CN208059076U - Floor air conditioner - Google Patents

Abstract

The utility model provides a kind of floor air conditioner, including：Cabinet, cabinet include the first shell and second shell being oppositely arranged, and air inlet is offered in first shell, air outlet is offered in second shell；Multiple wind turbines that level is oppositely arranged in an axial direction successively, are installed in cabinet, and multiple wind turbines include the second wind turbine of the first wind turbine and close second shell close to first shell, and the first wind turbine is correspondingly arranged with air inlet；Multiple wind turbines are used to blow to air outlet；Guiding subassembly is entered the wind, is set between air inlet and multiple wind turbines, the multiple wind turbines of distinguished and admirable guiding that air inlet guiding subassembly is used to from air inlet to enter.The floor air conditioner that this programme provides can improve the phenomenon for the distribution of air flow unevenness for entering cabinet in the prior art, air intake efficiency, and then improving heat exchanging efficiency and outlet air efficiency be promoted, to promote the runnability of air conditioner.

Description

Floor air conditioner

Technical field

The utility model is related to field of air conditioning, in particular to a kind of floor air conditioner.

Background technology

Split type vertical air conditioner is typically all top outlet air, in a heating mode, since top air output is big, is gone out from top Wind derived from air port causes to be relatively inaccessible to the uniform effect of room air volume adjustment since the relationship of density still can be walked up.

In the related technology, the centrifugal blower arranged along longitudinal direction using at least two realizes that two air outlets go out respectively up and down Wind has the following defects：

(1) air intake efficiency is relatively low, and the refrigerating efficiency of vertical air conditioner or heating efficiency is caused to cause influence；

(2) at least two centrifugal blowers are arranged along longitudinal direction, can be lost in air supply process apoplexy it is larger, cause influence outlet air effect Rate.

Utility model content

At least one in order to solve the above-mentioned technical problem, one of the utility model is designed to provide a kind of vertical air conditioner Device.

To achieve the above object, the embodiments of the present invention provide a kind of floor air conditioner, including：Cabinet, cabinet Including the first shell and second shell being oppositely arranged, air inlet is offered in first shell, is offered out in second shell Air port；Multiple wind turbines that level is oppositely arranged in an axial direction successively, are installed in cabinet, and multiple wind turbines include close to first shell With close to the second wind turbine of second shell, the first wind turbine is correspondingly arranged first wind turbine with air inlet；Multiple wind turbines are used for outlet air Mouth air-supply；Guiding subassembly is entered the wind, is set between air inlet and multiple wind turbines, air inlet guiding subassembly from air inlet for that will enter The multiple wind turbines of distinguished and admirable guiding.

The floor air conditioner of the utility model above-described embodiment, by the way that multiple wind turbines are arranged, and multiple wind turbines are in cabinet Direction of the interior edge from first shell to second shell is laid, compared with the laying mode for laying wind turbine along longitudinal direction in the prior art, It is advantageously implemented the higher of wind energy superposition, to promote outlet air efficiency, the setting air inlet diversion group between air inlet and multiple wind turbines Part, wind guiding component can be distinguished and admirable to the polymerization of the first wind turbine by what is entered from air inlet, enter cabinet in the prior art to improve The phenomenon of distribution of air flow unevenness promotes air intake efficiency, and then improving heat exchanging efficiency and outlet air efficiency, to promote the fortune of air conditioner Row performance.

In addition, the floor air conditioner in above-described embodiment provided by the utility model can also have following supplementary technology special Sign：

In above-mentioned technical proposal, header assemblies include：Entering the wind guiding subassembly includes：Flow-guiding structure is set to air inlet Between the first wind turbine, close to the edge of air inlet, the other end of flow-guiding structure is led close to the first wind turbine for one end of flow-guiding structure A flow structure surface construction opposite with the first wind turbine forms the guide curve surface extended to the first wind turbine.

In the present solution, by the way that flow-guiding structure is arranged, flow-guiding structure is arranged between air inlet and the first wind turbine, and will Opposite with the first wind turbine is configured to guide curve surface on one side, and the is imported into form one article between guide curve surface and the first wind turbine The diversion air duct of one wind turbine, so realize enters from the air inlet on periphery it is distinguished and admirable by diversion air duct guiding the first wind turbine, one Aspect realizes distinguished and admirable convergence, on the other hand, by the way that flow-guiding structure is arranged, makes the flowing of air-flow evenly, to realize that noise reduction is imitated Fruit.

In any of the above-described technical solution, flow-guiding structure is configured to volute tongue structure, and volute tongue structure is circumferentially equal along the first wind turbine Even distribution.

In the present solution, by setting flow-guiding structure to volute tongue structure, and volute tongue structure is evenly distributed setting, into One step improves the efficiency of distinguished and admirable Uniform Flow, further to promote noise reduction efficacy.

Furthermore it is also possible to which the setting angle by changing volute tongue structure, changes the wind-guiding angle of diversion air duct, realize best Water conservancy diversion effect.

In any of the above-described technical solution, further include：Heat exchanger, heat exchanger are arranged between air inlet and the first wind turbine, In, flow-guiding structure is set between air inlet and heat exchanger and/or flow-guiding structure is set between heat exchanger and the first wind turbine.

In the present solution, flow-guiding structure can be arranged between air inlet and heat exchanger, can also be arranged heat exchanger with Between first wind turbine, it can also be respectively provided with flow-guiding structure in the both sides of heat exchanger, to realize water conservancy diversion effect, and meet different cabinets The laying demand of inner space.

In any of the above-described technical solution, further include：Header assemblies are set in cabinet, and header assemblies can construct Blowing machine receiving area and the exhaust air flue being connected to wind turbine receiving area, wind turbine receiving area is for installing multiple wind turbines；Current collector Component includes：The the first afflux shell and the second afflux shell being mutually butted, the first afflux shell are provided with the first mounting bracket, Second afflux shell is provided with the second mounting bracket, after the first afflux shell is docked with the second afflux shell, forms wind turbine and holds Na Qu.

In the present solution, by the way that header assemblies are set as including the first afflux shell and second for being mutually butted assembling Afflux shell realizes the detachable assembling of header assemblies, and the first afflux shell is arranged close to inlet side, the second afflux shell Close to air side, and by the way that the first mounting bracket is arranged on the first afflux shell, it is arranged second on the second afflux shell After mounting bracket, the first afflux shell and the assembling of the second afflux shell, the first mounting bracket is opposite with the second mounting bracket to be fastened Together, wind turbine receiving area is formed, the first mounting bracket has a plurality of fixing muscle being circumferentially arranged with the second mounting bracket, adjacent Two fixing muscles between form ventilation hole, and then the setting of the volute structure for installing multiple wind turbines is realized, to meet The use demand of axial flow blower is used in floor air conditioner.

In any of the above-described technical solution, first shell further includes：It is located at first windproof above and below air inlet Plate and the second wind shutter, heat exchanger are set between the first wind shutter and the second wind shutter；Entering the wind guiding subassembly further includes：Second Oblique deflector, two the second oblique deflectors are respectively arranged at the both sides of the first mounting bracket, wherein the second oblique deflector One end be fixedly connected with the first mounting bracket, the other end of the second oblique deflector extends to wind shutter.

In the present solution, by the way that two second inclination deflectors are arranged on the first afflux shell, two second inclinations are led Flowing plate is respectively arranged at the both sides of the first mounting bracket, and extends to the neighboring area of heat exchanger, specifically, can be in first shell The first wind shutter and the second wind shutter is respectively set at the top edge in internal air inlet region and lower edge, it is anti-by setting first Aerofoil and the second wind shutter prevent the distinguished and admirable top or lower part for scurrying into shell entered from air inlet, lead to wind turbine wind-guiding efficiency It reduces, by the way that two second inclination deflectors to be respectively arranged to longitudinal both sides of the first mounting bracket, is obliquely installed with being formed Two second inclination deflectors, by second inclination deflector heat exchanger is exchanged heat after it is distinguished and admirable along second inclination deflector lead To the first mounting bracket, to be driven from first axle galvanic electricity machine to air side, entered the wind with improving heat exchanger existing in the prior art, The problem that intermediate wind speed is high, both sides wind speed is low, makes intake airflow evenly, and realize noise reduction.

Furthermore it is also possible to be correspondingly arranged two second inclination deflectors in the both sides of the horizontal direction of the first mounting bracket.

In any of the above-described technical solution, air outlet includes the upper air outlet opened up on the top of second shell and second The lower air outlet that the lower part of shell opens up；Second afflux shell is respectively arranged with upper air duct and lower air duct, and upper air duct is set to The top of two mounting brackets, lower air duct are set to the lower section of the second mounting bracket.

In the present solution, air outlet includes upper air outlet and lower air outlet, accordingly, exhaust air flue includes upper air duct under Air duct, upper air duct is corresponding with upper air outlet, and lower air duct is corresponding with lower air outlet, on the one hand, can realize upper air duct and lower air duct On the other hand outlet air simultaneously can also realize corresponding upper air duct outlet air or lower air duct outlet air under various heat exchange pattern, to It realizes a variety of air-out modes, meets the use demand of various heat exchange pattern.

In any of the above-described technical solution, the quantity of multiple wind turbines is two, including the first axial flow blower and the second axis stream wind Machine, level is placed in the first mounting bracket the first axial flow blower in an axial direction, and level is placed in the second axial flow blower in an axial direction In two mounting brackets, the first axial flow blower includes the first axial-flow windwheel being connected with each other and first axle galvanic electricity machine, the second axis stream wind Machine includes the second axial-flow windwheel and the second axis galvanic electricity machine being connected with each other, wherein the first axial-flow windwheel and the second axial-flow windwheel phase To coaxial arrangement, and turn on the contrary, first axle galvanic electricity machine and the second axis galvanic electricity machine are correspondingly arranged in the first axial-flow windwheel respectively With the both sides of the second axial-flow windwheel.

In the present solution, by being arranged two axial flow blowers, and the wind wheel confronting coaxial setting of two axial flow blowers, two There is specified gap between a wind wheel, on the one hand, it realizes that air supply direction is identical, and the static pressure of fan operation process can be promoted, Reduce and house volume, and promote air-out volume, on the other hand, is conducive to the installation space for reducing wind turbine, to realize air conditioner Miniaturization setting.

Wherein, the first axial-flow windwheel and the second axial-flow windwheel confronting coaxial are arranged, specially the bending direction of wind wheel blade On the contrary.

In addition, replacing centrifugal blower in the prior art to realize air-supply by using axial flow blower, on the one hand, axial flow blower Axial-flow windwheel and motor composite structure, it is smaller relative to centrifugal blower, to be conducive to reduce entire vertical air conditioner The package size of device, on the other hand, multiple horizontally disposed axial flow blowers can be placed side by side in a wind turbine receiving area, save The installation space inside air conditioner is saved, in another aspect, multiple horizontally disposed axial flow blowers pass through horizontal phase in an axial direction two-by-two It to setting, and reversely rotates realize air-supply in the same direction two-by-two, wind energy loss can be reduced, promote air supply efficiency, and then promoted empty Adjust the operational efficiency of device.

In any of the above-described technical solution, the first port of upper air duct and the first port of lower air duct all extend to the second axis stream The second port of wind turbine, upper air duct is connected to air outlet and the second port of lower air duct is connected to lower air outlet.

In any of the above-described technical solution, further include：Semicircle steering wheel can be partly located on the second mounting bracket, and half The setting coaxial with the second axial flow blower of the locating shaft of round steering wheel, semicircle steering wheel can be rotated around locating shaft, wherein When semicircle turns to disc spins to lower section, semicircle steering wheel can close lower air duct, and the supreme side of disc spins is turned in semicircle When, semicircle steering wheel can block upper air duct.

In the present solution, air outlet includes upper air outlet and lower air outlet, accordingly, exhaust air flue includes upper air duct under Air duct, upper air duct is corresponding with upper air outlet, and lower air duct is corresponding with lower air outlet, by the way that semicircle steering wheel is arranged, and is located at In second mounting bracket, to close corresponding outlet air region, on the one hand, by the way that exhaust air flue is arranged on the second afflux shell, It realizes exhaust air flue assembling integrated with mounting bracket, and then is conducive to the modularization setting of air conditioner structure, on the other hand, By the way that semicircle steering wheel is arranged, in heating mode, by blocking the ventilation hole of mounting bracket, the envelope to upper air duct is realized It closes, realizes lower outlet air, in refrigeration mode, by blocking the ventilation hole of mounting bracket, the closing to lower air duct is realized, in realization Outlet air, to meet the outlet air demand of different mode.

In any of the above-described technical solution, semicircle steering wheel offers multiple exhaust vents.

In the present solution, by opening up multiple exhaust vents on semicircle steering wheel, upper air duct and lower air duct are being realized Bidirectional outlet air, in a heating mode, semicircle steering wheel close upper air duct, most of distinguished and admirable from lower air duct export, fraction wind It flows from the exhaust vent export on semicircle steering wheel, in cooling mode, semicircle steering wheel closes lower air duct, most of distinguished and admirable It is exported from upper air duct, the distinguished and admirable exhaust vent export from semicircle steering wheel of fraction, on the one hand, realize upper air duct and lower air duct Outlet air simultaneously, is conducive to promote indoor refrigeration or heating efficiency, and on the other hand, while outlet air is advantageously implemented noise reduction.

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 shows the structural schematic diagram of the refrigeration mode of the floor air conditioner according to the utility model one embodiment；

Fig. 2 shows the structural schematic diagrams according to the heating mode of the floor air conditioner of the utility model one embodiment；

Fig. 3 shows the structural schematic diagram of the header assemblies according to the utility model one embodiment；

Fig. 4 shows the structural schematic diagram of the second afflux shell according to the utility model one embodiment；

Fig. 5 shows the structural schematic diagram of the semicircle steering wheel according to the utility model one embodiment.

Wherein, the reference numeral in Fig. 1 to Fig. 5 and the correspondence between component names are：

1 floor air conditioner, 10 cabinets, 12 first shells, 14 second shells, air outlet on 142,144 times air outlets, 22 Flow-guiding structure, 24 first afflux shells, 26 second afflux shells, 242 first mounting brackets, 262 second mounting brackets, 50 heat exchange Device, 244 second oblique deflectors, 122 first wind shutters, 124 second wind shutters, 264 upper air ducts, 266 lower air ducts, 28 semicircles Shape steering wheel, 282 exhaust vents, 30 first axial flow blowers, 32 first axial-flow windwheels, 34 first axle galvanic electricity machines, 40 second axis stream wind Machine, 42 second axial-flow windwheels, 44 second axis galvanic electricity machines.

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.

Referring to Fig. 1 to Fig. 5 descriptions according to floor air conditioner and air-conditioning equipment described in the utility model some embodiments.

As shown in Figures 1 to 5, the floor air conditioner 1 that the embodiments of the present invention provide, including：Cabinet 10, cabinet 10 Including the first shell 12 being oppositely arranged and second shell 14, offer air inlet in first shell 12, second shell 14 it is upper Offer air outlet；Multiple wind turbines that level is oppositely arranged in an axial direction successively, are installed in cabinet 10, multiple wind turbines include close First wind turbine of first shell 12 is correspondingly arranged with the second wind turbine close to second shell 14, the first wind turbine with air inlet；It is multiple Wind turbine is used to blow to air outlet；Guiding subassembly is entered the wind, is set between air inlet and multiple wind turbines, air inlet guiding subassembly is used for The multiple wind turbines of distinguished and admirable guiding that will enter from air inlet.

The floor air conditioner 1 of the utility model above-described embodiment, by the way that multiple wind turbines are arranged, and multiple wind turbines are in cabinet It is laid along from first shell 12 to the direction of second shell 14 in 10, with the laying mode for laying wind turbine along longitudinal direction in the prior art It compares, is advantageously implemented the higher of wind energy superposition, to promote outlet air efficiency, setting air inlet is led between air inlet and multiple wind turbines Component is flowed, wind guiding component can be distinguished and admirable to the polymerization of the first wind turbine by what is entered from air inlet, enters cabinet in the prior art to improve The phenomenon of the distribution of air flow unevenness of body 10, to promote air intake efficiency, and then improving heat exchanging efficiency and outlet air efficiency, to promote sky Adjust the runnability of device.

As shown in Figures 1 and 2, in above-described embodiment, header assemblies include：Entering the wind guiding subassembly includes：Flow-guiding structure 22, be set between air inlet and the first wind turbine, one end of flow-guiding structure 22 close to the edge of air inlet, flow-guiding structure 22 it is another Close to the first wind turbine, it is bent that the surface construction opposite with the first wind turbine of flow-guiding structure 22 forms the water conservancy diversion extended to the first wind turbine for one end Face.

In the present embodiment, by the way that flow-guiding structure 22 is arranged, flow-guiding structure 22 is arranged between air inlet and the first wind turbine, And opposite with the first wind turbine is configured to guide curve surface on one side, is led with forming one between guide curve surface and the first wind turbine Enter the diversion air duct to the first wind turbine, so realize enters from the air inlet on periphery it is distinguished and admirable by diversion air duct the first wind of guiding Machine, on the one hand, realize distinguished and admirable convergence, on the other hand, by the way that flow-guiding structure 22 is arranged, make the flowing of air-flow evenly, to realize Noise reduction.

As shown in Figures 1 and 2, in any of the above-described embodiment, flow-guiding structure 22 is configured to volute tongue structure, volute tongue structure edge First wind turbine is circumferentially uniformly distributed.

In the present embodiment, by setting flow-guiding structure 22 to volute tongue structure, and volute tongue structure is evenly distributed and sets It sets, further improves the efficiency of distinguished and admirable Uniform Flow, further to promote noise reduction efficacy.

Furthermore it is also possible to which the setting angle by changing volute tongue structure, changes the wind-guiding angle of diversion air duct, realize best Water conservancy diversion effect.

As shown in Figures 1 and 2, in any of the above-described embodiment, further include：Heat exchanger 50, heat exchanger 50 are arranged in air inlet And first between wind turbine, wherein flow-guiding structure 22 is set between air inlet and heat exchanger 50 and/or flow-guiding structure 22 is arranged Between heat exchanger 50 and the first wind turbine.

In the present embodiment, flow-guiding structure 22 can be arranged between air inlet and heat exchanger 50, can also be arranged and change Between hot device 50 and the first wind turbine, it can also be respectively provided with flow-guiding structure 22 in the both sides of heat exchanger 50, to realize water conservancy diversion effect, And meet the laying demand of 10 inner space of different cabinets.

As shown in Figure 1 to Figure 3, in any of the above-described embodiment, further include：Header assemblies are set in cabinet 10, afflux The exhaust air flue that device assembly can construct blowing machine receiving area and is connected to wind turbine receiving area, wind turbine receiving area are more for installing A wind turbine；Header assemblies include：The the first afflux shell 24 and the second afflux shell 26 being mutually butted, the first afflux shell 24 Be provided with the first mounting bracket 242, the second afflux shell 26 is provided with the second mounting bracket 262, the first afflux shell 24 with After the docking of second afflux shell 26, wind turbine receiving area is formed.

In the present embodiment, by by header assemblies be set as include be mutually butted the first afflux shell 24 of assembling with Second afflux shell 26 realizes the detachable assembling of header assemblies, and the first afflux shell 24 is arranged close to inlet side, the Two afflux shells 26 are close to air side, and by the way that the first mounting bracket 242 is arranged on the first afflux shell 24, second Second mounting bracket 262 is set on afflux shell 26, after the first afflux shell 24 and the second afflux shell 26 assemble, the first installation Holder 242 snaps together relatively with the second mounting bracket 262, forms wind turbine receiving area, the first mounting bracket 242 and second Mounting bracket 262 has a plurality of fixing muscle being circumferentially arranged, and ventilation hole is formed between adjacent two fixing muscles, and then realize Setting for the volute structure for installing multiple wind turbines, to meet the use need in floor air conditioner 1 using axial flow blower It asks.

As shown in Figures 1 and 2, in any of the above-described embodiment, first shell 12 further includes：Be located above air inlet and The first wind shutter 122 and the second wind shutter 124 of lower section, heat exchanger 50 are set to the first wind shutter 122 and the second wind shutter 124 Between；Entering the wind guiding subassembly further includes：Second oblique deflector 244, two the second oblique deflectors 244 are respectively arranged at The both sides of one mounting bracket 242, wherein one end of the second oblique deflector 244 is fixedly connected with the first mounting bracket 242, the The other end of two oblique deflectors 244 extends to wind shutter.

In the present embodiment, by the way that two second inclination deflectors are arranged on the first afflux shell 24, two second are inclined Oblique deflector is respectively arranged at the both sides of the first mounting bracket 242, and extends to the neighboring area of heat exchanger 50, specifically, can The first wind shutter 122 and the second wind shutter is respectively set at the top edge in air inlet region in first shell 12 and lower edge 124, by the way that the first wind shutter 122 and the second wind shutter 124 is arranged, prevent the distinguished and admirable top for scurrying into shell entered from air inlet Or lower part, lead to the reduction of wind turbine wind-guiding efficiency, by the way that two second inclination deflectors are respectively arranged at the first mounting bracket 242 Longitudinal both sides heat exchanger 50 is changed by the second inclination deflector with forming be obliquely installed two second inclination deflectors It is distinguished and admirable along second inclination deflector the first mounting bracket 242 of guiding after heat, to be driven from first axle galvanic electricity machine 34 to air side It is dynamic, it is entered the wind with improving heat exchanger 50 existing in the prior art, the problem that intermediate wind speed is high, both sides wind speed is low makes intake airflow Evenly, and noise reduction is realized.

Furthermore it is also possible to be correspondingly arranged two second inclination water conservancy diversion in the both sides of the horizontal direction of the first mounting bracket 242 Plate.

In any of the above-described embodiment, air outlet include the upper air outlet 142 opened up on the top of second shell 14 and The lower air outlet 144 that the lower part of second shell 14 opens up；Second afflux shell 26 is respectively arranged with upper air duct 264 and lower air duct 266, upper air duct 264 is set to the top of the second mounting bracket 262, and lower air duct 266 is set under the second mounting bracket 262 Side.

In the present embodiment, air outlet includes upper air outlet 142 and lower air outlet 144, and accordingly, exhaust air flue includes upper Air duct 264 and lower air duct 266, upper air duct 264 is corresponding with upper air outlet 142, and lower air duct 266 is corresponding with lower air outlet 144, and one Aspect can realize upper air duct 264 and the outlet air simultaneously of lower air duct 266, on the other hand, can also be realized under various heat exchange pattern 266 outlet air of 264 outlet air of corresponding upper air duct or lower air duct meets various heat exchange pattern to realize a variety of air-out modes Use demand.

As shown in Figures 1 and 2, in any of the above-described embodiment, the quantity of multiple wind turbines is two, including the first axial flow blower 30 and second axial flow blower 40, level is placed in the first mounting bracket 242 the first axial flow blower 30 in an axial direction, the second axis stream wind Level is placed in the second mounting bracket 262 machine 40 in an axial direction, and the first axial flow blower 30 includes the first axle stream wind being connected with each other Wheel 32 and first axle galvanic electricity machine 34, the second axial flow blower 40 include the second axial-flow windwheel 42 and the second axis galvanic electricity machine being connected with each other 44, wherein the first axial-flow windwheel 32 and 42 confronting coaxial of the second axial-flow windwheel are arranged, and turn on the contrary, first axle galvanic electricity machine 34 and second axis galvanic electricity machine 44 be correspondingly arranged in the both sides of the first axial-flow windwheel 32 and the second axial-flow windwheel 42 respectively.

In the present embodiment, by the way that two axial flow blowers, and the wind wheel confronting coaxial setting of two axial flow blowers is arranged, There is specified gap, on the one hand, realize that air supply direction is identical, and the quiet of fan operation process can be promoted between two wind wheels Pressure reduces and houses volume, and promotes air-out volume, on the other hand, is conducive to the installation space for reducing wind turbine, to realize air conditioner Miniaturization setting.

Wherein, the first axial-flow windwheel 32 and 42 confronting coaxial of the second axial-flow windwheel are arranged, the specially bending of wind wheel blade Direction is opposite.

In addition, replacing centrifugal blower in the prior art to realize air-supply by using axial flow blower, on the one hand, axial flow blower Axial-flow windwheel and motor composite structure, it is smaller relative to centrifugal blower, to be conducive to reduce entire vertical air conditioner The package size of device 1, on the other hand, multiple horizontally disposed axial flow blowers can be placed side by side in a wind turbine receiving area, The installation space inside air conditioner is saved, in another aspect, multiple horizontally disposed axial flow blowers pass through two-by-two level in an axial direction It is oppositely arranged, and reversely rotates realize air-supply in the same direction two-by-two, wind energy loss can be reduced, promote air supply efficiency, and then promoted The operational efficiency of air conditioner.

In any of the above-described embodiment, the first port of upper air duct 264 and the first port of lower air duct 266 all extend to second The second port of axial flow blower 40, upper air duct 264 is connected to air outlet 142 and the second port of lower air duct 266 is connected to down Air outlet 144.

As shown in Figures 1 and 2, in any of the above-described embodiment, further include：Semicircle steering wheel 28 can be partly located at On second mounting bracket, the setting coaxial with the second axial flow blower 40 of the locating shaft of semicircle steering wheel 28,28 energy of semicircle steering wheel It is enough to be rotated around locating shaft, wherein when semicircle steering wheel 28 is rotated to lower section, semicircle steering wheel 28 can close leeward Road 266, when semicircle steering wheel 28 is rotated to top, semicircle steering wheel 28 can block upper air duct 264.

In the present embodiment, air outlet includes upper air outlet 142 and lower air outlet 144, and accordingly, exhaust air flue includes upper Air duct 264 and lower air duct 266, upper air duct 264 is corresponding with upper air outlet 142, and lower air duct 266 is corresponding with lower air outlet 144, leads to The semicircle steering wheel 28 of setting is crossed, and is located in the second mounting bracket 262, to close corresponding outlet air region, on the one hand, By the way that exhaust air flue is arranged on the second afflux shell 26, exhaust air flue assembling integrated with mounting bracket, Jin Eryou are realized It is arranged conducive to the modularization of air conditioner structure, on the other hand, is passed through in heating mode by the way that semicircle steering wheel 28 is arranged The ventilation hole of mounting bracket is blocked, realizes the closing to upper air duct 264, lower outlet air is realized, in refrigeration mode, by blocking peace The ventilation hole of holder is filled, realizes closing to lower air duct 266, outlet air in realization, to meet the outlet air demand of different mode.

As shown in figures 2 and 5, in any of the above-described embodiment, semicircle steering wheel 28 offers multiple exhaust vents 282.

In the present embodiment, by opening up multiple exhaust vents 282 on semicircle steering wheel 28, upper air duct 264 is realized With the Bidirectional outlet air of lower air duct 266, in a heating mode, semicircle steering wheel 28 closes upper air duct 264, most of distinguished and admirable under Air duct 266 exports, and the distinguished and admirable exhaust vent 282 from semicircle steering wheel 28 of fraction exports, in cooling mode, semicircle Steering wheel 28 closes lower air duct 266, and most of distinguished and admirable from the export of upper air duct 264, fraction is distinguished and admirable from semicircle steering wheel 28 Exhaust vent 282 export, on the one hand, realize upper air duct 264 and the outlet air simultaneously of lower air duct 266, be conducive to promote indoor refrigeration Or heating efficiency, on the other hand, while outlet air is advantageously implemented noise reduction.

In conclusion floor air conditioner provided by the utility model and air-conditioning equipment, by the way that multiple wind turbines are arranged, and it is more A wind turbine is laid in cabinet along the direction from first shell to second shell, with the cloth for laying wind turbine along longitudinal direction in the prior art If mode is compared, it is advantageously implemented the higher of wind energy superposition, to promote outlet air efficiency, is arranged between air inlet and multiple wind turbines Guiding subassembly is entered the wind, wind guiding component can be distinguished and admirable to the polymerization of the first wind turbine by what is entered from air inlet, to improve in the prior art Into the phenomenon of the distribution of air flow unevenness of cabinet, to promote air intake efficiency, and then improving heat exchanging efficiency and outlet air efficiency, to carry Rise the runnability of air conditioner.

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 (11)

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

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

Multiple wind turbines that level is oppositely arranged in an axial direction successively, are installed in the cabinet, and the multiple wind turbine includes close to institute The first wind turbine of first shell is stated with close to the second wind turbine of the second shell, first wind turbine is corresponding with the air inlet Setting；The multiple wind turbine is used to blow to the air outlet；

Guiding subassembly is entered the wind, is set between the air inlet and the multiple wind turbine, the air inlet guiding subassembly is used for will be from The multiple wind turbine of distinguished and admirable guiding that the air inlet enters.

2. floor air conditioner according to claim 1, which is characterized in that the air inlet guiding subassembly includes：

Flow-guiding structure is set between the air inlet and first wind turbine, one end of the flow-guiding structure close to it is described into The edge in air port, the other end of the flow-guiding structure is close to first wind turbine, the flow-guiding structure and the first wind turbine phase To a surface construction form the guide curve surface extended to first wind turbine.

3. floor air conditioner according to claim 2, which is characterized in that

The flow-guiding structure is configured to volute tongue structure, and the volute tongue structure is circumferentially uniformly distributed along first wind turbine.

4. floor air conditioner according to claim 3, which is characterized in that further include：

Heat exchanger, the heat exchanger are arranged between the air inlet and first wind turbine,

Wherein, the flow-guiding structure is set between the air inlet and the heat exchanger and/or the flow-guiding structure is set to Between the heat exchanger and first wind turbine.

5. floor air conditioner according to claim 4, which is characterized in that further include：

Header assemblies are set in the cabinet, the header assemblies can construct blowing machine receiving area and with it is described The exhaust air flue of wind turbine receiving area connection, the wind turbine receiving area is for installing the multiple wind turbine；

The header assemblies include：

The the first afflux shell and the second afflux shell being mutually butted, the first afflux shell are provided with the first mounting bracket, The second afflux shell is provided with the second mounting bracket, is docked with the second afflux shell in the first afflux shell Afterwards, the wind turbine receiving area is formed.

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

The first shell further includes：The first wind shutter and the second wind shutter being located above and below the air inlet, The heat exchanger is set between first wind shutter and second wind shutter；

The air inlet guiding subassembly further includes：Second oblique deflector, two second oblique deflectors are respectively arranged at institute The both sides of the first mounting bracket are stated,

Wherein, one end of the described second oblique deflector is fixedly connected with first mounting bracket, the second oblique water conservancy diversion The other end of plate extends to the wind shutter.

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

The air outlet includes the upper air outlet opened up on the top of second shell and is opened up in the lower part of the second shell Lower air outlet；

The second afflux shell is respectively arranged with upper air duct and lower air duct, and the upper air duct is set to second mounting bracket Top, the lower air duct is set to the lower section of second mounting bracket.

8. floor air conditioner according to claim 7, which is characterized in that the quantity of the multiple wind turbine is two, including First axial flow blower and the second axial flow blower, level is placed in first mounting bracket to first axial flow blower in an axial direction Interior, level is placed in second mounting bracket second axial flow blower in an axial direction,

First axial flow blower includes the first axial-flow windwheel being connected with each other and first axle galvanic electricity machine, second axial flow blower The second axial-flow windwheel including interconnection and the second axis galvanic electricity machine,

Wherein, first axial-flow windwheel is arranged with the second axial-flow windwheel confronting coaxial, and turns on the contrary, described first Axis galvanic electricity machine is correspondingly arranged in first axial-flow windwheel and second axial-flow windwheel respectively with the second axis galvanic electricity machine Both sides.

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

The first port of the upper air duct and the first port of the lower air duct all extend to second axial flow blower, it is described on The second port in air duct is connected to the upper air outlet and the second port of the lower air duct is connected to the lower air outlet.

10. floor air conditioner according to claim 8 or claim 9, which is characterized in that further include：

Semicircle steering wheel can be partly located in second mounting bracket, it is described semicircle steering wheel locating shaft with The coaxial setting of second axial flow blower, the semicircle steering wheel can be rotated around the locating shaft,

Wherein, at semicircle steering disc spins to the lower section, the semicircle steering wheel can close the lower air duct, Described semicircle when turning to the supreme side of disc spins, the semicircle steering wheel can block the upper air duct.

11. floor air conditioner according to claim 10, which is characterized in that

The semicircle steering wheel offers multiple exhaust vents.