CN107218661A - Vertical air-conditioner indoor unit - Google Patents

Abstract

The invention provides a kind of vertical air-conditioner indoor unit, including casing, there are vertically disposed multiple air outlets on front panel, rear side has air inlet；Heat exchanger is arranged in casing；First axial-flow fan and the second axial-flow fan are arranged above and below in casing, axis is vertically extending and conllinear, to promote air to enter casing through air inlet, with being blown out after heat exchanger heat exchange from air outlet；Ducting assembly is erected at two axial-flow fan outer circumferentials, and air is drained at air outlet forward at heat exchanger；Air channel separator is installed on ducting assembly and positioned between the first axial-flow fan and the second axial-flow fan, by the space that ducting assembly is limited be divided into above and below two, the first axial-flow fan and the second axial-flow fan are accommodated respectively；And bearing, in the separator of air channel, bearing top is matched with the rotating shaft of the first axial-flow fan, and bearing bottom is matched with the rotating shaft of the second axial-flow fan.The present invention can simplify ducting assembly, reduce the influence of ducting assembly heat exchanging device heat exchange efficiency.

Description

Vertical air-conditioner indoor unit

Technical field

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

Background technology

At present, air flow is driven as power source using centrifugal fan more than traditional vertical air-conditioner indoor unit.Centrifugation Fan and heat exchanger are arranged in the casing of indoor set along the vertical direction, and air inlet is arranged at the bottom of casing, and with centrifuging wind Fan is relative, and air outlet is arranged at the forward upper of casing, and relative with heat-exchanger rig.Air inlet of the air through bottom enters casing It is interior, and flow through successively centrifugal fan air channel and heat exchanger after at the air outlet on top send out.As can be seen here, air-flow is by air intake The distance that mouth to air outlet is flowed through is longer, and air loss is more serious, and energy expenditure is larger, and the fan-out capability of fan weakens, and makes The operational efficiency for obtaining complete machine is greatly reduced.

The content of the invention

The invention aims to overcome above mentioned problem or solve the above problems that there is provided a kind of blast damage at least in part Lose the vertical air-conditioner indoor unit that the operation of smaller and fan is more saved.

It is another object of the present invention to which two axial-flow fans should be easily installed, simplify ducting assembly again, reduce air channel The influence of the heat exchange efficiency of component heat exchanging device.

The present invention further objective is that the air supply pattern of vertical air-conditioner indoor unit is enriched, to lift Consumer's Experience.

Especially, the invention provides a kind of vertical air-conditioner indoor unit, including：

Vertically disposed multiple air outlets are offered on casing, its front panel, rear side offers air inlet；

Heat exchanger, is arranged in casing；

First axial-flow fan and the second axial-flow fan, be arranged above and below in casing, axis it is vertically extending and it is conllinear set, And be respectively configured to promote air to enter casing through air inlet, with being blown out after heat exchanger heat exchange from corresponding air outlet；

Ducting assembly, is erected at the outer circumferential of the first axial-flow fan and the second axial-flow fan, for by air from heat exchange It is drained to forward at multiple air outlets at device；

Air channel separator, is installed on ducting assembly and positioned between the first axial-flow fan and the second axial-flow fan, by wind The space that road component is limited be divided into above and below two parts, to accommodate the first axial-flow fan and the second axial-flow fan respectively；With

Bearing, in the air channel separator, the bearing top is matched with the rotating shaft of first axial-flow fan, The bearing bottom is matched with the rotating shaft of second axial-flow fan.

Alternatively, ducting assembly includes：Vertical spaced two end plates, the motor of the first axial-flow fan and The motor of second axial-flow fan is respectively arranged in two end plates；Spiral case, erect set and be connected to two end plates it Between；Snail tongue, erects and sets and be connected between two end plates, and guide air flow jointly with spiral case；And air channel separator It is connected between spiral case and snail tongue.

Alternatively, multiple air outlets are circle；Vertical air-conditioner indoor unit also includes air ducting, and air ducting includes： Framework, is arranged on the inner side of front panel；With multiple pendulum leaf groups, matched one by one with multiple air outlets, each pendulum leaf group includes length Direction is parallel to each other and may be pivotally mounted to multiple pendulum leaves of framework respectively, and is configured to make multiple pendulum leaves can pivot in unison Change the air-out direction of air outlet；And spiral case and snail tongue each extend over the both lateral sides for being posted by framework, air direction is gone out Air port is guided.

Alternatively, vertically direction extends the length direction of the pendulum leaf of multiple pendulum leaf groups.

Alternatively, three shape identical air outlets are provided with front panel altogether；And first axial-flow fan correspondence wherein two Individual air outlet, another air outlet of the second axial-flow fan correspondence.

Alternatively, two air outlets, the area of passage of the corresponding air outlet of the first axial-flow fan are provided with front panel altogether For twice of the area of passage of the corresponding air outlet of the second axial-flow fan.

Alternatively, the rotor diameter of the first axial-flow fan and the second axial-flow fan is identical；And first axial-flow fan length For twice of the second axial-flow fan.

Alternatively, the first axial-flow fan is located at the top of the second axial-flow fan.

Alternatively, heat exchanger is vertically extending and opening " U " type heat exchanger facing forward, the first axial-flow fan and the second through-flow Fan is located on the inside of the front of heat exchanger.

Alternatively, vertical air-conditioner indoor unit also includes human body detection device, is configured to detect indoor human body information, human body letter Breath includes number, human body temperature, position of human body；And master control borad, be configured to according to human body information, the first axial-flow fan of control and Second axial-flow fan simultaneously or selects a unlatching, and controls the first axial-flow fan and the wind speed of the second axial-flow fan or sending for air outlet Wind direction.

The vertical air-conditioner indoor unit of the present invention utilizes cross-flow fan air-supply, and air inlet is arranged on rear side of casing, and air outlet is set Put on front panel, so can greatly shorten the flow of whole air-supply process air, reduce air loss, improve air-conditioning Complete machine efficiency.In addition, the present invention is by setting multiple air outlets and the first axial-flow fan and the second axial-flow fan, can be according to reality Border refrigerating/heating amount needs, and only opens an axial-flow fan or opens two axial-flow fans, not only more saves, also enrich Air supply pattern, improves Consumer's Experience.Also, the vertical air-conditioner indoor unit of the present invention is provided with a ducting assembly and one Air channel separator, air channel separator separates the space of ducting assembly accommodates the first axial-flow fan and the second through-flow wind respectively Fan, making the air-out of two axial-flow fans will not interfere, and improve air-supply efficiency.In addition, compared to directly two wind of setting The scheme of road component, its structure is simpler, and between two axial-flow fans junction (position because of fan-free, with Relative position heat exchanger section air flow it is poor) it is shorter, the heat exchange of heat exchanging device is advantageously.In addition, the present invention is logical Cross one bearing of setting to match the rotating shaft of two axial-flow fans, make its structure simpler.

Further, vertical air-conditioner indoor unit of the invention makes air outlet be circle, more attractive in appearance.Meanwhile, pendulum leaf is set Put on the framework rather than front panel on the inside of front panel, can conveniently put the design of leaf, install and swing.Because if in circle Air outlet at pendulum leaf is set, multiple pendulum leaves it is different in size, when it swings at air outlet, two ends are also easy by air outlet The limitation of curved edge.

Further, in vertical air-conditioner indoor unit of the invention, the human body information detected according to human body detection device is controlled The operation of the first axial-flow fan and the second axial-flow fan is made, its control more reasonable, complete machine is run and more saves, human feeling It is more comfortable.

According to the accompanying drawings to the detailed description of the specific embodiment of the invention, those skilled in the art will be brighter Above-mentioned and other purposes, the advantages and features of the present invention.

Brief description of the drawings

Some specific embodiments of the present invention are described 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 front schematic view of vertical air-conditioner indoor unit according to an embodiment of the invention；

Fig. 2 is the schematic explosive view of vertical air-conditioner indoor unit shown in Fig. 1；

Fig. 3 is the structural representation of air channel separator in Fig. 2 and bearing；

Fig. 4 is the polycrystalline substance schematic diagram of the air channel separator in Fig. 3；

Fig. 5 is the cooperation schematic diagram in air channel separator shown in Fig. 2, bearing and two axial-flow fans；

Fig. 6 is the back structures schematic diagram of the framework in Fig. 2；

Fig. 7 is the sectional view obtained with a horizontal plane cutting ducting assembly, blower fan and air ducting；

Fig. 8 is the schematic diagram of the motion of air ducting；

Fig. 9 is the structural representation of rocking bar；

Figure 10 is the structural representation of the human body detection device in Fig. 1；

Figure 11 is schematic cross sectional views when human body detection device shown in Figure 10 is installed on front panel.

Embodiment

Fig. 1 is the front schematic view of vertical air-conditioner indoor unit according to an embodiment of the invention；Fig. 2 is shown in Fig. 1 The schematic explosive view of vertical air-conditioner indoor unit.As depicted in figs. 1 and 2, vertical air-conditioner indoor unit of the invention in general manner may be used It is the first axial-flow fan 310 and the second axial-flow fan 320, ducting assembly including casing 100, heat exchanger 200, two axial-flow fans 400 and air channel separator 500.Wherein, receiving space is defined inside casing 100, to accommodate two axial-flow fans and heat exchange Device 200.Casing 100 includes offering vertically disposed multiple air outlets on the front panel 110 positioned at front side, front panel 110 112.The rear side of casing 100 offers air inlet 122.Specifically, the rear side of casing 100 can be air-inlet grille 120, air-inlet grille Air inlet 122 is provided with 120.Heat exchanger 200 is arranged in casing 100, and it is with compressor, condenser, throttling arrangement, be connected Pipeline and other accessories collectively form vapor-compression refrigerant cycle system, realize the refrigerating/heating of air-conditioning, concrete principle and knot Structure will not be repeated here.

First axial-flow fan 310 and the second axial-flow fan 320 are arranged above and below in casing 100, axis is vertically extending and It is conllinear to set.First axial-flow fan 310 and the second axial-flow fan 320 each correspond to a part of air outlet, are configured to promote air Enter casing 100 through air inlet, blown out after being exchanged heat with heat exchanger 200 from corresponding air outlet, realize room air and heat exchanger 200 forced-convection heat transfer, lifts the heat exchange efficiency of heat exchanger 200.

Fig. 3 is the structural representation of air channel separator 500 in Fig. 2 and bearing 510；Fig. 4 is the air channel separator in Fig. 3 500 polycrystalline substance schematic diagram；Fig. 5 is that the cooperation in air channel separator shown in Fig. 2 500, bearing 510 and two axial-flow fans is shown It is intended to.

As shown in Figures 2 to 5, ducting assembly 400 is erected at the week of the first axial-flow fan 310 and the second axial-flow fan 320 Laterally, for air to be drained to forward at multiple air outlets 112 at heat exchanger 200.

As shown in Figure 2 and Figure 7, ducting assembly 400 includes vertical spaced two end plates 430,440, spiral case 410 And snail tongue 420.The motor 328 of the axial-flow fan 320 of motor 318 and second of first axial-flow fan 310 is pacified respectively Loaded on end plate 430 and end plate 440.Spiral case 410, which is erect, to be set and is connected between two end plates 430,440, snail tongue 420 Same erect sets and is connected between two end plates 430,440, and guides air flow jointly with spiral case 410.Air channel point Spacing body 500 is connected between spiral case 410 and snail tongue 420.

Air channel separator 500 is installed on ducting assembly 400 and positioned at the first axial-flow fan 310 and the second axial-flow fan 320 Between, the space that ducting assembly 400 is limited be divided into above and below two parts, be respectively used to accommodate the He of the first axial-flow fan 310 Second axial-flow fan 320, to avoid the air-supply in two axial-flow fans from interfering.Certainly, directly setting two is separate Ducting assembly can also realize above-mentioned functions, but the structure of the ducting assembly 400 of the present invention is simpler, and two through-flows Junction (because of fan-free, the air flow of the heat exchanger section of position is poor in contrast at the position) between fan is shorter, The heat exchange of heat exchanging device 200 is advantageously.

In addition, a bearing 520 is installed on air channel separator 500, the top of bearing 520 and the first axial-flow fan 310 Rotating shaft 311 match, the bottom of bearing 520 is matched with the rotating shaft 321 of the second axial-flow fan 320.

As shown in Figures 3 to 5, air channel separator 500 includes main part 510 to a kind of alternative construction of air channel separator 500, It is used for the space for separating ducting assembly 400.It can be fixed between main part 510 and ducting assembly 400 using mode connects for screw.

There is downward opening tubular receiving space (such as Fig. 4), the upside of tubular receiving space, which has, opens on main part 510 Mouth 513.Bearing 520 is arranged in tubular receiving space, and the upper end of bearing 520 is resisted against the inner side of opening 513, that can not continue Move up, the bearing hole of bearing 520 is revealed by opening 513.The support of bearing 530 withstands axle in the lower section of bearing 520 520 are held, makes its holding position.The support of bearing 530 is connected with main part 510 using snap.Turn of first axial-flow fan 310 Axle 311 inserts bearing hole from the upside of bearing 520；Downside insertion axle of the rotating shaft 321 of second axial-flow fan 320 from bearing 520 Bearing bore.The present embodiment matches the rotating shaft of two axial-flow fans using a bearing 520, compared to the scheme for setting two bearings, Its structure is simpler.The journal bearing that bearing 520 can be commonly used for prior art, is specifically repeated no more.

In certain embodiments, the nominal air delivery of the first axial-flow fan 310 can be made to be more than the specified of the second axial-flow fan 320 Air quantity, makes total area of passage of the corresponding whole air outlets of the first axial-flow fan 310 corresponding complete more than the second axial-flow fan 320 Total area of passage of portion's air outlet.

In the embodiment of the present invention, only by controlling the opening and closing of two axial-flow fans that the air-supply mould of three air quantity shelves can be achieved The switching of formula, air quantity is from small to being followed successively by：Only open the pattern of the second axial-flow fan 320, only open the first axial-flow fan 310 Pattern and the pattern for opening the first axial-flow fan 310 and the second axial-flow fan 320 simultaneously.Also, sent in these three air quantity shelves Under wind pattern, then by changing the wind speed of axial-flow fan, more various air supply pattern can be obtained, to meet the difference of user Demand, lifted Consumer's Experience.

In addition, the embodiment of the present invention is by setting vertically disposed multiple air outlets 112, can be basic in a vertical direction The activity space of human body is covered, the air-conditioning compared to prior art sets the scheme of an air outlet, this hair only at the top of front side The blowing range of bright embodiment is bigger (at least such in the vertical direction).Particularly in a heating mode, because hot blast naturally has On the rise, the air outlet for such as only setting a position higher will be not easy to send hot blast downwards, make the system of indoor bottom space Thermal effect is poor.And the embodiment of the present invention can meet bottom space using the air outlet of bottom to bottom space heat air delivery Heating needs.

In certain embodiments, the first axial-flow fan 310 is made to be located at the top of the second axial-flow fan 320.Because of the first through-flow The nominal air delivery of fan 310 is bigger, when vertical air-conditioner indoor unit is opened, and refrigerating capacity/heating capacity demand is big, the first axial-flow fan 310 possibility being unlocked greatly, be located at upside, that is, be at the height of slightly below Human Height, be easy to It is badly in need of the human peripheral space air-supply of refrigerating/heating.And the second axial-flow fan 320 is located at downside, the air outlet on the downside of its correspondence 112, and air quantity is smaller, primarily serves the effect of the first axial-flow fan 310 of auxiliary.

In certain embodiments, as depicted in figs. 1 and 2, three shape identical air outlets are provided with front panel 110 altogether 112, and it is preferably circular, so that the outward appearance of vertical air-conditioner indoor unit is more attractive in appearance.Meanwhile, make the correspondence of the first axial-flow fan 310 Two of which air outlet 112, another air outlet 112 of the second axial-flow fan 320 correspondence.In addition, as it was previously stated, such as making first Axial-flow fan 310 is located at the top of the second axial-flow fan 320, need to make two air outlets on the upside of the first axial-flow fan 310 correspondence 112, make the air outlet 112 of the second axial-flow fan 320 correspondence lower side.The embodiment of the present invention can be adjusted by air ducting 600 The air-out direction of two air outlets 112 corresponding to the first axial-flow fan 310 is saved, to expand blowing range.

Furthermore it is preferred that making the first axial-flow fan 310 identical with the rotor diameter of the second axial-flow fan 320, and first is set to pass through The length of flow fan 310 is twice of the second axial-flow fan 320, so that the nominal air delivery of the first axial-flow fan 310 is the Twice of the nominal air delivery of two axial-flow fans 320.

In the alternate embodiment that some accompanying drawings are not illustrated, it can also make to be provided with two air outlets on front panel 110 altogether 112, the area of passage of the corresponding air outlet 112 of the first axial-flow fan 310 is the corresponding air outlet 112 of the second axial-flow fan 320 Twice of area of passage, so can also realize the air supply pattern of a variety of air quantity shelves.

In certain embodiments, as shown in Fig. 2 heat exchanger 200 is preferably " U " type heat exchange vertically extending and that opening is facing forward Device, the first axial-flow fan 310 and the second axial-flow fan 320 are located on the inside of the front of heat exchanger 200, and two through-flow wind are made in other words Fan is enclosed by the bread of " U " type heat exchanger three, in the operation of two axial-flow fans, to make thirdly heat exchanger 200 is passed through in face air draught, The rate of air circulation of heat exchanger 200 is improved, and then improves its heat exchange efficiency.

In some alternative embodiments, heat exchanger 200 or flat heat exchanger.

Fig. 6 is the back structures schematic diagram of the framework 610 in Fig. 2；Fig. 7 is with a horizontal plane cutting ducting assembly 400, wind The sectional view that machine and air ducting 600 are obtained；Fig. 8 is the schematic diagram of the motion of air ducting 600；Fig. 9 is rocking bar 630 Structural representation.Fig. 6 only illustrates a pendulum leaf group, and two pendulum leaf groups of downside are hidden.

As shown in Fig. 2, Fig. 6 to Fig. 9, in some embodiments of the invention, multiple air outlets 112 of vertical air-conditioner indoor unit It is circle, so that it is more attractive in appearance.Also, vertical air-conditioner indoor unit also includes air ducting 600, for guiding air outlet 112 air-out direction.Air ducting 600 includes a framework 610 and multiple pendulum leaf groups.Framework 610 is arranged on front panel 110 Inner side, it sets multiple square apertures 612,614,616 relative one by one with air outlet 112.Multiple pendulum leaf groups and multiple air-out Mouth 112 is matched one by one, and each pendulum leaf group is arranged at a square aperture.Each pendulum leaf group be parallel to each other including length direction and Multiple pendulum leaves 620 of framework 610 are may be pivotally mounted to respectively, and are configured to make multiple pendulum leaves 620 to change to pivot in unison The air-out direction of air outlet 112.

The embodiment of the present invention has larger because being provided with multiple vertically disposed air outlets 112 in vertical direction Coverage, therefore preferably make the pendulum leaf 620 of each pendulum leaf group vertically extending, it is adjusted air-supply in swing process Left and right directions.

As shown in fig. 7, it is preferred that making spiral case 410 and snail tongue 420 be connected to the transverse ends of framework 610, so as to which wind is direct Guide at the pendulum leaf 620 installed to framework 610, the flow direction of wind is as depicted by the arrows in figure 7.

As shown in Figures 6 to 9, each air ducting 600 also includes drive device, and each drive device is used to drive one Leaf group is put, each drive device includes motor 640, main rocker 630, connecting rod 660 and multiple rocking bars 630.Wherein, motor 640 It is installed on framework 610.One end of main rocker 630 is fixedly connected on the rotating shaft of motor, is swung with the driving by motor, main rocker 630 other end is articulated with connecting rod 660.Multiple rocking bars 630 are matched one by one with putting multiple pendulum leaves 620 of leaf group, each rocking bar 630 One end be fixedly connected on the pivotal axis of pendulum leaf 620, the other end is articulated with connecting rod 660.Need the air-out side of regulation air outlet 112 Xiang Shi, controllable motor 640 is rotated, and makes it drive main rocker 630 to swing, the drivening rod 660 of main rocker 630 is translated, connecting rod 660 Multiple synchronous huntings of rocking bar 630 are driven, multiple rocking bars 630 drive multiple pendulum pivot in unison of leaf 620.Motor 640 is preferably to rotate The more preferable stepper motor of process control.

Figure 10 is the structural representation of the human body detection device 800 in Fig. 1；Figure 11 is human body detection device shown in Figure 10 800 are installed on schematic cross sectional views during front panel 110.

As shown in Fig. 1, Figure 10 and Figure 11, in some embodiments of the invention, vertical air-conditioner indoor unit also includes people's physical examination Survey device 800.Human body detection device 800 is configured to detect indoor human body information, and human body information includes number, human body temperature, people Body position.Master control borad is configured to according to human body information, and the first axial-flow fan 310 of control and the second axial-flow fan 320 are while or select One opens, and controls the wind speed or the wind direction of air outlet 112 of the first axial-flow fan 310 and the second axial-flow fan 320.

For example, the occupancy that master control borad can be detected according to human body detection device 800 controls the unlatching of two axial-flow fans And closing.When number is less than m, the second axial-flow fan 320 is only opened, when number is less than n more than m, unlatching only opens second Axial-flow fan 320, when number is more than n, while opening two axial-flow fans.Also, opened in one or two axial-flow fan Afterwards, can also be according to how much controlled wind speeds of number.

The human body temperature that master control borad can also be detected according to human body detection device 800 controls the unlatching quantity or wind of axial-flow fan Speed, when human body temperature and human comfort's temperature difference are larger, master control borad is to judge that human body is warmmer or colder, can now open more and pass through Flow fan increases its wind speed, to accelerate to freeze or heat speed.

The position of human body that master control borad can also be detected according to human body detection device 800 controls the wind direction of axial-flow fan, to reach Cold wind keeps away people, and the effect that hot blast heads on is that human body is more comfortable.

The concrete structure of human body detection device 800 is as shown in Figure 10 and Figure 11.Human body detection device 800 may include that front side is spacious The mounting box 840 opened, spherical shell 810, spherical shell motor 830 and warm creeping chill sensor 820.Wherein, mounting box 840 is arranged on The inner side of the front panel 110.Spherical shell 810 can be rotatably arranged in mounting box 840 around a vertical axis X1, and its front portion is logical Cross the circular hole opened up on front panel 110 and protrude out front panel 110, to carry out detection.Spherical shell 810 can be spliced by two hemispherical Shells Form, the front side of spherical shell 810 has perforate 812.The motor of spherical shell 810 is arranged at mounting box 840, for driving spherical shell 810 Rotation.Warm creeping chill sensor 820 is used to detect foregoing human body information, and it is fixed in spherical shell 810 and its probe is located at perforate Place, to allow light to enter probe.Warm creeping chill sensor 820 can be infrared ray sensor.

The embodiment of the present invention can be significantly greatly increased it and detect model by making spherical shell 810 be rotated with dynamic temperature creeping chill sensor 820 Enclose.As shown in figure 1, human body detection device 800 is preferably provided at the top of front panel 110, also for increase detection range.

In certain embodiments, human body detection device 800 also includes opening hemispherical shutter 850 facing forward.Hemispherical Shutter 850 is spaced apart and arranged in the rear side of spherical shell 810 with spherical shell 810, and is fixed on mounting box 840.Human body detection device 800 is matched somebody with somebody It is set to when spherical shell 810 turns to the detection light path for making hemispherical shutter 850 block warm creeping chill sensor 820 completely, makes temperature Creeping chill sensor 820 only detects indoor temperature.That is, when the probe of warm creeping chill sensor 820 turns to rear side, its nothing Method receives the infrared signal that interior space human body is sent, therefore it is only detected indoor temperature, it is to avoid error detection.

So far, although those skilled in the art will appreciate that detailed herein have shown and described multiple showing for the present invention Example property embodiment, still, still can be direct according to present disclosure without departing from the spirit and scope of the present invention 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 recognized It is set to and covers other all these variations or modifications.

Claims (10)

1. a kind of vertical air-conditioner indoor unit, including：

Vertically disposed multiple air outlets are offered on casing, its front panel, rear side offers air inlet；

Heat exchanger, is arranged in the casing；

First axial-flow fan and the second axial-flow fan, be arranged above and below in the casing, axis it is vertically extending and it is conllinear set, And be respectively configured to promote air to enter the casing through the air inlet, from corresponding air outlet after being exchanged heat with the heat exchanger Blowout；

Ducting assembly, is erected at the outer circumferential of first axial-flow fan and second axial-flow fan, for by air from It is drained to forward at the multiple air outlet at the heat exchanger；

Air channel separator, be installed on the ducting assembly and positioned at first axial-flow fan and second axial-flow fan it Between, the space that the ducting assembly is limited be divided into above and below two parts, to accommodate first axial-flow fan and institute respectively State the second axial-flow fan；With

Bearing, in the air channel separator, the bearing top is matched with the rotating shaft of first axial-flow fan, described Bearing bottom is matched with the rotating shaft of second axial-flow fan.

2. vertical air-conditioner indoor unit according to claim 1, wherein the ducting assembly includes：

Vertical spaced two end plates, the drive of the motor of first axial-flow fan and second axial-flow fan Dynamic motor is respectively arranged in two end plates；

Spiral case, erects and sets and be connected between described two end plates；

Snail tongue, erects and sets and be connected between described two end plates, and guide air flow jointly with the spiral case；And

The air channel separator is connected between the spiral case and the snail tongue.

3. vertical air-conditioner indoor unit according to claim 1, wherein

The multiple air outlet is circle；

The vertical air-conditioner indoor unit also includes air ducting, and the air ducting includes：

Framework, is arranged on the inner side of the front panel；With

Multiple pendulum leaf groups, are matched one by one with the multiple air outlet, each pendulum leaf group be parallel to each other including length direction and Multiple pendulum leaves of the framework are may be pivotally mounted to respectively, and are configured to make the multiple pendulum leaf to change to pivot in unison institute State the air-out direction of air outlet；And

The spiral case and the snail tongue each extend over the both lateral sides for being posted by the framework, by air towards the air outlet Guiding.

4. vertical air-conditioner indoor unit according to claim 3, wherein

Vertically direction extends the length direction of the pendulum leaf of the multiple pendulum leaf group.

5. vertical air-conditioner indoor unit according to claim 1, wherein

Three shape identical air outlets are provided with the front panel altogether；And

The first axial-flow fan correspondence two of which air outlet, another air outlet of the second axial-flow fan correspondence.

6. vertical air-conditioner indoor unit according to claim 1, wherein

It is provided with two air outlets on the front panel altogether, the area of passage of the corresponding air outlet of first axial-flow fan is institute State the area of passage of the corresponding air outlet of the second axial-flow fan twice.

7. the vertical air-conditioner indoor unit according to claim 5 or 6, wherein

First axial-flow fan is identical with the rotor diameter of second axial-flow fan；And

The length of first axial-flow fan is twice of second axial-flow fan.

8. the vertical air-conditioner indoor unit according to claim 5 or 6, wherein

First axial-flow fan is located at the top of second axial-flow fan.

9. vertical air-conditioner indoor unit according to claim 1, wherein

The heat exchanger is vertically extending and opening " U " type heat exchanger facing forward, and first axial-flow fan and described second is passed through Flow fan is located on the inside of the front of the heat exchanger.

10. vertical air-conditioner indoor unit according to claim 1, in addition to：

Human body detection device, is configured to detect indoor human body information, the human body information includes number, human body temperature, people's position Put；And

Master control borad, is configured to, according to the human body information, control first axial-flow fan and second axial-flow fan simultaneously Or a unlatching is selected, and control wind speed or the air-supply side of the air outlet of first axial-flow fan and second axial-flow fan To.