CN208025676U - Vertical air conditioner equipment - Google Patents

Abstract

The utility model provides a kind of vertical air conditioner equipment, including：Include the cabinet of the first shell and second shell that are oppositely arranged, air inlet is provided in first shell, air outlet and lower air outlet are provided in second shell；The upper air duct and lower air duct that it blowing machine accommodating chamber that the header assemblies being set in cabinet, which construct, is located at wind turbine accommodating chamber both sides and is connected to wind turbine accommodating chamber；Flow-guiding structure is arranged between wind turbine accommodating chamber and second shell, and the air inlet of upper air duct is closed for the air inlet of closing lower air duct when vertical air conditioner equipment is in refrigeration mode and when vertical air conditioner equipment is in heating mode；The multiple axial flow blowers horizontally disposed in an axial direction being arranged in wind turbine accommodating chamber, for sucking in cabinet air by air inlet, and it will be discharged or will be discharged from lower air outlet through lower air duct by heating the air of processing from upper air outlet through upper air duct by the air of refrigeration processing.The program is effectively improved temperature governing speed and equipment operating efficiency.

Description

Vertical air conditioner equipment

Technical field

The utility model is related to field of air conditioning, in particular to vertical air conditioner equipment.

Background technology

Currently, existing vertical air conditioner equipment mainly uses centrifugal blower or cross flow fan, make equipment overall structure Volume is larger, is unfavorable for realizing miniaturization setting.

Moreover, the air outlet and air inlet setting typically air outlet of general vertical air conditioner equipment are located above, air inlet Positioned at lower section or the back side, in this way, either cold wind or hot wind are come out from top, air-out mode is single, and temperature tune Section speed is slow, cannot adapt to the operating mode of heating outlet air and outlet air of freezing simultaneously, cause human comfort poor, and its air port and wind turbine Wind wheel structure limit the improvement of its heating effect.

Utility model content

At least one in order to solve the above-mentioned technical problem, the purpose of this utility model is to provide a kind of vertical air conditioners to set It is standby.

To achieve the above object, the embodiments of the present invention provide a kind of vertical air conditioner equipment, including：Cabinet, institute It includes the first shell and second shell being oppositely arranged to state cabinet, and air inlet, the second shell are provided in the first shell Air outlet and lower air outlet are provided on body；Header assemblies are set in the cabinet, and the header assemblies construct Wind turbine accommodating chamber and the upper air duct and leeward for being located at wind turbine accommodating chamber both sides and being connected to the wind turbine accommodating chamber Road；Flow-guiding structure is arranged between the wind turbine accommodating chamber and the second shell, is in for working as the vertical air conditioner equipment The air inlet of the lower air duct is closed when refrigeration mode and when the vertical air conditioner equipment is in heating mode described in closing The air inlet of upper air duct；Multiple axial flow blowers horizontally disposed in an axial direction are arranged in the wind turbine accommodating chamber, the multiple axis Flow fan is used to by the air inlet suck air in the cabinet, and by the air by refrigeration processing through the upper air duct It is discharged from the lower air outlet from the upper air outlet discharge or by the air by heating processing through the lower air duct.

Vertical air conditioner equipment described in the utility model above-described embodiment sets up air inlet and air outlet separately opposite in equipment On two shells being arranged, and the same side be arranged two air outlets, and by header assemblies construct respectively with upper outlet air Mouth, the corresponding upper air duct of lower air outlet and lower air duct are constructed when vertical air conditioner equipment is run by being located at header assemblies Wind turbine accommodating chamber in multiple axial flow blowers horizontally disposed in an axial direction by air by air inlet sucking cabinet in, then will pass through The air of refrigeration processing is discharged by upper air outlet through upper air duct and arranges the air of heating processing by lower air outlet through lower air duct Go out, hot-air so can then be made to start to be located at lower position, and since hot-air gentlier can be positioned at more compared to cold air At high position, therefore start constantly rise positioned at the hot-air of lower position, can be mixed with the cold air of top in the process Even, mixing efficiency higher is effectively improved the temperature governing speed and operational efficiency of vertical air conditioner equipment, improves user and relaxes Appropriateness experience；Specifically, by the way that the water conservancy diversion knot between the wind turbine accommodating chamber and the second shell of cabinet of header assemblies is arranged Structure realizes the switching be in the wind between lower air duct, the flow-guiding structure in equipment refrigerating operaton for close lower air duct into Air port and the air inlet in equipment heating operation for closing upper air duct, are gone out when to realize refrigerating operaton by upper air outlet By lower air outlet when wind and heating operation, and multiple axial flow blowers are in the state of high-efficiency operation in the process, realize Wind turbine resource is made full use of, avoiding has in equipment outlet air wind turbine not work idle situation, will not cause wind turbine The wasting of resources；And by using multiple axial flow blowers horizontally disposed in an axial direction, while ensuring that there is larger air output, Air supplying distance is remote and can reduce wind energy loss, effectively to promote air supply efficiency.

In addition, the vertical air conditioner equipment in above-described embodiment provided by the utility model can also have following supplementary technology Feature：

In above-mentioned technical proposal, it is preferable that the header assemblies include the first current collector being mutually butted and the second collection Flow device；Wherein, be provided in first current collector the first sub- accommodating chamber for accommodating axial flow blower and respectively with it is described First sub- accommodating chamber connected the first wind deflector and the second wind deflector are provided with for accommodating axis stream wind in second current collector Second sub- accommodating chamber of machine and the upper air duct being connected to respectively with the described second sub- accommodating chamber and the lower air duct, wherein institute The first sub- accommodating chamber is stated to dock to form the wind turbine accommodating chamber with the described second sub- accommodating chamber.

In the present solution, multiple axial flow blowers horizontally disposed in an axial direction to be placed in two be mutually butted of header assemblies In a current collector, wherein being provided with the sub- accommodating chamber for accommodating axial flow blower in each current collector, then it is located at the first current collector In the first sub- accommodating chamber combine to form wind turbine accommodating chamber with the second sub- accommodating chamber in the second current collector, and respectively correspond on The upper air duct and lower air duct of air outlet and lower air outlet are specifically placed in the second current collector；And in order to by axial flow blower efficiently In air-supply to corresponding air duct, it is provided with the wind deflector being connected with the first sub- accommodating chamber in the first current collector, realizes to air-flow It is oriented to, the scavenging efficiency for improving axial flow blower while further increases wind energy utilization, reduces the loss to wind energy.

In any of the above-described technical solution, it is preferable that the vertical air conditioner equipment further includes：Heat exchanger, the heat exchanger are set It sets between the air inlet and first current collector, is located in the first shell.

In the present solution, heat exchanger is specifically placed in the inside of vertical air conditioner equipment inlet side and it is made to be completely in air inlet In the access that mouth is flowed to air between air outlet, effectively to increase heat exchange area, the utilization rate of heat exchanger is effectively improved.

In any of the above-described technical solution, it is preferable that be provided with and be located above the air inlet in the first shell With the first wind shutter and the second wind shutter of lower section；The one end of first wind deflector not being connected with the described first sub- accommodating chamber It is provided with the first flanging, the one end of second wind deflector not being connected with the described first sub- accommodating chamber is provided with the second flanging； Wherein, first flanging is connected to first wind shutter and second flanging is connected to second wind shutter, and The heat exchanger is placed in the first shell and first current collector surrounded by the wind shutter and wind deflector of interconnection In region.

In the present solution, in order to ensure the air sucked through air inlet is fully exchanged heat through heat exchanger, can pass through Wind shutter for preventing air-flow from leaking hunting is set in first shell, and by between the flanging on two pairs of wind shutters and wind deflector It is effective connection heat exchanger is placed in specific region.

Further, in this programme can by respectively wind shutter and the flanging of wind deflector corresponding position open up it is logical Hole, and then be fixedly connected by modes such as screw bolt and nut.

In any of the above-described technical solution, it is preferable that the flow-guiding structure includes：Positioning region, windshied part and driving motor；Its In, the windshied part is fixedly connected on by the positioning region in the second shell, and the driving motor is described for driving Windshied part along the positioning region central axis rotate so that the windshied part close the upper air duct air inlet or it is described under The air inlet in air duct.

In the present solution, specifically flow-guiding structure is arranged to drive its windshied part in its positioning region by driving motor The form of mandrel line rotation, enables windshied part to close the air inlet of lower air duct when vertical air conditioner equipment is in cooling condition, Refrigeration outlet air only is carried out from upper air outlet, and the air inlet of upper air duct can be closed when vertical air conditioner equipment is in heating condition Mouthful, only heating outlet air is carried out from lower air outlet, effectively outlet air switching between air outlet, lower air outlet in realizations.

In any of the above-described technical solution, it is preferable that the windshied part includes semicolumn plate and semi arch plate, the semi arch Plate is connect with one end round-corner transition of the semicolumn plate, and the semi arch plate is connected to the positioning region.

In the present solution, windshied part can be specifically arranged to the semi arch plate and semicolumn of integral rounding off connection Plate is docked by semi arch plate, semicolumn plate with the sealing of the air inlet in air duct, it is ensured that only pass through one of upper air duct and lower air duct Carry out outlet air.

Further, the positioning region in this programme is preferably provided in the center location of semi arch plate.

In any of the above-described technical solution, it is preferable that be provided with the positioning being adapted to the positioning region in the second shell Hole, the location hole is between the upper air outlet and the lower air outlet.

In the present solution, especially by positioning region and opening up the cooperation between location hole on the second housing and realizing to leading The fixation of flow structure, so that windshied part can be rotated in the driving of driving motor around fixed axis.

In any of the above-described technical solution, it is preferable that the upper air duct and the lower air duct are curve air duct and described The circulation area of the air inlet of upper air duct is less than the circulation area of the air outlet of the upper air duct, the air inlet of the lower air duct Circulation area is less than the circulation area of the air outlet of the lower air duct.

In the present solution, in order to ensure air output, wind energy loss is further decreased, upper air duct and lower air duct can be arranged For curve air duct, the fluency of air-flow flowing is improved, while reducing noise；Further by the circulation of the air inlet in two air ducts Area is set as the circulation area of the air outlet to should be less than two air ducts, and air-flow F.F. in corresponding air duct can be made slow Go out, reduction wind energy is in air duct while the loss of transmission process, it is ensured that air-out area, to be conducive to improve vertical air conditioner The refrigeration or heating efficiency of equipment promote the comfort level experience of user.

Further, in any of the above-described technical solution, the multiple axial flow blower correspondence includes multiple axial-flow windwheels, described Per two adjacent axial-flow windwheels reversely to rotation in multiple axial-flow windwheel rotating Vortexes or the multiple axial-flow windwheel, to ensure State the outlet air in the same direction of multiple axial flow blowers.

In any of the above-described technical solution, it is preferable that the quantity of the multiple axial flow blower is 2, including horizontal phase in an axial direction To the first axial flow blower and the second axial flow blower of setting, wherein first axial flow blower is located at the described first sub- accommodating chamber In, include the first axial-flow windwheel and first motor of interconnection, second axial flow blower is located at the described second sub- accommodating chamber In, including the second axial-flow windwheel of interconnection and the second motor and the first motor be oppositely arranged with the air inlet, Level is oppositely arranged first axial-flow windwheel in an axial direction and wind wheel turns on the contrary, second electricity with second axial-flow windwheel Machine is oppositely arranged with the flow-guiding structure.

It is separately positioned in different sub- accommodating chambers in the present solution, preferably may be used two and reversely rotation is arranged Axial flow blower blow, can not only reduce wind turbine the space occupied in vertical air conditioner equipment, can also suitably reduce The volume of equipment overall structure is to reduce the space of hold facility, and by by the axial-flow windwheel of two axial flow blowers water in an axial direction It is flat to may further ensure that air supply efficiency to revolving to be arranged take a breath blowing, reduce wind energy and is lost；It is further to ensure two axis Stream wind wheel is not influenced when mutually rotating by other side, has certain gap between two axial flow blowers.

In any of the above-described technical solution, it is preferable that the vertical air conditioner equipment further includes：Air-inlet grille, it is described into style Grid are arranged in the air inlet；First air outlet grate and the second air outlet grate, first air outlet grate and described second go out One in style grid be arranged at the upper air outlet, another is arranged at the lower air outlet；Chassis, the cabinet branch It supports on the chassis.

In the present solution, carry out dust-and-foreign-object-proof effect inside vertical air-conditioning equipment to play, can exist respectively Corresponding grid is set at air inlet and two air outlet positions, to close off corresponding opening when equipment is out of service, It avoids influencing the refrigeration and heating effect of air-conditioning equipment, and ensures that equipment has longer service life, while in order to ensure vertical Its cabinet can be installed on chassis by the placement stability of formula air-conditioning equipment.

Further, this programme into filter screen can be arranged at one's intention as revealed in what one says, to play further dust-and-foreign-object-proof effect, Ensure that there is equipment longer service life, especially heat exchanging device to play a protective role.

The additional aspect and advantage of the utility model will become apparent in following description section, or new by this practicality The practice of type is recognized.

Description of the drawings

The above-mentioned and/or additional aspect and advantage of the utility model will in the description from combination following accompanying drawings to embodiment Become apparent and is readily appreciated that, wherein：

Fig. 1 is the decomposition texture schematic diagram of the vertical air conditioner equipment described in the utility model embodiment；

Fig. 2 is the assembling schematic diagram of the vertical air conditioner equipment described in the utility model embodiment；

Illustrate the position of flow-guiding structure when Fig. 3 is the vertical air conditioner equipment refrigerating operaton described in the utility model embodiment Figure；

Illustrate the position of flow-guiding structure when Fig. 4 is the vertical air conditioner equipment heating operation described in the utility model embodiment Figure；

Fig. 5 is the structural schematic diagram of the first axial flow blower shown in Fig. 1；

Fig. 6 is the structural schematic diagram of the second axial flow blower shown in Fig. 1；

Fig. 7 is the structural schematic diagram of the first current collector shown in Fig. 1；

Fig. 8 is the structural schematic diagram of the second current collector shown in Fig. 1；

Fig. 9 is the structural schematic diagram of first shell shown in Fig. 1；

Figure 10 is the structural schematic diagram of flow-guiding structure shown in Fig. 1.

Wherein, the reference numeral in Fig. 1 to Figure 10 and the correspondence between component names are：

10 cabinets, 102 first shells, 1022 air inlets, 1,024 first wind shutters, 1,026 second wind shutters, 104 second shells Body, air outlet on 1042,1044 times air outlets, 1046 location holes, 20 chassis, 30 air-inlet grilles, 40 header assemblies, 402 One current collector, 4,022 first sub- accommodating chambers, 4,024 first wind deflectors, 40,242 first flangings, 4,026 second wind deflectors, 40,262 Two flangings, 404 second current collectors, 4,042 second sub- accommodating chambers, 4044 upper air ducts, 4046 lower air ducts, 50 flow-guiding structures, 502 is fixed Position portion, 504 windshied parts, 5042 semi arch plates, 5044 semicolumn plates, 60 first axial flow blowers, 602 first axial-flow windwheels, 604 One motor, 70 second axial flow blowers, 702 second axial-flow windwheels, 704 second motors, 80 heat exchangers.

Specific implementation mode

In order to be more clearly understood that the above objects, features, and advantages of the utility model, below in conjunction with the accompanying drawings and have The utility model is further described in detail in body embodiment.It should be noted that in the absence of conflict, this Shen The feature in embodiment and embodiment please can be combined with each other.

Many details are elaborated in the following description in order to fully understand the utility model, still, this practicality Novel to be implemented different from other modes described here using other, therefore, the scope of protection of the utility model is simultaneously It is not limited by following public specific embodiment.

The vertical air conditioner equipment of the utility model embodiment is specifically described with reference to Fig. 1 to Figure 10.

As shown in Figure 1, the vertical air conditioner equipment according to the utility model embodiment includes：Cabinet 10 and chassis 20, The cabinet 10 is supported on the chassis 20.

It is understood that in order to ensure the placement stability of vertical air conditioner equipment, its cabinet 10 can be installed on bottom On disk 20.

Further, as depicted in figs. 1 and 2, the cabinet 10 includes the first shell 102 and second shell being oppositely arranged 104, be provided with air inlet 1022 in the first shell 102, be provided in the second shell 104 air outlet 1042 and under Air outlet 1044.

Further, the vertical air conditioner equipment further includes：Air-inlet grille 30, the first air outlet grate and the second air outlet grate (not shown)；

Wherein, the air-inlet grille 30 is arranged at the air inlet 1022, as shown in Fig. 1 and Fig. 9；First outlet air One in grid and second air outlet grate be arranged at the upper air outlet 1042, another is arranged in the lower outlet air At mouth 1044.

It is understood that carrying out dust-and-foreign-object-proof effect inside vertical air-conditioning equipment to play, can distinguish Corresponding grid is set at air inlet 1022 and two air outlet (1042 and 1044) positions, in the equipment time-division out of service Corresponding opening is not closed, avoids the refrigeration and heating effect that influence air-conditioning equipment, and ensures that equipment uses the longevity with longer Life.

Further, as shown in Figure 1, the three-dimensional air-conditioning equipment of the utility model embodiment further includes：Header assemblies 40, Flow-guiding structure 50 and multiple axial flow blowers horizontally disposed in an axial direction.

Wherein, the header assemblies 40 are set in the cabinet 10, and the header assemblies 40 construct blowing machine and hold Receive chamber and the upper air duct 4044 and lower air duct that are located at wind turbine accommodating chamber both sides and are connected to the wind turbine accommodating chamber 4046；The flow-guiding structure 50 is arranged between the wind turbine accommodating chamber and the second shell 104, and the flow-guiding structure 50 is used In the air inlet for closing the lower air duct 4046 when the vertical air conditioner equipment is in refrigeration mode, as shown in figure 3, and institute Air inlet of the flow-guiding structure 50 for closing the upper air duct 4044 when the vertical air conditioner equipment is in heating mode is stated, such as Shown in Fig. 4；Multiple axial flow blowers horizontally disposed in an axial direction are arranged in the wind turbine accommodating chamber, the multiple axial flow blower For air to be sucked by the air inlet 1022 in the cabinet 10, and by the air by refrigeration processing through the upper air duct 4044 be discharged from the upper air outlet 1042 or by the air by heating processing through the lower air duct 4046 from the lower outlet air Mouth 1044 is discharged.

Air inlet 1022 and air outlet are set up separately two be oppositely arranged in equipment by the vertical air conditioner equipment in the embodiment On shell, and the same side be arranged two air outlets (1042 and 1044), and by header assemblies 40 construct respectively with it is upper Air outlet 1042,1044 corresponding upper air duct 4044 of lower air outlet and lower air duct 4046 pass through when vertical air conditioner equipment is run In the wind turbine accommodating chamber that header assemblies 40 construct multiple axial flow blowers horizontally disposed in an axial direction by air by entering the wind Mouthfuls 1022 suck in cabinets 10, then will be discharged by upper air outlet 1042 through upper air duct 4044 by the air of refrigeration processing and The air of heating processing is discharged through lower air duct 4046 by lower air outlet 1044, then hot-air can so started positioned at relatively low Position, and since hot-air can gentlier be located at higher position compared to cold air, therefore start the heat positioned at lower position Air can constantly rise, and can be uniformly mixed in the process with the cold air of top, and mixing efficiency higher is effectively improved vertical sky The temperature governing speed and operational efficiency for adjusting equipment improve users'comfort experience.

Specifically, by being arranged between the wind turbine accommodating chamber of header assemblies 40 and the second shell 104 of cabinet 10 Flow-guiding structure 50 realizes the switching being in the wind between 4044 and lower air duct 4046, and the flow-guiding structure 50 is in equipment refrigerating operaton Air inlet for closing lower air duct 4046 and the air inlet in equipment heating operation for closing upper air duct 4044, to When realizing refrigerating operaton by when 1042 outlet air of upper air outlet and heating operation by 1044 outlet air of lower air outlet, and it is multiple in the process Axial flow blower is in the state of high-efficiency operation, realizes and is made full use of to wind turbine resource, and avoiding has in equipment outlet air Wind turbine does not work idle situation, will not cause the wind turbine wasting of resources.

Moreover, by using multiple axial flow blowers horizontally disposed in an axial direction, while ensuring that there is larger air output, Air supplying distance is remote and can reduce wind energy loss, effectively to promote air supply efficiency.

Further, in the above-described embodiments, as shown in Figure 1, the header assemblies 40 include first be mutually butted Current collector 402 and the second current collector 404.

As shown in fig. 7, being provided with the first sub- accommodating chamber 4022 for accommodating axial flow blower in first current collector 402 And the first wind deflector 4024 and the second wind deflector 4026 being connected respectively with the described first sub- accommodating chamber 4022；As shown in figure 8, The second sub- accommodating chamber 4042 for accommodating axial flow blower is provided in second current collector 404 and respectively with described second The upper air duct 4044 and the lower air duct 4046 that sub- accommodating chamber 4042 is connected to.The wherein described first sub- accommodating chamber 4022 and institute It states the docking of the second sub- accommodating chamber 4042 and forms the wind turbine accommodating chamber.

In this embodiment, multiple axial flow blowers horizontally disposed in an axial direction are placed in being mutually butted for header assemblies 40 Two current collectors in, wherein be provided with the sub- accommodating chamber for accommodating axial flow blower in each current collector, be then located at the first collection The first sub- accommodating chamber 4022 in stream device 402 combines to form wind turbine appearance with the second sub- accommodating chamber 4042 in the second current collector 404 Receive chamber, and the upper air duct 4044 and lower air duct 4046 of corresponding upper air outlet 1042 and lower air outlet 1044 are specific respectively is placed in the In two current collectors 404；And in order to efficiently be blown by axial flow blower into corresponding air duct, it is arranged in the first current collector 402 There is the wind deflector being connected with the first sub- accommodating chamber 4022, realizes to the guiding of air-flow, improve the same of the scavenging efficiency of axial flow blower When further increase wind energy utilization, reduce the loss to wind energy.

Further, in the above-described embodiments, as shown in Figure 1, the vertical air conditioner equipment further includes：Heat exchanger 80, institute It states heat exchanger 80 to be arranged between the air inlet 1022 and first current collector 402, be located in the first shell 102.

In this embodiment, heat exchanger 80 is specifically placed in the inside of vertical air conditioner equipment inlet side and it is made to be completely in In the access that air inlet 1022 is flowed to air between air outlet, effectively to increase heat exchange area, heat exchanger is effectively improved 80 utilization rate.

It is possible to further in the vertical air conditioner equipment of the embodiment into filter screen is arranged at one's intention as revealed in what one says 1022, to play Further dust-and-foreign-object-proof effect, it is ensured that there is equipment longer service life, especially heat exchanging device 80 to play protection work With.

Further, in the above-described embodiments, it is provided in the first shell 102 and is located at the air inlet 1022 Above and below the first wind shutter 1024 and the second wind shutter 1026, as shown in Figure 9；First wind deflector 4024 not with The connected one end of the first sub- accommodating chamber 4022 is provided with the first flanging 40242, second wind deflector 4026 not with institute It states the connected one end of the first sub- accommodating chamber 4022 and is provided with the second flanging 40262, as shown in Figure 7；Wherein, first flanging 40242 are connected to first wind shutter 1024 and second flanging 40262 is connected to second wind shutter 1026, and The wind shutter and wind-guiding that the heat exchanger 80 is placed in the first shell 102 and first current collector 402 passes through interconnection In the region that plate surrounds, as shown in Figure 3 and Figure 4.

In this embodiment, in order to ensure the air sucked through air inlet 1022 is fully exchanged heat through heat exchanger 80, Can be by the way that the wind shutter for preventing air-flow from leaking hunting be arranged in first shell 102, and pass through two pairs of wind shutters and wind deflector On flanging between it is effective connection heat exchanger 80 is placed in specific region.

It is understood that specifically can by respectively wind shutter and the flanging of wind deflector corresponding position open up it is logical Hole, and then be fixedly connected by modes such as screw bolt and nut；Certainly it can also be adopted in the utility model other embodiment The flanging of wind shutter and wind deflector is fixed in other ways.Wherein it is possible to which wind shutter is fixed to first by modes such as welding On shell 102.

Further, in the above-described embodiments, as shown in Figure 10, the flow-guiding structure 50 includes：Positioning region 502 is kept out the wind Portion 504 and driving motor (not shown)；Wherein, the windshied part 504 is fixedly connected on described by the positioning region 502 In second shell 104, the driving motor is used to drive central axis of the windshied part 504 along the positioning region 502 to rotate, So that the windshied part 504 closes the air inlet of the upper air duct 4044 or the air inlet of the lower air duct 4046.

In this embodiment, specifically flow-guiding structure 50 is arranged to drive its windshied part 504 around it to determine by driving motor The form of the central axis rotation in position portion 502, under enabling windshied part 504 to be closed when vertical air conditioner equipment is in cooling condition The air inlet in air duct 4046 only carries out refrigeration outlet air from upper air outlet 1042, and is in heating condition in vertical air conditioner equipment When can close the air inlet of upper air duct 4044, only carry out heating outlet air from lower air outlet 1044, air outlet 1042 in realization, under Effectively outlet air switches between air outlet 1044.

Further, in the above-described embodiments, as shown in Figure 10, the windshied part 504 includes semicolumn plate 5044 and half Arc plate 5042, the semi arch plate 5042 is connect with one end round-corner transition of the semicolumn plate 5044, and the semi arch Plate 5042 is connected to the positioning region 502.

In this embodiment, windshied part 504 can be specifically arranged to the semi arch plate 5042 of integral rounding off connection It with semicolumn plate 5044, is docked with the sealing of the air inlet in air duct by semi arch plate 5042, semicolumn plate 5044, it is ensured that only logical It crosses one of upper air duct 4044 and lower air duct 4046 and carries out outlet air.

Specifically, the positioning region 502 in our embodiment is preferably provided in the center location of semi arch plate 5042.

Further, in this embodiment, as shown in Figure 1, being provided in the second shell 104 and the positioning region The location hole 1046 of 502 adaptations, the location hole 1046 is between the upper air outlet 1042 and the lower air outlet 1044.

In this embodiment, especially by between positioning region 502 and the location hole being opened in second shell 104 1046 The fixation to flow-guiding structure 50 is realized in cooperation, so that windshied part 504 can be revolved in the driving of driving motor around fixed axis Turn.

Further, in the above-described embodiments, as shown in Figure 3 and Figure 4, the upper air duct 4044 and the lower air duct 4046 It is that the circulation area of the air inlet of curve air duct and the upper air duct 4044 is less than the air outlet of the upper air duct 4044 Circulation area, the circulation area of the air inlet of the lower air duct 4046 are less than the circulating face of the air outlet of the lower air duct 4046 Product.

In this embodiment, in order to ensure air output, wind energy loss is further decreased, it can be by upper air duct 4044 and leeward Road 4046 is set as curve air duct, improves the fluency of air-flow flowing, while reducing noise；Further by the air inlet in two air ducts The circulation area of mouth is set as the circulation area of the air outlet to should be less than two air ducts, can make air-flow in corresponding air duct F.F. goes out slowly, and reduction wind energy is in air duct while the loss of transmission process, it is ensured that air-out area, it is vertical to be conducive to improve The refrigeration or heating efficiency of formula air-conditioning equipment promote the comfort level experience of user.It should be noted that the wind that the present embodiment is pointed out The relativeness of the air inlet and air outlet circulation area size in road, but the area in air port is not intended to limit along the outlet air side in air duct To incremented by successively.

Further, in the above-described embodiments, the multiple axial flow blower correspondence includes multiple axial-flow windwheels, the multiple It is described more to ensure per two adjacent axial-flow windwheels reversely to rotation in axial-flow windwheel rotating Vortex or the multiple axial-flow windwheel A axial flow blower outlet air in the same direction.

Further, in the above-described embodiments, the quantity of the multiple axial flow blower is 2, including horizontal in an axial direction opposite The first axial flow blower 60 and the second axial flow blower 70 being arranged, as shown in Figure 3 and Figure 4.

As shown in figure 5, first axial flow blower 60 is located in the described first sub- accommodating chamber 4022, including interconnection First axial-flow windwheel 602 and first motor 604, as shown in fig. 6, second axial flow blower 70 is located at the described second sub- accommodating chamber In 4042, include the second axial-flow windwheel 702 and the second motor 704 of interconnection, wherein the first motor 604 with it is described Air inlet 1022 is oppositely arranged, and level is oppositely arranged first axial-flow windwheel 602 in an axial direction with second axial-flow windwheel 702 And wind wheel turns on the contrary, second motor 704 is oppositely arranged with the flow-guiding structure 50.

It is separately positioned in different sub- accommodating chambers in such an embodiment, it is preferred to may be used two and reversely rotation is set The axial flow blower set is blown, and can not only be reduced wind turbine the space occupied in vertical air conditioner equipment, can also suitably be subtracted The integrally-built volume of skinny device is to reduce the space of hold facility, and by by the axis stream wind of two axial flow blowers (60 and 70) It takes turns level in an axial direction and may further ensure that air supply efficiency to revolving to be arranged take a breath blowing, reduction wind energy is lost；It is further Ensure not influenced by other side when two axial-flow windwheels mutually rotate, between two axial flow blowers (60 and 70) having centainly Gap, as shown in Figure 3 and Figure 4.

Further specifically, the first flabellum, second axial-flow windwheel 702 are provided on first axial-flow windwheel 602 On be provided with the second flabellum, the bending direction of the bending direction of first flabellum and second flabellum is on the contrary, and described the One axial-flow windwheel 602 rotates under the driving of the first motor 604 around first direction, and the wheel of the second axis stream wind 702 is in institute It states and is rotated around second direction under the driving of the second motor 704, the second direction is opposite to the first direction.

Wherein, the axial-flow windwheel of the axial flow blower in the embodiment can at least have positive air-out mode.

In conclusion the vertical air conditioner equipment that the utility model embodiment provides, by using horizontally disposed in an axial direction Multiple axial flow blowers can not only reduce wind turbine and be occupied in vertical air conditioner equipment while ensuring to have larger air output Space, can also suitably reduce the volume of equipment overall structure to reduce the space of hold facility, and use multiple axis streams Wind turbine carries out ventilation air-supply, can reduce wind energy loss, promote air supply efficiency, is further advanced by upper and lower two outlet air of setting Mouthful, and the switching by flow-guiding structure between upper and lower two air ducts, it realizes when equipment heats from lower air outlet and system From upper air outlet when cold, the air-out mode of vertical air conditioner equipment is enriched, relatively light hot-air is made to be always positioned at down Side is effectively improved temperature governing speed and carries to which cold air sinking and hot-air rise to be quickly uniformly mixed The operational efficiency for having risen equipment, to improve human comfort experience.

In the present invention, term " multiple " then refers to two or more, unless otherwise restricted clearly.Term The terms such as " installation ", " connected ", " connection ", " fixation " shall be understood in a broad sense, for example, " connection " may be a fixed connection, Can be detachably connected, or be integrally connected；" connected " can be directly connected, and can also pass through the indirect phase of intermediary Even.For the ordinary skill in the art, it can understand above-mentioned term in the present invention as the case may be Concrete meaning.

In the description of the utility model, it is to be understood that the orientation or positional relationship of the instructions such as term "inner", "outside" is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of describing the present invention and simplifying the description, rather than indicate Or imply that signified device or unit must have specific direction, with specific azimuth configuration and operation, it is thus impossible to understand For limitations of the present invention.

In the description of this specification, the description of term " one embodiment ", " some embodiments ", " specific embodiment " etc. Mean that particular features, structures, materials, or characteristics described in conjunction with this embodiment or example are contained at least the one of the utility model In a embodiment or example.In the present specification, schematic expression of the above terms are not necessarily referring to identical embodiment Or example.Moreover, the particular features, structures, materials, or characteristics of description can be in any one or more embodiments or example In can be combined in any suitable manner.

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

Claims (10)

1. a kind of vertical air conditioner equipment, which is characterized in that including：

Cabinet, the cabinet include the first shell and second shell being oppositely arranged, and air inlet is provided in the first shell, Air outlet and lower air outlet are provided in the second shell；

Header assemblies are set in the cabinet, and the header assemblies construct blowing machine accommodating chamber and are located at institute The upper air duct and lower air duct stated wind turbine accommodating chamber both sides and be connected to the wind turbine accommodating chamber；

Flow-guiding structure is arranged between the wind turbine accommodating chamber and the second shell, at the vertical air conditioner equipment The air inlet of the lower air duct is closed when refrigeration mode and closes institute when the vertical air conditioner equipment is in heating mode State the air inlet of upper air duct；

Multiple axial flow blowers horizontally disposed in an axial direction are arranged in the wind turbine accommodating chamber, and the multiple axial flow blower is used for Air is sucked by the air inlet in the cabinet, and the air by refrigeration processing is gone out through the upper air duct from described Air port is discharged or the air by heating processing is discharged through the lower air duct from the lower air outlet.

2. vertical air conditioner equipment according to claim 1, which is characterized in that the header assemblies include being mutually butted First current collector and the second current collector；

Wherein, the first sub- accommodating chamber for accommodating axial flow blower is provided in first current collector and respectively with described One sub- accommodating chamber connected the first wind deflector and the second wind deflector,

Be provided in second current collector the second sub- accommodating chamber for accommodating axial flow blower and respectively with second son The upper air duct and the lower air duct of accommodating chamber connection, wherein the first sub- accommodating chamber is docked with the described second sub- accommodating chamber Form the wind turbine accommodating chamber.

3. vertical air conditioner equipment according to claim 2, which is characterized in that further include：

Heat exchanger, the heat exchanger are arranged between the air inlet and first current collector, are located in the first shell.

4. vertical air conditioner equipment according to claim 3, which is characterized in that

The first wind shutter and the second wind shutter being located above and below the air inlet are provided in the first shell；

The one end of first wind deflector not being connected with the described first sub- accommodating chamber is provided with the first flanging, second wind-guiding The one end of plate not being connected with the described first sub- accommodating chamber is provided with the second flanging；

Wherein, first flanging is connected to first wind shutter and second flanging is connected to second wind shutter, And the heat exchanger is placed in the first shell and first current collector is enclosed by the wind shutter and wind deflector of interconnection At region in.

5. vertical air conditioner equipment according to claim 1, which is characterized in that the flow-guiding structure includes：Positioning region is kept out the wind Portion and driving motor；

Wherein, the windshied part is fixedly connected on by the positioning region in the second shell, and the driving motor is for driving Move the windshied part along the positioning region central axis rotate so that the windshied part close the upper air duct air inlet or The air inlet of the lower air duct.

6. vertical air conditioner equipment according to claim 5, which is characterized in that

The windshied part includes semicolumn plate and semi arch plate, one end round-corner transition of the semi arch plate and the semicolumn plate Connection, and the semi arch plate is connected to the positioning region.

7. vertical air conditioner equipment according to claim 6, which is characterized in that be provided in the second shell with it is described fixed The location hole of position portion adaptation, the location hole is between the upper air outlet and the lower air outlet.

8. vertical air conditioner equipment according to claim 1, which is characterized in that the upper air duct and the lower air duct are song Line air duct, and

The circulation area of the air inlet of the upper air duct is less than the circulation area of the air outlet of the upper air duct, the lower air duct The circulation area of air inlet is less than the circulation area of the air outlet of the lower air duct.

9. vertical air conditioner equipment according to claim 2, which is characterized in that

The quantity of the multiple axial flow blower is 2, including horizontal the first axial flow blower and the second axis stream being oppositely arranged in an axial direction Wind turbine,

Wherein, first axial flow blower is located in the described first sub- accommodating chamber, including the first axial-flow windwheel of interconnection and First motor, second axial flow blower are located in the described second sub- accommodating chamber, including the second axial-flow windwheel of interconnection and Second motor, and

The first motor is oppositely arranged with the air inlet, and first axial-flow windwheel and second axial-flow windwheel are in an axial direction Level is oppositely arranged and wind wheel turns on the contrary, second motor is oppositely arranged with the flow-guiding structure.

10. vertical air conditioner equipment according to any one of claim 1 to 9, which is characterized in that further include：

Air-inlet grille, the air-inlet grille are arranged in the air inlet；

First air outlet grate and the second air outlet grate, a setting in first air outlet grate and second air outlet grate At the upper air outlet, another be arranged at the lower air outlet；

Chassis, the cabinet are supported on the chassis.