the air outlet and first axial flow blower and the number of the first ion wind generation apparatus
Amount sum is identical, and each described first axial flow blower and each described first ion wind generation apparatus are in the longitudinal direction with one
The individual corresponding air outlet is relative.
Alternatively, the vertical air-conditioner indoor unit also includes:
For controlling described at least two first axial flow blowers that operation is activated individually, controlling described at least one first ions
Wind generation apparatus are activated individually operation or control described at least two first axial flow blowers and at least one first ion wind
Generating means simultaneously startup optimization control device so that the vertical air-conditioner indoor unit work in only pass through described at least two
First axial flow blower is driven the quickly cooling/speed heat pattern of air-supply or is only driven by described at least one first ion wind generation apparatus
The silent mode of air-supply or by described at least two first axial flow blowers and at least one first ion wind generation apparatus
The Wind Volume pattern of air-supply is driven simultaneously.
Alternatively, the heat-exchanger rig include integral type tabular evaporator, and at least two first axial flow blower with
Described at least one first ion wind generation apparatus are respectively positioned on the front side of the heat-exchanger rig, so that by described at least two first
The air-flow that axial flow blower and at least one first ion wind generation apparatus drive flows by after heat-exchanger rig heat exchange
To at least one air outlet.
Alternatively, the heat-exchanger rig includes segmented tabular evaporator, the hop count of the evaporator and the first axle
The number of flow fan is identical, and every section of evaporator may be contained within corresponding one rear side of first axial flow blower, so that
The air-flow driven by the first axial flow blower each described is described by flow direction after the corresponding evaporator heat exchange
A corresponding air outlet, the air-flow driven by the first ion wind generation apparatus each described directly flow at least one air outlet
To a corresponding air outlet at least one air outlet.
Alternatively, first axial flow blower is identical with the quantity of the first ion wind generation apparatus, and described in each
First ion wind generation apparatus be connected on corresponding first axial flow blower where air current flow path on.
Alternatively, each described 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 described electric discharge module is respectively provided with the wire netting extended in the plane of fore-and-aft direction
With positioned at wire netting rear side and multiple spray points for being arranged in array;And
The spray point of the two neighboring electric discharge module is straight to arrangement of arranging or misplace.
Vertical air-conditioner indoor unit of the invention is sent out using at least two first axial flow blowers and at least one first ion winds
Generating apparatus drive the air flow direction entered by the air inlet on rear side of casing to be located at the air outlet on front side of casing, so as to realize standing
Airflow circulating between the inside and outside of formula indoor apparatus of air conditioner.On the one hand, air-flow runs through in vertical air conditioner room from the front to the back
Machine, shortens the distance of air current flow, reduces air loss and energy loss, improves the operational efficiency of whole machine;The opposing party
Face, the first ion wind generation apparatus make the particle in air obtain kinetic energy by electric field force, so as to form ion wind.Compared to rotation
For turning the air-supply assembly (such as blower fan) of class, it is excellent that the first ion wind generation apparatus have that crushing is small, the low, noise that consumes energy is small etc.
Gesture.Compared to all using for the vertical air-conditioner indoor unit for rotating class air-supply assembly, vertical air-conditioner indoor unit of the invention was both
The air-supply of Wind Volume can be realized, noise during its operation can be greatly reduced again.
Further, because at least two first axial flow blowers and at least one first ion wind generation apparatus are in parallel and set
Put, therefore line, the uniform air-out on face can be realized, it is to avoid the problem that regional area wind speed is excessive, regional area wind speed is too small,
So as to expand the blowing range and air output of vertical air-conditioner indoor unit, and make the air-flow that vertical air-conditioner indoor unit is sent out more equal
Weighing apparatus.
Further, vertical air-conditioner indoor unit of the invention also includes be arranged in series with each first axial flow blower second
Ion wind generation apparatus or the second axial flow blower being arranged in series with each first ion wind generation apparatus, thus, can be by string
Join two air flow drive devices for setting repeatedly to accelerate the air-flow on same air current flow path, realize the folded of wind speed
Plus, so as to further improve the air supply velocity and air output of vertical air-conditioner indoor unit.
Further, the rear side of the first axial flow blower can be only arranged at due to heat-exchanger rig of the invention, therefore, through
One axial flow blower drive air-flow the higher or lower heat exchange air-flow of temperature is all formed by the heat exchange of heat-exchanger rig, through with
The air-flow that the first ion wind transmitting apparatus that first axial flow blower is arranged in parallel drive is formed certainly without the heat exchange of heat-exchanger rig
Right air-flow.The ratio that heat exchange air-flow and natural airflow are mixed and form moderate temperature at air outlet or near air outlet is milder
Mixing wind, so as to avoid cold wind or hot blast from directly blowing to human body, improve the comfort level of vertical air-conditioner indoor unit, make user's
Experience is more preferably.
According to the accompanying drawings to the detailed description of the specific embodiment of the invention, those skilled in the art will be brighter
Of the invention above-mentioned and other purposes, advantages and features.
Brief description of the drawings
Describe some specific embodiments of the invention in detail by way of example, and not by way of limitation with reference to the accompanying drawings hereinafter.
Identical reference denotes same or similar part or part in accompanying drawing.It should be appreciated by those skilled in the art that these
What accompanying drawing was not necessarily drawn to scale.In accompanying drawing:
Fig. 1 is the schematic diagram of vertical air-conditioner indoor unit according to an embodiment of the invention;
Fig. 2 is the schematic structure exploded view of vertical air-conditioner indoor unit according to an embodiment of the invention;
Fig. 3 is the schematic cross sectional views of vertical air-conditioner indoor unit according to an embodiment of the invention;
Fig. 4 is the schematic structure exploded view of vertical air-conditioner indoor unit in accordance with another embodiment of the present invention;
Fig. 5 is the schematic structure exploded view of the vertical air-conditioner indoor unit according to another embodiment of the invention;
Fig. 6 is the schematic structure exploded view of the vertical air-conditioner indoor unit according to four embodiment of the invention;
Fig. 7 is a schematic knot for electric discharge module of the first ion wind generation apparatus according to an embodiment of the invention
Structure exploded view;
Fig. 8 is the schematic cross sectional views of electric discharge module according to an embodiment of the invention;
Fig. 9 is that the one of which dislocation arrangement of two neighboring electric discharge module according to an embodiment of the invention is illustrated
Figure;
Figure 10 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 embodiment
The embodiment of the present invention provides a kind of vertical air-conditioner indoor unit, and Fig. 1 is vertical sky according to an embodiment of the invention
The schematic diagram of indoor set is adjusted, Fig. 2 is the schematic structure of vertical air-conditioner indoor unit according to an embodiment of the invention
Exploded view, Fig. 3 is the schematic cross sectional views of vertical air-conditioner indoor unit according to an embodiment of the invention.Referring to Fig. 1 to Fig. 3,
The vertical air-conditioner indoor unit 1 of the embodiment of the present invention includes casing 10, heat-exchanger rig 20, at least two first axial flow blowers 31 and extremely
Few first ion wind generation apparatus 41.In the embodiment shown in Fig. 1 to Fig. 3, the quantity of the first axial flow blower 31 is two
Individual, the quantity of the first ion wind generation apparatus 41 is one.In other examples, the quantity of the first axial flow blower 31 may be used also
Think three or it is more than three more, the quantity of the first ion wind generation apparatus 41 can also be two or more
More.The quantity of the first axial flow blower 31 can be identical with the quantity of the first ion wind generation apparatus 41, it is also possible to different.
Casing 10 has for entering its at least one internal air inlet 11 and for for inside it for surrounding air
Air-flow outflow at least one air outlet 12, at least one air inlet 11 is located at the rear side of casing 10, and this at least one goes out
Air port 12 is located at the front side of casing 10.Specifically, casing 10 may include lid 16, drain pan 17, rear shell 18 and front panel 19.Go out
Air port 12 is formed on front panel 19, and air inlet 11 is formed in the rear wall of rear shell 18.In some embodiments, air inlet 11
Quantity can be one, and the air inlet 11 is located at the rear side of casing 10, and along the short transverse extension of casing 10, to cause that this enters
Air port 11 can be relative with above-mentioned at least one air outlet 12.In other implementation methods, the quantity of air inlet 11 can be
Two, three or it is more than three more.The quantity of air inlet 11 can with the quantity of the first axial flow blower 31 and first from
The quantity sum of sub- wind generation apparatus 41 is identical, or air inlet 11 quantity more than the first axial flow blower 31 quantity and first from
The quantity sum of sub- wind generation apparatus 41.Similarly, in some embodiments, the quantity of air outlet 12 can be one, should
Air outlet 12 extends along the short transverse of casing 10.Other preferred embodiment in, referring to Fig. 2, the number of air outlet 12
Amount can be identical with the quantity sum of the quantity of the first axial flow blower 31 and the first ion wind generation apparatus 41, i.e. each first axle
Flow fan 31 and each first ion wind generation apparatus 41 correspond to an air outlet 12.It is corresponding with the first axial flow blower 31
Air outlet 12 is preferably circular, and the air outlet 12 corresponding with the first ion wind generation apparatus 41 is preferably to be sent out with the first ion wind
The shape identical of generating apparatus 41 is square.In further embodiments, air outlet 12 can also be other suitable shapes.
In certain embodiments, air intake grid can be provided with air inlet 11.With the corresponding air outlet of the first axial flow blower 31
It is provided with 12 and stream grid for guide air current flow, different air-out sides is met with the air-flow for controllably sending out air outlet 12
To demand.
In some embodiments of the invention, referring to Fig. 2, it is additionally provided with casing 10 for installing the He of the first axial flow blower 31
The inner support 15 of the first ion wind generation apparatus 41, inner support 15 is arranged on the rear side of front panel 18, and is close to front panel 18
Backward surface.Offered on inner support 15 be adapted with the shape of the first axial flow blower 31 first cavity 151 and with the first ion
The second hole 152 that the shape of wind generation apparatus 41 is adapted.Each first axial flow blower 31 is housed in corresponding one first
In hole 151, each first ion wind generation apparatus 41 is housed in corresponding one the second hole 152.
Heat-exchanger rig 20 is arranged in casing 10, and is configured to enter in casing 10 with via at least one air inlet 11
Air-flow carries out heat exchange.Specifically, heat-exchanger rig 20 can carry out heat exchange with its air-flow is flowed through, to change the temperature of the air-flow
Degree, so that it becomes the heat exchange air-flow that temperature is higher or temperature is relatively low.
At least part of air-flow that above-mentioned at least two first axial flow blowers 31 are used to controllably promote in casing 10 towards
State at least part of air outlet flowing at least one air outlet 12.That is to say, each first axial flow blower 31 is a gas
Stream drive device.Above-mentioned at least two first axial flow blowers 31 are arranged in order along the short transverse of casing 10.That is to say, this is at least
Two the first axial flow blowers 31 are arranged in order along the vertical direction.Each first axial flow blower 31 include fan blade support frame 311, can
Fan blade 312, the motor 313 and motor pressing cover for driving fan blade 312 to rotate being pivotally supported on fan blade support frame 311
314。
Above-mentioned at least one first ion wind generation apparatus 41, are configured to controllably promote in casing 10 using electric field force
At least part of air-flow flows towards the part air outlet in above-mentioned at least one air outlet 12.That is to say, each first ion wind
Generating means 41 is an air flow drive device.It is ability that ion wind generation apparatus produce the principle of the ion wind flow of flowing
Field technique personnel repeat no more than more conventional and be readily available here.
In embodiments of the present invention, being rotated by its motor 313 of fan blade 312 of the first axial flow blower 31, so that
Air-flow is driven to flow from the front to the back, the first ion wind generation apparatus 41 can drive air-flow to flow from the front to the back by electric field force,
So as to the airflow circulating between the inside and outside of realizing vertical air-conditioner indoor unit 1.On the one hand, air-flow is from the front to the back through vertical
Formula indoor apparatus of air conditioner 1, shortens the distance of air current flow, reduces air loss and energy loss, improves the operation of whole machine
Efficiency;On the other hand, the first ion wind generation apparatus 41 make particle in air obtain kinetic energy by electric field force, thus formed from
Sub- wind.For air-supply assembly (such as blower fan) compared to rotation class, the first ion wind generation apparatus 41 have that crushing is small, power consumption
The advantage such as low, noise is small.It is of the invention vertical compared to all using for the vertical air-conditioner indoor unit for rotating class air-supply assembly
Indoor apparatus of air conditioner 1 can either realize the air-supply of Wind Volume, and noise during its operation can be greatly reduced again.
In some embodiments of the invention, above-mentioned at least two first axial flow blowers 31 and above-mentioned at least one ion wind
Generating means 41 is arranged in casing 10 from above-mentioned at least one air inlet 11 to above-mentioned at least one air outlet 12 with being in parallel
Air current flow path on.It should be noted that " being in parallel " of the invention means above-mentioned at least two first axial flow blowers 31
The air-flow sent out with any one air flow drive device in above-mentioned at least one first ion wind generation apparatus 41 is all without warp
Cross other air flow drive devices.Specifically, above-mentioned at least two first axial flow blowers 31 and above-mentioned at least one first ion wind
Generating means 41 can be arranged in order along the vertical direction in the air current flow direction in casing 10 with random order, be that is to say
It is arranged in order with random order along the short transverse of casing 10.Thus, it is possible to realize line, the uniform air-out on face, it is to avoid local
The problem that region wind speed is excessive, regional area wind speed is too small, so as to expand blowing range and the air-supply of vertical air-conditioner indoor unit 1
Amount, and make the air-flow that vertical air-conditioner indoor unit 1 is sent out more balanced.
Further, above-mentioned at least two first axial flow blowers 31 and above-mentioned at least one first ion wind generation apparatus 41
The mode being in parallel has various.For example, after at least two first axial flow blowers 31 are arranged in order along the short transverse of casing 10, extremely
Few first ion wind generation apparatus 41 are arranged in order in the direction again.Some preferred embodiment in, referring to Fig. 1 extremely
Fig. 3, above-mentioned at least two first axial flow blowers 31 and above-mentioned at least one first ion wind generation apparatus 41 along casing 10 height
Degree direction is alternately arranged.Thus, can be by the first larger axial flow blower 31 of air output and the less first ion wind hair of air output
Generating apparatus 41 are evenly spaced and come, so that the air-out of vertical air-conditioner indoor unit 1 is more balanced.
In some embodiments of the invention, between the first adjacent axial flow blower 31 and the first ion wind generation apparatus 41
Air-duct clapboard 50 is provided with, so that between each first axial flow blower 31 and the air channel residing for each first ion wind generation apparatus 41
It is separate.Thus, the air-flow between different air channels can be avoided to produce interfere, so as to avoid going out for turbulent, mixed flow phenomenon
It is existing, improve the air supply velocity of vertical air-conditioner indoor unit 1.
Fig. 4 is the schematic structure exploded view of vertical air-conditioner indoor unit in accordance with another embodiment of the present invention.In this hair
In some bright embodiments, referring to Fig. 4, it is additionally provided with for promoting in casing 10 in the air channel where each first axial flow blower 31
Fraction towards (i.e. second ion wind of the second ion wind generation apparatus 42 of flowing at least one air outlet 12
Generating means 42 is also a kind of air flow drive device), the second ion wind generation apparatus 42 are in series with first axial flow blower 31
Be arranged in casing 10 on from above-mentioned at least one air inlet 11 to the air current flow path of above-mentioned at least one air outlet 12.
It should be noted that the present invention " being in series " herein means the first axial flow blower 31 and the second ion in same air channel
Other air flow drive devices that the air-flow that any one air flow drive device in wind generation apparatus 42 is sent out can pass through in the air channel.
That is, air-flow of the first axial flow blower 31 and the second ion wind generation apparatus 42 in same air channel in casing 10
It is arranged in order with random order on flow direction.In the present invention, the air current flow direction in casing 10 is for from the front to the back.
Further, each first axial flow blower 31 is respectively positioned on the second ion wind generation apparatus 42 in air channel where it
Front side (referring to Fig. 4).In some alternative embodiments, each first axial flow blower 31 can be also respectively positioned in air channel where it
The second ion wind generation apparatus 42 rear side.
The first axial flow blower 31 and the second ion wind generation apparatus 42 in same air channel are respectively positioned on heat-exchanger rig 20
Front side (referring to Fig. 4).In some alternative embodiments, the first axial flow blower 31 in same air channel and second from
Sub- wind generation apparatus 42 can also be respectively positioned on the rear side of heat-exchanger rig 20.That is, the first axle stream wind in same air channel
The ion wind generation apparatus 42 of machine 31 and second can be sequentially arranged with random order in the longitudinal direction, but be both located within heat exchange
The same side of device 20.
In some embodiments of the invention, the road that the first axial flow blower 31 and the second ion wind generation apparatus 42 are in series
Other devices for allowing air-flow to pass through, such as purifier can be also provided with footpath.Purifier is configured to adsorb the gas for flowing through it
Impurity in stream, can be with coating powders shape catalyst inside it, and above-mentioned catalyst can be used for decomposing the pernicious gas in air,
For example including the metal oxide for decomposing nitrogen oxide etc..
Fig. 5 is the schematic structure exploded view of the vertical air-conditioner indoor unit according to another embodiment of the invention.In this hair
In some bright embodiments, referring to Fig. 5, it is additionally provided with for promoting machine in the air channel where each first ion wind generation apparatus 41
(i.e. the second axle stream wind of the second axial flow blower 32 that fraction in shell 10 flows towards at least one air outlet 12
Machine 32 is also a kind of air flow drive device), the second axial flow blower 32 is set with being in series with the first ion wind generation apparatus 41
On in casing 10 from above-mentioned at least one air inlet 11 to the air current flow path of above-mentioned at least one air outlet 12.Need
Bright, the present invention " being in series " herein means the first ion wind generation apparatus 41 and the second axle stream in same air channel
Other air flow drive devices that the air-flow that any one air flow drive device in blower fan 32 is sent out can pass through in the air channel.Namely
Say, air current flow side of the first ion wind generation apparatus 41 and the second axial flow blower 32 in same air channel in casing 10
It is arranged in order with random order upwards.
Further, before each first ion wind generation apparatus 41 is respectively positioned on the second axle stream machine 32 in air channel where it
Side (referring to Fig. 5).Some preferred embodiment in, each first ion wind generation apparatus 41 is respectively positioned in air channel where it
The second axial flow blower 32 rear side.The first ion wind generation apparatus 41 and the second axial flow blower 32 in same air channel are equal
Positioned at the front side of heat-exchanger rig 20 or it is respectively positioned on the rear side of heat-exchanger rig 20.That is, in same air channel first from
The axial flow blower 32 of sub- wind generation apparatus 41 and second can be sequentially arranged with random order in the longitudinal direction, but be both located within
The same side of heat-exchanger rig 20.
Further, can also be provided with fair on the path that the second axial flow blower 32 and the first ion wind generation apparatus 41 are in series
Perhaps other devices that air-flow passes through, such as purifier.
In some embodiments of the invention, referring to Fig. 2, the quantity of air outlet 12 and the first axial flow blower 31 and first
The quantity sum of ion wind generation apparatus 41 is identical, and each the first axial flow blower 31 and each first ion wind generation apparatus 41 exist
Air outlet 12 corresponding with one is relative on fore-and-aft direction." relative " designated herein means that each first axial flow blower 31 exists
The projection on a surface of projection air outlet 12 corresponding with the forward surface of casing 10 has overlapping portion, and each the
Projection with one corresponding air outlet 12 of the one ion wind generation apparatus 41 in the forward surface of casing 10 is on a surface
Projection has overlapping portion.Preferably, each projection of the first axial flow blower 31 in the forward surface of casing 10 is corresponding to one
The projection on a surface of air outlet 12 be completely superposed, each first ion wind generation apparatus 41 is in the forward surface of casing 10
The projection on a surface of projection air outlet 12 corresponding be completely superposed.
In some embodiments of the invention, vertical air-conditioner indoor unit 1 also includes:For controlling above-mentioned at least two first
Axial flow blower 31 is activated individually operation, controls above-mentioned at least one first ion wind generation apparatus 41 operation to be activated individually or controls
Above-mentioned at least two first axial flow blowers 31 and above-mentioned at least one first ion wind generation apparatus 41 are while the control of startup optimization
Device processed 80, so that vertical air-conditioner indoor unit 1 is worked in only drives air-supply by above-mentioned at least two first axial flow blower 31
Quickly cooling/speed heat pattern only drives the silent mode of air-supply or passes through by above-mentioned at least one first ion wind generation apparatus 41
Above-mentioned at least two first axial flow blowers 31 and above-mentioned at least one first ion wind generation apparatus 41 drive the big of air-supply simultaneously
Air quantity pattern.That is, the present invention can be by control device 80 to above-mentioned at least one first ion wind generation apparatus 31
Start and stop with above-mentioned at least two first axial flow blowers 31 are controlled, so that indoor apparatus of air conditioner 1 at least has quickly cooling/speed
Hot, Jing Yin and three kinds of mode of operations of Wind Volume, make so as to meet different user or same user in varied situations various
With demand, the experience of user is improve.Control device 80 can be by wired or wireless mode and above-mentioned at least two
One axial flow blower 31 and the above-mentioned signal of at least one first ion wind generation apparatus 41 are connected.
Specifically, under the silent mode, all of first axial flow blower 31 not startup optimization, indoor apparatus of air conditioner 1 only passes through
All of first ion wind generation apparatus 41 drive air-supply, first axle to the part air outlet in above-mentioned at least one air outlet 12
Flow fan 31 does not produce any driving effect to air-flow.Work when being run due to the first ion wind generation apparatus 41 of the invention
Make noise close to even below indoor background noise, therefore be greatly reduced whole when vertical air-conditioner indoor unit 1 runs
Body noise, solves the industry problem of ultralow Jing Yin air-supply.This kind of pattern be applied to the use environment such as medical treatment, child custody, with
And the situation that the operation a period of time of vertical air-conditioner indoor unit 1 is later.Under quickly cooling/speed heat pattern, all of first ion wind hair
The not startup optimization of generating apparatus 41, vertical air-conditioner indoor unit 1 is only gone out by all of first axial flow blower 31 to above-mentioned at least one
Part air outlet in air port 12 drives air-supply, and the first ion wind generation apparatus 41 do not produce any driving effect to air-flow.
Because the air output of the first axial flow blower 31 is relatively large, refrigerating efficiency or heating efficiency are of a relatively high, therefore, it is possible to rapidly
Alleviate indoor temperature.It is fast that this kind of pattern is applied to the firm situation or other needs for starting startup optimization of vertical air-conditioner indoor unit 1
Speed refrigeration or the situation for heating.Under Wind Volume pattern, the first ion wind generation apparatus 41 and the first axial flow blower 31 can be controlled
Ground is while startup optimization, to be blown to above-mentioned at least one air outlet 12 simultaneously, that is to say that air-flow is sent out through the first ion wind respectively
Sent out after the driving effect of the axial flow blower 31 of generating apparatus 41 and first.Therefore, this kind of pattern be applied to have to air quantity and wind speed compared with
The situation of high request, more fast-refrigerating or the quick situation and other situations being had higher requirements to wind speed for heating.
In some embodiments of the invention, wind guiding mechanism can be equipped with each air outlet 12.With each first axle stream
Wind guiding mechanism at the corresponding air outlet 12 of blower fan 31 is configured to controllably be beaten under quickly cooling/speed heat pattern and Wind Volume pattern
Output air port 12, controllably close the air outlet 12 under the silent mode, it is corresponding with each first ion wind generation apparatus 41
Air outlet 12 at wind guiding mechanism be configured to controllably to close the air outlet 12 under quickly cooling/speed heat pattern, in silent mode
With the air outlet 12 is controllably opened under Wind Volume pattern.
In some embodiments of the invention, referring to Fig. 2, heat-exchanger rig 20 includes integral type tabular evaporator, and above-mentioned
Before at least one first axial flow blowers 31 are respectively positioned on heat-exchanger rig 20 with above-mentioned at least one first ion wind generation apparatus 41
Side, so that the gas driven by above-mentioned at least two first axial flow blowers 31 and above-mentioned at least one first ion wind generation apparatus 41
Stream after the heat exchange of heat-exchanger rig 20 by flowing to above-mentioned at least one air outlet 12.That is to say, through all of air flow drive device
The air-flow for being sent to air outlet 12 for driving is heat exchange air-flow.Thus, the vertical air-conditioner indoor unit 1 of the embodiment is more applicable for
In fast-refrigerating or the quick environment for heating.
Fig. 6 is the schematic structure exploded view of the vertical air-conditioner indoor unit according to four embodiment of the invention.In this hair
In other bright embodiments, heat-exchanger rig 20 includes segmented tabular evaporator 21, hop count and the first axle stream of evaporator 21
The number of blower fan 31 is identical, and every section of evaporator 21 may be contained within corresponding one rear side of the first axial flow blower 31.That is,
The evaporator of heat-exchanger rig 20 is only arranged on the air current flow path at the place of the first axial flow blower 31, so that by each
The air-flow that first axial flow blower 31 drives is corresponding in flowing at least one air outlet 12 after the heat exchange of corresponding evaporator 21
One air outlet, the air-flow driven by each first ion wind generation apparatus 41 flow directly into corresponding at least one air outlet 12
An air outlet.In other words, the whole shape by the heat exchange of heat-exchanger rig 20 of the air-flow for being driven by the first axial flow blower 31
Into the higher or lower heat exchange air-flow of temperature, driven by the first ion wind generation apparatus 41 being arranged in parallel with the first axial flow blower 31
Dynamic air-flow forms natural airflow without the heat exchange of heat-exchanger rig 20.Heat exchange air-flow and natural airflow at air outlet 12 or
Air outlet 12 is nearby mixed and forms the milder mixing wind of ratio of moderate temperature, so as to avoid cold wind or hot blast from directly blowing to
Human body, improves the comfort level of vertical air-conditioner indoor unit 1, makes the experience of user more preferably.
Further, referring to Fig. 6, every section of evaporator 21 of heat-exchanger rig 20 can be respectively positioned on air current flow path where it
The first axial flow blower 31 rear side.In other implementation methods, every section of evaporator 21 of heat-exchanger rig 20 can be respectively positioned on it
The front side of the first axial flow blower 31 on the air current flow path of place.
As can be seen here, the design such as shape, position of the exchange of vertical air-conditioner indoor unit of the invention 1 thermal 20 be respectively provided with compared with
Big flexibility, to be conducive to the design and arrangement of the other structures of vertical air-conditioner indoor unit 1.
In other embodiments of the invention, the quantity of the first axial flow blower 31 and the first ion wind generation apparatus 41 can
With identical, each first ion wind generation apparatus 41 be connected on corresponding first axial flow blower 31 where air current flow
On path.That is, in other embodiments of the invention, the first axial flow blower 31 and the first ion wind generation apparatus 41
Also can be arranged in series.Here series connection is similar with the above-mentioned meaning of connecting, and repeats no more here.In these embodiments, air-out
Mouthfuls 12 quantity is identical with the quantity of the first axial flow blower 31, each first axial flow blower 31 in the longitudinal direction with a phase
The air outlet 12 answered is relative." relative " designated herein means each throwing of the first axial flow blower 31 in the forward surface of casing 10
The projection on a surface of shadow air outlet 12 corresponding with has overlapping portion.Preferably, each first axial flow blower 31
Air outlet 12 corresponding with one projection on a surface that projects in the forward surface of casing 10 is completely superposed.
Fig. 7 is a schematic knot for 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, referring to Fig. 7, each first ion wind generation apparatus 41 includes at least one
Individual electric discharge module 410.Each electric discharge module 410 is respectively provided with wire netting 411 and positioned at the rear side of wire netting 411 and is arranged in array
Multiple spray points 412.Wire netting 411 is extending in the plane of fore-and-aft direction.Circle is evenly distributed with wire netting 411
The through hole of hole, square opening, diamond hole or other shapes.Spray point 412 has discharge tip, and the discharge tip can be directly to wire netting
The center of 411 a certain through hole.Apply positive or negative high voltage electrode on spray point 412 and wire netting 411 respectively, spray point 412 is suitable
In the radiation pole for producing corona discharge, wire netting 411 is equivalent to receiving pole.
That is, the flow direction of the ion wind produced by each electric discharge module 410 is from back to front, multiple spray points
412 is identical with flowing to for ion wind with the arragement direction of wire netting 411.
Fig. 8 is the schematic cross sectional views of electric discharge module according to an embodiment of the invention.Referring to Fig. 8, in order to improve from
The air supply velocity of sub- wind generation apparatus, designer of the invention has carried out substantial amounts of measuring wind speed experiment, and experimental result finds, will
Being arranged to apart from L of the needle point of each spray point 412 and wire netting 411 makes it meet L=aL1(wherein, a be scope 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 cause wire netting 411
The ion wind wind speed of wind speed central spot reaches maximum wind velocity VmaxWhen spray point 412 needle point and wire netting 411 between away from
Be the subpoint of the needle point on wire netting 411 of spray point 412 from the wind speed central point of, wire netting 411) relation after, a side
Ion wind wind speed produced by face, the first ion wind generation apparatus 41 and the second ion wind generation apparatus 42 can preferably meet
The normal use demand of user, on the other hand, also can ensure that spray point 412 produces the region of effective ion wind in wire netting 411
It is interior to partly overlap to reach the effect of the projection of shadowless lamp, so that the ion wind distribution of wire netting 411 is more uniform.
In order to improve the air output of ion wind generation apparatus, designer of the invention has carried out substantial amounts of needle point projection radius
The experiment of measurement, experimental result finds, the distance between the needle point of two neighboring spray point 412 R is arranged to it is met R=
aR1(wherein, R1For wind speed reaches maximum wind velocity VmaxThe distance between b times of measuring wind speed point and wind speed central point, b is model
Be trapped among the either constant between 0.3~0.7, i.e. b can value be 0.3,0.4,0.5,0.6 or 0.7, a value it is same as described above)
Relation after, the ion wind air quantity produced by the first ion wind generation apparatus 41 and the second ion wind generation apparatus 42 can be more preferable
Ground meets the normal use demand of user.Meanwhile, after being specifically designed to the distance between two neighboring spray point 412, both
Can avoid being cancelled out each other because distance closely occurs wind speed very much between two neighboring spray point 412, two electric discharges can be avoided again
The distance between pin 412 far causes very much air quantity reduction and air volume adjustment uneven.
As can be seen here, the spatial relation that the present invention passes through rationally design spray point 412 and wire netting 411, and simultaneously
Rational deployment multiple spray point 412 position relationship each other, may be such that the first ion wind generation apparatus 41 and the second ion
Wind generation apparatus 42 can produce the ion wind of uniform, larger air quantity, so as to improve the He of the first ion wind generation apparatus 41
The air supply velocity of the second ion wind generation apparatus 42, air output and air-supply efficiency.
In some embodiments of the invention, each first ion wind generation apparatus 41 includes arranging successively along the longitudinal direction
Row and the multiple electric discharge modules 410 for connecting in parallel or series, each electric discharge module 410 are respectively provided with wire netting 411 and positioned at metal
The rear side of net 411 and the multiple spray points 412 being arranged in array.Thus, each electric discharge module 410 in spray point 412 with it is corresponding
Wire netting 411 between will produce corona discharge phenomenon, so as to may be such that ion wind is carried out repeatedly by multiple electric discharge modules 410
Accelerate, it is possible to achieve the superposition of wind speed, higher wind velocity is gone out to obtain.And can form negative under high speed air-out effect
Pressure, the air supply velocity for further increase intake, improving multipole ion air-supply module, 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 straight to arranging, also
It is to say, is overlapped per projection of the spray point 412 of two neighboring electric discharge module in the outlet air surface of ion wind generation apparatus.Thus,
Region corresponding to the tip of each spray point 412 can produce larger stronger electric field, therefore the region can produce local wind speed
Ion wind higher, the ion wind blows to the another user of meeting with user has stronger wind sense.In other words, this kind of arrangement
Can be obtained near each wind speed central point of wire netting 411 part larger wind speed, with lifted indoor apparatus of air conditioner 1 individually by from
Sub- wind generation apparatus drive wind sense during air-supply.
In some alternative embodiments of the invention, the dislocation cloth of spray point 412 of two neighboring electric discharge module 410
Put.Embodiment illustrated in fig. 9 is one of which dislocation arrangement, and wherein OZ axles represent short transverse, and OY axles are represented laterally.In order to
Readily appreciate, by the structure of two neighboring electric discharge module 410 respectively with solid line and shown in phantom.The dislocation arrangement is:Often
The spray point 412 of two neighboring electric discharge module misplace arrangement in the horizontal, and the often two neighboring module that discharges corresponding spray point
412 projection in the outlet air surface of ion wind generation apparatus 10 is in same horizontal line (i.e. per two neighboring electric discharge module
The dislocation arrangement of spray point 412, but highly identical residing for corresponding spray point 412).Thus, several lines in the horizontal direction
Property region in can produce more uniform soft wind, the superpositions of multiple electric discharge modules can be formed in the range of linearity again it is larger compared with
Ion wind wind speed in strong electric field, therefore the range of linearity is of a relatively high.Further, the spray point of multiple electric discharge modules
The 412 every group of adjacent to each other three spray point projections for being formed in the horizontal plane are respectively formed isosceles triangle, to ensure ion
The ion wind that wind generation apparatus are produced is distributed than more uniform.
Embodiment illustrated in fig. 10 is another dislocation arrangement, and wherein OZ axles represent short transverse, and OY axles are represented laterally.
In order to make it easy to understand, by the structure of two neighboring electric discharge module 410 respectively with solid line and shown in phantom.Another kind dislocation arrangement
Mode is:Spray point 412 per two neighboring electric discharge module in transverse direction and vertical direction arrange by dislocation.Thus, ion
The ion wind that wind generation apparatus are produced can be uniformly distributed in its outlet air surface, with 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, the gap that can be filled up between multiple spray points 412 of each electric discharge module 410.Thus, can be in wire netting 411
Formed than more uniform ion wind in whole region, improve overall air output.Further, the electric discharge of multiple electric discharge modules
Every group of adjacent to each other three spray point projection that pin 412 is formed in the outlet air surface of ion wind generation apparatus is respectively formed equilateral
Triangle, it is more uniform to ensure the ion wind distribution that ion wind generation apparatus are produced.
In some embodiments of the invention, referring to Fig. 7, each electric discharge module 410 is also including housing 416, with multiple
The metal conductive strips 413 of metallic conduction piece 414 and 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 rear two-layer insulating protective layer and positioned at two-layer insulating protective layer
Between conductive layer, the conductive layer electrically connects with metallic conduction piece 414.Buckle 4161, metal are offered on the bottom wall of housing 416
The metallic conduction piece 414 of conductive bar 413 is fastened in the buckle 4161 of housing 416.
The quantity of PCB multilayer board 415 can be one, and its is 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 wire netting 411 of at least one PCB multilayer board 415.Tool
Body ground, several are offered on the outer surface of each PCB multilayer board 415 is used to install the pin hole of spray point 412.Pin hole
Aperture is slightly smaller than the diameter of spray point 412, so that pin hole and the interference fit of spray point 412.Insert around the pin hole of spray point 412
The packed layer filled up by welding procedure is provided with, being provided with by welding procedure around spray point 412 for pin hole is that is to say
The packed layer filled up, to ensure that spray point 412 keeps good electrical connection with the conductive layer in PCB multilayer board 415, while may be used again
Conductive layer is strictly avoided to be exposed to outside, so as to avoid producing the phenomenon for leaving about electricity or sparking.
Correspondingly, each second ion wind generation apparatus 42 may also comprise and be arranged in order along the longitudinal direction and in parallel or string
Multiple electric discharge modules of connection connection, the electric discharge module 410 of the structure of the electric discharge module and above-mentioned first ion wind generation apparatus 41
Structure it is identical, therefore repeat no more.
It will be understood by those skilled in the art that in case of no particular description, alleged in the embodiment of the present invention " on ",
D score, " interior ", " outward ", " horizontal stroke ", "front", "rear" etc. are for representing that the term in orientation or position relationship is with vertical air-conditioner indoor unit
For on the basis of 1 real use state, these terms are for only for ease of description and understand technical scheme, and
It is not that the device or part for indicating or implying meaning must have specific orientation, therefore it is not intended that to limit of the invention
System.
So far, although those skilled in the art will appreciate that detailed herein have shown and described multiple of the invention and show
Example property embodiment, but, without departing from the spirit and scope of the present invention, still can be direct according to present disclosure
It is determined that or deriving many other variations or modifications for meeting the principle of the invention.Therefore, the scope of the present invention is understood that and recognizes
It is set to and covers all these other variations or modifications.
Claims (11)
1. a kind of vertical air-conditioner indoor unit, it is characterised in that including:
Casing, with for entering its at least one internal air inlet and for for its internal air-flow stream for surrounding air
At least one air outlet for going out, at least one air inlet is located at the rear side of the casing, at least one air outlet position
In the front side of the casing;
Heat-exchanger rig, is arranged in the casing, and is configured to enter in the casing with via at least one air inlet
At least part of air-flow carry out heat exchange;
At least two first axial flow blowers, are configured to controllably promote described at least part of air-flow direction in the casing at least
In one air outlet at least part of air outlet flowing, described at least two first axial flow blowers along the casing short transverse
It is arranged in order;And
At least one first ion wind generation apparatus, are configured to controllably promote at least part of in the casing using electric field force
Air-flow flows towards the part air outlet at least one air outlet.
2. vertical air-conditioner indoor unit according to claim 1, it is characterised in that
Described at least two first axial flow blowers and at least one ion wind generation apparatus are arranged at the machine with being in parallel
In shell from least one air inlet to the air current flow path of at least one air outlet on.
3. vertical air-conditioner indoor unit according to claim 2, it is characterised in that
Described at least two first axial flow blowers and at least one ion wind generation apparatus along the casing short transverse
It is alternately arranged.
4. vertical air-conditioner indoor unit according to claim 3, it is characterised in that
Air-duct clapboard is provided between adjacent first axial flow blower and the first ion wind generation apparatus, so that each institute
State separate between the first axial flow blower and the air channel residing for each described first ion wind generation apparatus;And
It is additionally provided with for promoting the fraction in the casing towards institute in air channel where each described first axial flow blower
State one at least one air outlet the second ion wind generation apparatus of flowing, the second ion wind generation apparatus with this
One axial flow blower is arranged in the casing from least one air inlet at least one air outlet with being in series
On air current flow path.
5. vertical air-conditioner indoor unit according to claim 3, it is characterised in that
Air-duct clapboard is provided between adjacent first axial flow blower and the first ion wind generation apparatus, so that each institute
State separate between the first axial flow blower and the air channel residing for each described first ion wind generation apparatus;And
It is additionally provided with for promoting the fraction in the casing in air channel where each described first ion wind generation apparatus
Towards one at least one air outlet the second axial flow blower of flowing, second axial flow blower and first ion
Wind generation apparatus are arranged in the casing from least one air inlet at least one air outlet with being in series
On air current flow path.
6. vertical air-conditioner indoor unit according to claim 2, it is characterised in that
The quantity of the air outlet is identical with the quantity sum of first axial flow blower and the first ion wind generation apparatus,
Each described first axial flow blower and each described first ion wind generation apparatus institute corresponding with the longitudinal direction
State air outlet relative.
7. vertical air-conditioner indoor unit according to claim 6, it is characterised in that also include:
For controlling described at least two first axial flow blowers that operation is activated individually, controlling described at least one first ion winds to send out
Generating apparatus are activated individually operation or control described at least two first axial flow blowers and at least one first ion wind to occur
Device simultaneously startup optimization control device so that the vertical air-conditioner indoor unit work in only pass through described at least two first
Axial flow blower drives the quickly cooling/speed heat pattern of air-supply or only drives air-supply by described at least one first ion wind generation apparatus
Silent mode or by described at least two first axial flow blowers and at least one first ion wind generation apparatus simultaneously
Drive the Wind Volume pattern of air-supply.
8. vertical air-conditioner indoor unit according to claim 2, it is characterised in that
The heat-exchanger rig includes integral type tabular evaporator, and at least two first axial flow blower and described at least one
First ion wind generation apparatus are respectively positioned on the front side of the heat-exchanger rig, so that by described at least two first axial flow blowers and institute
The air-flow of at least one first ion wind generation apparatus driving is stated by least one described in flow direction after heat-exchanger rig heat exchange
Individual air outlet.
9. vertical air-conditioner indoor unit according to claim 2, it is characterised in that
The heat-exchanger rig includes segmented tabular evaporator, the number of the hop count of the evaporator and first axial flow blower
Identical, every section of evaporator may be contained within corresponding one rear side of first axial flow blower, so that
The air-flow driven by the first axial flow blower each described by described in flow direction after the corresponding evaporator heat exchange at least
A corresponding air outlet, the air-flow driven by the first ion wind generation apparatus each described flow directly into institute in one air outlet
State a corresponding air outlet at least one air outlet.
10. vertical air-conditioner indoor unit according to claim 1, it is characterised in that
First axial flow blower is identical with the quantity of the first ion wind generation apparatus, and each described first ion wind hair
Generating apparatus be connected on corresponding first axial flow blower where air current flow path on.
11. vertical air-conditioner indoor units according to claim 1, it is characterised in that
Each described first ion wind generation apparatus includes the multiple for being arranged in order along the longitudinal direction and connecting in parallel or series
Electric discharge module, each described electric discharge module is respectively provided with the wire netting extended in the plane of fore-and-aft direction and positioned at described
Wire netting rear side and the multiple spray points being arranged in array;And
The spray point of the two neighboring electric discharge module is straight to arrangement of arranging or misplace.
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