CN207936237U - Air-conditining - Google Patents

Abstract

The utility model discloses a kind of air-conditining, and the air-conditining includes：Shell, the shell has air inlet and outlet, and the air duct of the connection air inlet and air outlet, the air outlet include the first air outlet and the second air outlet, and the air outlet is located at bottom and/or the front side wall of the shell；First Heat Exchanger and the second heat exchanger, first heat exchange and second heat exchanger are arranged in parallel, and the First Heat Exchanger and second heat exchanger are set in the air duct；The bottom of the First Heat Exchanger, the second heat exchanger and shell is enclosed air-out chamber, and the air-out chamber is connected to the air outlet；First wind wheel and the second wind wheel, first wind wheel correspond to first air outlet and are set in the air-out chamber, and second wind wheel corresponds to second air outlet and is set in the air-out chamber.Technical solutions of the utility model reduce the volume of air-conditining while improving the heat exchange efficiency of air-conditioning heat exchanger.

Description

Air-conditining

Technical field

The utility model is related to air-conditioning technical field, more particularly to a kind of air-conditining.

Background technology

As the improvement of people's living standards, the requirement that people adjust air conditioner the ability of temperature is also higher and higher.It is existing It is an overall heat exchange device to have the heat exchanger of air-conditining indoor, when people need to adjust indoor temperature, is changed due to whole The refrigerant pipe pipeline of hot device is too long so that the heat exchange efficiency of indoor heat exchanger is low, is unfavorable for the quick adjusting of room temperature.

Utility model content

The main purpose of the utility model is to provide a kind of air-conditining, it is intended to while improving air conditioner heat exchange efficiency, The compactedness for improving air-conditining, substantially to reduce the volume of air conditioner indoor unit.

To achieve the above object, the utility model proposes air-conditining, including：

Shell, the shell has air inlet and outlet, and the air duct of the connection air inlet and air outlet, described Air outlet includes the first air outlet and the second air outlet, and the air outlet is located at bottom and/or the front side wall of the shell；

First Heat Exchanger and the second heat exchanger, first heat exchange and second heat exchanger are arranged in parallel, and described first Heat exchanger and second heat exchanger are set in the air duct；

The bottom of the First Heat Exchanger, the second heat exchanger and shell is enclosed air-out chamber, the air-out chamber and institute State air outlet connection；

First wind wheel and the second wind wheel, first wind wheel correspond to first air outlet and are set in the air-out chamber, Second wind wheel corresponds to second air outlet and is set in the air-out chamber.

Preferably, the air-conditining further includes the first spiral case, the second spiral case, and with first spiral case and the second spiral case The first volute tongue and the second volute tongue of adaptation；

First spiral case and first volute tongue are oppositely arranged to form first flow, the side of the first flow and institute The connection of the first air outlet is stated, the other side forms the first wind groove corresponding with first wind wheel, and the part of first wind wheel is prolonged It extends in first wind groove；And/or

Second spiral case is opposite with second volute tongue to form second flow channel, the side of the second flow channel and described the Two air outlets are connected to, and the other side forms the second wind groove corresponding with second wind wheel, and second wind wheel extends partially into In second wind groove.

Preferably, first air outlet and second air outlet are respectively positioned on the bottom of the shell；

First spiral case and second spiral case are connect with the bottom of the shell, the first air outlet and described second It is isolated by first volute tongue being connected with each other and the second volute tongue between air outlet.

Preferably, first air outlet is located at the bottom of the shell, and second air outlet is located at the shell On front side wall；

First spiral case and first volute tongue are connect with the bottom of the shell, and first air outlet is formed in Between first spiral case and first volute tongue；

Second spiral case is set to the bottom of the shell, and second volute tongue is set on the front side wall of the shell, institute The second air outlet is stated to be formed between second spiral case and second volute tongue.

Preferably, one end of First Heat Exchanger and the second heat exchanger is connect with the middle part at the top of shell, the first heat exchange The bottom of device is connect with the bottom of the shell and/or rear wall；The front side wall of the bottom of second heat exchanger and the shell and/ Or second volute tongue connection.

Preferably, the air-conditining further includes middle baffles, and the middle baffles are extended to from the bottom of the shell The shell is separated to form mutual indepedent first air duct and the second air duct by the top of the shell；

The First Heat Exchanger and first wind wheel are located in first air duct, second heat exchanger and described Two wind wheels are located in second air duct.

Preferably, the air-conditining further includes the first spiral case, the second spiral case, and with first spiral case and the second spiral case The first volute tongue and the second volute tongue of adaptation；

First spiral case is set to the bottom of the shell close to the rear wall of the shell, and second spiral case is close The housing bottom is arranged in the front side wall；

The middle baffles include first partition and second partition arranged side by side, the first partition and the rear wall It is enclosed first air duct, the lower part of the first partition is integrally formed with first volute tongue；The second partition with The front side wall is enclosed second air duct, and the lower part of the second partition is integrally formed with second volute tongue.

Preferably, one end of First Heat Exchanger and the second heat exchanger is connect with the top of shell, so that the air-out chamber Cross section it is triangular in shape or trapezoidal.

Preferably, the First Heat Exchanger is enclosed the first air-inlet cavity with the top of the shell and rear wall, described The first air inlet is offered on the side wall of first air-inlet cavity；Second heat exchanger is enclosed with the top of the shell and front side wall The second air-inlet cavity is formed, the second air inlet, first air-inlet cavity and described are offered on the side wall of second air-inlet cavity Two air-inlet cavities are mutual indepedent.

Preferably, first air inlet and second air inlet are respectively positioned on the top of the shell.

Preferably, the air-conditining further includes the first drip tray and the second drip tray；

First drip tray is located at the bottom of the First Heat Exchanger, and with the bottom of the shell and/or rear wall It is detachably connected；

Second drip tray is located at the bottom of second heat exchanger, and with the bottom of the shell and/or front side wall It is detachably connected.

Preferably, first wind wheel and second wind wheel are tubular wine wheel, first wind wheel and described second Wind wheel is arranged along the length direction of the shell.

Technical solutions of the utility model, by the way that First Heat Exchanger and the second heat exchanger to be arranged in parallel so that the first heat exchange The structure of device and the second heat exchanger is simpler, to simplify the manufacturing of First Heat Exchanger and the second heat exchanger Journey significantly reduces the manufacturing cost of First Heat Exchanger and the second heat exchanger；By the way that two simple heat exchangers are arranged, substantially contract The length of the volume and refrigerant pipe of small single heat exchanger so that the road that refrigerant flows in First Heat Exchanger and the second heat exchanger Journey is greatly decreased, to which the energy that refrigerant is lost in transmission process also will be less so that refrigerant exchanges heat in heat exchanger When temperature difference bigger, to be conducive to improve the heat exchange efficiency of each heat exchanger；By by First Heat Exchanger and the second heat exchanger Setting independently of each other so that the work of First Heat Exchanger and the second heat exchanger is not interfere with each other, when room temperature is close to user's required temperature When, one of heat exchanger can be closed, energy consumption is caused to avoid excessive heat exchanger is opened, at this point, single heat exchanger It is lower in compressor frequency, still can be with efficient operation, and can meet the needs of users；By reasonably arranging First Heat Exchanger and the second heat exchanger so that the total volume of heat exchanger is constant, or even in the case of increased, and reduces entire The occupied space of heat exchanger, is adequately and reasonably utilized the space of enclosure interior so that the structure of air-conditining closely, While the volume that air-conditining is greatly decreased, be conducive to the connective stability between each component of air-conditining, air-conditining The reduction of volume is conducive to production, manufacture, transport, installation and maintenance of air-conditining etc.；By the way that air outlet is set as One air outlet and the second air outlet so that the blowing range of air-conditining is significantly increased, and it is better to be conducive to air-conditining Air-supply；Pass through and mutually independent first wind wheel and the second wind wheel are set so that the outlet air of the first air outlet and the second air outlet Outlet air can control independently of each other, more preferably to control the outlet air of air-conditining.

Description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, the structure that can also be shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the structural schematic diagram of one embodiment of the utility model air-conditining；

Fig. 2 is the cross-sectional view of the embodiment at A-A in Fig. 1；

Fig. 3 is the cross-sectional view of another embodiment at A-A in Fig. 1.

Drawing reference numeral explanation：

The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Lower obtained every other embodiment, shall fall within the protection scope of the present invention.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute in the utility model embodiment It is only used for explaining relative position relation, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, such as When the fruit particular pose changes, then directionality instruction also correspondingly changes correspondingly.

In addition, the description for being related to " first ", " second " etc. in the present invention is used for description purposes only, and cannot understand To indicate or implying its relative importance or implicitly indicate the quantity of indicated technical characteristic.Define as a result, " first ", The feature of " second " can explicitly or implicitly include at least one of the features.In addition, the technical side between each embodiment Case can be combined with each other, but must can be implemented as basis with those of ordinary skill in the art, when the combination of technical solution Conflicting or cannot achieve when occur will be understood that the combination of this technical solution is not present, also not in the requires of the utility model Protection domain within.

The utility model mainly proposes that a kind of air-conditining, main purpose are, by the way that two are arranged in air-conditining Or it is multiple it is mutual indepedent it is in parallel (each heat exchange individually with compression mechanism at refrigerant circulation circuit, each refrigerant circulation circuit it Between independently of each other) heat exchanger so that each heat exchanger can individually work, so that the refrigerant pipeline of each heat exchanger is long Degree reduces, i.e., the moved distance of cycle is reduced refrigerant every time so that refrigerant can quickly return to compression after heat exchanger Machine, to improve the circulation rate of refrigerant, to ensure that the heat exchange efficiency of each heat exchanger is effectively improved；Meanwhile it comparing In existing air-conditining, multiple since the heat exchanger of the large volume of an entirety to be split as, multiple heat exchangers pass through science Rational arrangement so that the arrangement of heat exchanger is more reasonable, so that air-conditining structure is compacter, can significantly reduce air-conditioning The volume of on-hook, in order to the production of air-conditining, manufacture, transport, installation and maintenance etc..

Below by the concrete structure of main description air-conditining.

Referring to figs. 1 to Fig. 2 the right angle as shown in Fig. 1 and Fig. 2 is established in order to preferably describe the structure of cabinet air-conditioner Coordinate system, along X-axis positive direction be the right side, be a left side along X-axis negative direction, along Y-axis positive direction be before, after Y-axis negative direction is, along Z Axis square is upper, under Z axis negative direction is.

In the utility model embodiment, which includes：

Shell 100, the shell 100 have air inlet and outlet, and the wind of the connection air inlet and air outlet Road, the air outlet include the first air outlet 131 and the second air outlet 132, and the air outlet is located at the bottom of the shell 100 160 and/or front side wall 170；

First Heat Exchanger 210 and the second heat exchanger 220, first heat exchange and 220 parallel connection of the second heat exchanger are set It sets, the First Heat Exchanger 210 and second heat exchanger 220 are set in the air duct；

The bottom 160 of the First Heat Exchanger 210, the second heat exchanger 220 and shell 100 is enclosed air-out chamber, institute Air-out chamber is stated to be connected to the air outlet；

First wind wheel 410 and the second wind wheel 420, first wind wheel 410 correspond to first air outlet 131 and are set to In the air-out chamber, second wind wheel 420 corresponds to second air outlet 132 and is set in the air-out chamber.

Specifically, in the present embodiment, the monnolithic case of shell 100 can have very much, and (monnolithic case is length to such as imitative cuboid Cube is formed with the parts such as recess, protrusion according to actual demand in the outer surface of shell 100), cylinder (monnolithic case be circle Column is formed with the parts such as recess, protrusion according to actual demand in the outer surface of shell 100), imitative hemisphere (monnolithic case For hemisphere, the parts such as recess, protrusion are formed in the outer surface of shell 100 according to actual demand), etc..When mounted, Top 150, rear wall 180 or the dilapidated walls of shell 100 are bonded installation with wall and fix.It, can in order in the following embodiments With the position of more succinct and accurate description shell 100, the title of 100 each section of shell is defined, user oriented Side wall be front side wall 170, opposite with front side wall 170 for rear wall 180, front side wall 170 and 180 top of rear wall are top Portion 150, front side wall 170 and 180 lower section of rear wall are bottom 160, and front side wall 170 and 180 both ends of rear wall are left and right two End wall.

The quantity of air inlet can be configured with demand, can be an air inlet, or multiple air inlets, air inlet The position of mouth can be opened in top 150, bottom 160, end walls or rear wall 180 of shell 100 etc..Similarly, air outlet Quantity can also be configured according to actual demand, the position of air outlet can be arranged according to actual demand in shell 100 Top 150, bottom 160, front side wall 170 or end walls.In the present embodiment, air inlet is arranged at the top of shell 100 150, air outlet is arranged for the bottom of shell 100 160.

The shape of First Heat Exchanger 210, First Heat Exchanger 210 can have very much, such as rectangle, triangle, circle etc. , it is advisable with the shape adaptation with air duct, in the present embodiment, appearance is for being rectangle, length direction and shell The length direction of body 100 is identical.The position that First Heat Exchanger 210 is arranged can have very much, such as parallel and shell 100 top 150 or side wall setting, in the present embodiment, in order to increase the heat exchange area of First Heat Exchanger 210, increase heat transfer effect, by the One the inclined of heat exchanger 210 is set in air duct, and upper part is connect with the centre position at the top 150 of shell 100, under Portion is connect with the rear wall 180 of the bottom 160 of shell 100 or shell 100, and certainly, lower part can also be with 100 bottom of shell The 160 position connections being connected with rear wall 180.First Heat Exchanger 210 is enclosed with the top 150 of shell 100 and rear wall 180 It closes and forms the first air-inlet cavity 185, so that have to pass through after First Heat Exchanger 210 could be from for the air in the first air-inlet cavity 185 First air outlet 131 flows out, to ensure the effect of heat exchange.Air changes after air inlet enters the first air-inlet cavity 185 by first Hot device 210, then flowed out from the first air outlet 131 through air duct.

The shape of second heat exchanger 220, the second heat exchanger 220 can have very much, such as rectangle, triangle, circle etc. , it is advisable with the shape adaptation with air duct, in the present embodiment, appearance is for being rectangle, length direction and shell The length direction of body 100 is identical.The position of second heat exchanger 220 setting can have very much, such as parallel and shell 100 top 150 or side wall setting, in the present embodiment, in order to increase the heat exchange area of the second heat exchanger 220, increase heat transfer effect, by the Two the inclined of heat exchanger 220 are set in air duct, and upper part is connect with the centre position at the top 150 of shell 100, under Portion is connect with the front side wall 170 of shell 100 or the bottom of shell 100 160 connects.Second heat exchanger 220 and shell 100 Top 150 and front side wall 170 are enclosed the second air-inlet cavity 175, so that the air in the second air-inlet cavity 175 has to pass through second It could be flowed out from the second air outlet 132 after heat exchanger 220, to ensure the effect of heat exchange.Air enters from the second air inlet 120 After second air-inlet cavity 175, flowed out from the second air outlet 132 by the second heat exchanger 220, then through air duct.

In some embodiments, top of the one end of First Heat Exchanger 210 and the second heat exchanger 220 with shell 100 150 connections, so that the cross section of the air-out chamber is triangular in shape or trapezoidal.

In some embodiments, the First Heat Exchanger 210 is enclosed with the top 150 of the shell 100 and rear wall 180 The first air-inlet cavity 185 is formed, the first air inlet 110 is offered on the side wall of first air-inlet cavity 185；Second heat exchanger 220 are enclosed the second air-inlet cavity 175, second air-inlet cavity 175 with the top 150 of the shell 100 and front side wall 170 Side wall on offer the second air inlet 120, first air-inlet cavity 185 and second air-inlet cavity 175 are mutual indepedent.Institute It states the first air inlet 110 and second air inlet 120 is respectively positioned on the top 150 of the shell 100.

First Heat Exchanger 210 with the second heat exchanger 220 is in parallel is meant that, First Heat Exchanger 210 can with compressor, Outdoor heat exchanger etc. constitutes the first refrigerant circulation flow path, and the second heat exchanger 220 and compressor, outdoor heat exchanger etc. may be constructed the Two refrigerant circulation flow path devices.Since First Heat Exchanger 210 and the second heat exchanger 220 are arranged in parallel so that 210 He of First Heat Exchanger The work of second heat exchanger 220 is mutual indepedent, does not interfere with each other.First Heat Exchanger 210, the second heat exchanger 220 and shell 100 Bottom 160 and front side wall 170 constitute air-out chamber and in some embodiments, are changed certainly to second to reserve more spaces Directly the bottom 160 of the second heat exchanger 220 is arranged in air outlet with increasing the area of the second heat exchanger 220 for hot device 220 Top, to reserve maximum installation space for the second heat exchanger 220.First Heat Exchanger 210, the second heat exchanger 220 and shell 100 bottoms 160 constitute air-out chamber.Air-out chamber is connected to air outlet, is exchanged heat by First Heat Exchanger 210 and the second heat exchanger 220 Space afterwards, enters air-out chamber, is flowed out from air outlet using air-out chamber.

First wind wheel 410 corresponds to the setting of the first air outlet 131 close to the first air-inlet cavity 185, and the rotation of the first wind wheel 410 will Air-out chamber is discharged by the first air outlet 131 in air in air-out chamber after heat exchanger, so that the air warp in the first air-inlet cavity 185 Air-out chamber is entered after crossing First Heat Exchanger 210, and negative pressure is formed in the first air-inlet cavity 185, thus will be outside air conditioner Air sucks the first air-inlet cavity 185 from the first air inlet 110.First wind wheel 410 is by taking tubular wine wheel as an example, 410 edge of the first wind wheel The length direction of shell 100 extends, by taking the first wind wheel 410 is arranged in parallel with shell 100 as an example.

Second wind wheel 420 corresponds to the setting of the second air outlet 132 close to the second air-inlet cavity 175, and the rotation of the second wind wheel 420 will Air-out chamber is discharged by the second air outlet 132 in air in air-out chamber after heat exchanger, so that the air warp in the second air-inlet cavity 175 Air-out chamber is entered after crossing the second heat exchanger 220, and negative pressure is formed in the second air-inlet cavity 175, thus will be outside air conditioner Air sucks the second air-inlet cavity 175 from the second air inlet 120.Second wind wheel 420 is by taking tubular wine wheel as an example, 420 edge of the second wind wheel The length direction of shell 100 extends, by taking the second wind wheel 420 is arranged in parallel with shell 100 as an example.

In the present embodiment, by the way that First Heat Exchanger 210 and the second heat exchanger 220 are arranged in parallel so that First Heat Exchanger 210 and second heat exchanger 220 structure it is simpler, to simplify the life of First Heat Exchanger 210 and the second heat exchanger 220 Manufacturing process is produced, the manufacturing cost of First Heat Exchanger 210 and the second heat exchanger 220 is significantly reduced；It is simple by being arranged two Heat exchanger, the length of the volume and refrigerant pipe of the single heat exchanger substantially reduced so that refrigerant is in First Heat Exchanger 210 and The distance flowed in two heat exchangers 220 is greatly decreased, to which the energy that refrigerant is lost in transmission process also will more It is few so that temperature difference bigger of the refrigerant when heat exchanger exchanges heat, to be conducive to improve the heat exchange efficiency of each heat exchanger；Passing through will First Heat Exchanger 210 and the second setting independently of each other of heat exchanger 220 so that the work of First Heat Exchanger 210 and the second heat exchanger 220 It does not interfere with each other, when room temperature is close to user's required temperature, one of heat exchanger can be closed, to avoid opening excessively Heat exchanger and cause energy consumption, at this point, single heat exchanger is lower in compressor frequency, still can with efficient operation, And it can meet the needs of users；Pass through First Heat Exchanger 210 and the second heat exchanger 220 of reasonably arranging so that heat exchanger it is total Constancy of volume, or even in the case of increased, reduce the occupied space of entire heat exchanger, shell is adequately and reasonably utilized Space inside body 100 so that the structure of air-conditining closely, while the volume that air-conditining is greatly decreased, has Conducive to the connective stability between each component of air-conditining, the reduction of air-conditining volume is conducive to the production of air-conditining, system It makes, transport, install and safeguards；By setting air outlet to the first air outlet 131 and the second air outlet 132 so that empty It adjusts the blowing range of on-hook to be significantly increased, is conducive to air-conditining and preferably blows；Pass through setting mutually independent first Wind wheel 410 and the second wind wheel 420 so that the outlet air of the first air outlet 131 and the outlet air of the second air outlet 132 can mutually solely Vertical control, more preferably to control the outlet air of air-conditining.

In order to improve the space availability ratio of air-conditining and the working efficiency of the first wind wheel 410 and the second wind wheel 420, The air-conditining further includes the first spiral case 310, the second spiral case 340, and suitable with first spiral case, 310 and second spiral case 340 The first volute tongue 320 and the second volute tongue 350 matched；

First spiral case 310 and first volute tongue 320 are oppositely arranged to form first flow 330, the first flow 330 side is connected to first air outlet 131, and the other side forms first wind groove corresponding with first wind wheel 410, institute State extending partially into first wind groove for the first wind wheel 410；And/or

Second spiral case 340 is opposite with second volute tongue 350 to form second flow channel 330, the second flow channel 330 Side is connected to second air outlet 132, and the other side forms corresponding with second wind wheel 420 second wind groove, and described the Two wind wheels 420 extend partially into second wind groove.

Specifically, in the present embodiment, first spiral case 310 and first volute tongue 320 close to the rear wall 180, It is set to the bottom 160 of the shell 100.Second spiral case 340 is set to 100 bottom 160 of the shell or front side wall 170, Second volute tongue 350 is set on the bottom 160 or front side wall 170 of the shell 100, i.e. the first air outlet 131 is arranged in shell 100 bottom 160 of body, the second air outlet 132 can be located at 100 bottom 160 of shell, can also be located on front side wall 170.

Wherein, shell may be contained with the first spiral case 310, the second spiral case 340, the first volute tongue 320 and the second volute tongue 350 For the middle part of 100 bottoms 160, the first spiral case 310 is arranged close to rear wall 180, and the second spiral case 340 is set close to front side wall 170 It sets.The guide face of guide face the first spiral case 310 of direction of first volute tongue 320, guide face the second snail of direction of the second volute tongue 350 The guide face of shell 340.First volute tongue 320 and the connection of the second volute tongue 350, in some embodiments, the first volute tongue 320 and second Volute tongue 350 can be integrally formed setting.About the first spiral case 310, the first volute tongue 320, the second spiral case 340 and the second volute tongue Position relationship between 350, specific connection type can be in conjunction with the following examples to realize a variety of fit structures.Runner 330 one end forms wind groove, the shape of wind groove and the shape adaptation of wind wheel, and while to ensure that wind wheel can be packed into, air-flow can To be driven well by wind wheel.First air outlet 131 extends from wind wheel to rear wall 180, the second air outlet 132 from wind wheel forward Side wall 170 is in flared so that the air in air-out chamber flows out after runner 330 from air outlet under the action of wind wheel.

In the present embodiment, pass through setting for the first spiral case 310, the second spiral case 340, the first volute tongue 320 and the second volute tongue 350 It sets so that the air after heat exchange pressurizes in runner 330, and the flow direction of air is carried out unification, is effectively increased Wind pressure is conducive to the air supplying distance for increasing air, by the way that a part for wind wheel to be set in runner 330 so that the increasing of air Pressure effect and air-supply effect are significantly promoted.Wind wheel is by taking tubular wine wheel as an example, length direction of the tubular wine wheel along shell 100 Setting, air-flow is sent out from radial direction.

In order to more fully rationally utilize space, the present embodiment that can individually implement, implementation above can also be combined Example.First air outlet 131 and second air outlet 132 are respectively positioned on the bottom 160 of the shell 100；

First spiral case 310 and second spiral case 340 are connect with the bottom of the shell 100 160, the first outlet air It is isolated by first volute tongue, 320 and second volute tongue 350 being connected with each other between mouth 131 and second air outlet 132.

The runner 330 includes mutually independent first flow 330 and second flow channel 330；The first flow 330 is by institute It states the first spiral case 310 and the first volute tongue 320 is oppositely arranged to be formed, the second flow channel 330 is by second spiral case 340 and Two volute tongues 350 are oppositely arranged to be formed；The first flow 330 extends to the rear wall 180 of the shell 100, the second Road 330 extends along the front side wall 170 of the shell 100.

In the present embodiment, first flow 330 is connected to the top of second flow channel 330, and to form wind groove, lower part is mutually only It is vertical, and be connected to respectively with the first air outlet 131 and the second air outlet 132.The lower part of first tubular wine wheel is located at first flow 331 Interior, the lower part of the second tubular wine wheel is located in second flow channel 332.Air-flow adds on the top of first flow 330 and second flow channel 330 Pressure, in the lower part air supply stream of first flow 330 and second flow channel 330.Wherein, the lower part of first flow 330 to the back lower place (with The setting at an acute angle of the rear wall 180 of shell 100 and bottom 160) extend, second flow channel 330 with towards front lower place (with shell The setting at an acute angle of 100 front side wall 170 and bottom 160) extend.So that being flowed from the first air outlet 131 by first flow 330 The air gone out flowing underneath backwards, by the second flowing from the air flowing underneath facing forward of 132 flow of the second air outlet.First snail It is arranged in n shapes after tongue 320 and the connection of the second volute tongue 350, the first volute tongue 320 and the second volute tongue 350 in some embodiments, can be with It is integrally formed setting, 320 and second volute tongue 350 of integrally formed first volute tongue is fixedly connected with the bottom 160 of shell 100.

In order to more fully rationally utilize space, the present embodiment that can individually implement, implementation above can also be combined Example.First air outlet 131 is located at the bottom 160 of the shell 100, and second air outlet 132 is located at the shell 100 Front side wall 170 on；

First spiral case 310 and first volute tongue 320 are connect with the bottom of the shell 100 160, and described first Air outlet 131 is formed between first spiral case 310 and first volute tongue 320；

Second spiral case 340 is set to the bottom 160 of the shell 100, and second volute tongue 350 is set to the shell On 100 front side wall 170, second air outlet 132 be formed in second spiral case 340 and second volute tongue 350 it Between.One end of First Heat Exchanger 210 and the second heat exchanger 220 is connect with 100 top 150 of shell, the bottom of First Heat Exchanger 210 Portion 160 is connect with the bottom 160 of the shell 100 and/or rear wall 180；The bottom 160 of second heat exchanger 220 and the shell The front side wall 170 of body 100 and/or the connection of the second volute tongue 350.

In the present embodiment, first flow 330 is connected to the top of second flow channel 330, and to form wind groove, lower part is mutually only It is vertical, and be connected to respectively with the first air outlet 131 and the second air outlet 132.Air-flow is in first flow 330 and second flow channel 330 Top is pressurizeed, in the lower part air supply stream of first flow 330 and second flow channel 330.Wherein, the first wind wheel 410 is close to rear wall 180 settings, the lower part of first flow 330 is to the back lower place (with the setting at an acute angle of the rear wall 180 of shell 100 and bottom 160) Extend, or extends towards front lower place (with the setting at an acute angle of the front side wall 170 of shell 100 and bottom 160).Second flow channel 330 extend towards front lower place or front upper place (with the setting at an acute angle of the front side wall 170 of shell 100 and top 150).Second Air outlet 132 is arranged in the lower section of volute tongue.So that by first flow 330 from the air that the first air outlet 131 flows out backwards under Side or front lower place flowing are flowed by the second flowing from the air of 132 flow of the second air outlet towards front lower place or front upper place.

By being arranged the bottom 160 of the second heat exchanger 220 in the second volute tongue 350 so that the bottom of the second heat exchanger 220 The distance between portion 160 and top 150 maximize, and significantly increase the heat exchange area of the second heat exchanger 220, and make the The installation space during the installation process of two heat exchangers 220 is increased, and the fixation of 220 bottom 160 of the second heat exchanger is conducive to.

In order to more fully rationally utilize space, one end of First Heat Exchanger 210 and the second heat exchanger 220 is and shell The middle part at 100 top 150 connects, the bottom 160 of First Heat Exchanger 210 and the bottom 160 of the shell 100 and/or rear side Wall 180 connects；The bottom 160 of second heat exchanger 220 is connect with the front side wall 170 of the shell 100 and/or the second volute tongue 350.

Pass through the interposition by one end of First Heat Exchanger 210 and the second heat exchanger 220 with the top of shell 100 150 Connection is set, the bottom 160 of First Heat Exchanger 210 is connect with the bottom 160 of shell 100 or rear wall 180, is added significantly to The heat exchanger area of one heat exchanger 210, by the front side wall 170 of the bottom 160 of the second heat exchanger 220 and shell 100 and/or the Two volute tongues 350 connect, and are added significantly to the volume of the second heat exchanger 220.

In order to keep the air-supply of the first wind wheel 410 and the second wind wheel 420 completely mutual indepedent, sending for air conditioner is further increased Wind Precise control degree, the air-conditining further include middle baffles 600, and the middle baffles 600 are from the shell 100 Bottom 160 extends to the top 150 of the shell 100, and the shell 100 is separated to form mutual indepedent first air duct and Two air ducts；

The First Heat Exchanger 210 and first wind wheel 410 are located in first air duct, second heat exchanger 220 and second wind wheel 420 be located in second air duct.

Specifically, in the present embodiment, middle baffles 600 are set to the middle part in 100 width direction of shell, along shell 100 Length direction extend, shell 100 is separated to form two along the air duct that 100 length direction of shell extends.With the first air duct For suitable with the volume in the second air duct, in some embodiments, the first air duct and the second air duct are symmetrical about middle baffles 600 Setting.The top 150 of middle baffles 600 is fixedly connected with the top 150 of shell 100, the bottom 160 of middle baffles 600 and shell The bottom 160 of body 100 is fixedly connected so that the first air duct and the second air duct are completely mutual indepedent.When air-flow passes through first respectively When air duct and the second air duct, the air-flow in two air ducts is not interfere with each other.At this point, air from the first air inlet 110 enter first into Wind chamber 185 enters the first air-out chamber 191 after First Heat Exchanger 210, then flows out the first air duct from the first air outlet 131； Air enters the second air-inlet cavity 175 from the second air inlet 120, the second air-out chamber 192 is entered after the second heat exchanger 220, so Afterwards the second air duct is flowed out from the second air outlet 132.

Pass through the setting of middle baffles 600 so that the first air duct and the second air duct are completely mutual indepedent, to which user can be with According to the demand of oneself, selection is used simultaneously using one of air duct or two air ducts, and it is more flexible to be conducive to user The resource for configuring air conditioner, so that air conditioner can better meet the demand of client, to serve user.

In order to make the air-flow in the first air duct and the second air duct more smoothly flow out, with reduce wind it is hot-tempered and save wind energy, The air-conditining further includes the first spiral case 310, the second spiral case 340, and suitable with first spiral case, 310 and second spiral case 340 The first volute tongue 320 and the second volute tongue 350 matched；

First spiral case 310 is set to the bottom 160 of the shell 100 close to the rear wall 180 of the shell 100, 100 bottom 160 of the shell is arranged close to the front side wall 170 in second spiral case 340；

The middle baffles 600 include the first partition 610 being arranged side by side and second partition 620, the first partition 610 It is enclosed first air duct, the lower part of the first partition 610 and first volute tongue 320 1 with the rear wall 180 It is body formed；The second partition 620 is enclosed second air duct with the front side wall 170, the second partition 620 Lower part is integrally formed with second volute tongue 350.

Specifically, in the present embodiment, the bottom of shell 100 is arranged at the first air outlet 131 and the second air outlet 132 It is illustrated for 160.First partition 610 and second partition 620 are arranged side by side, and first partition 610 and the first spiral case 310 are right It answers, to cooperatively form first flow 331 with the first spiral case 310；Second partition 620 is corresponding with the second spiral case 340, with the second snail Shell 340 cooperatively forms second flow channel 332.First spiral case 310 is arranged in the first air-out chamber 191, is set close to middle baffles 600 It sets, the position that first partition 610 corresponds to the first wind wheel 410 forms the first wind groove, the shape of the first wind groove and the first wind wheel 410 The lower part of adaptation, the first spiral case 310 and septum primum baffle 600 cooperatively forms first flow 331.The setting of second spiral case 340 exists In second air-out chamber 192, it is arranged close to middle baffles 600, the position that second partition 620 corresponds to the second wind wheel 420 forms second Wind groove, the shape of the second wind groove are adapted to the second wind wheel 420, and the lower part of the second spiral case 340 and septum secundum baffle 600 coordinates shape At second flow channel 332.First flow 331 is to the back lower place to extension, and 332 forward downward of second flow channel is to extension so that by the The air-flow of one runner 331 is blown to the back lower place, the air-flow forward downward air-supply by second flow channel 332.

In the present embodiment, by the way that the first wind groove is arranged in the lower part of first partition 610, and coordinate with the first spiral case 310, Make the air after First Heat Exchanger 210 under the guiding of first flow 331, very smoothly from the first air-out chamber 191 Outflow；By the way that the second wind groove is arranged in the lower part of second partition 620, and coordinate with the second spiral case 340 so that by the second heat exchange Air after device 220 is smoothly flowed out from the second air-out chamber 192 very much under the guiding of second flow channel 332；To substantially drop Low collision and friction between air-flow and shell 100 and middle baffles 600, be greatly reduced wind it is hot-tempered while, saved wind Energy.

It outflows in order to avoid the condensed water of heat exchanger, the air-conditining further includes the first drip tray 510 and the second water receiving Disk 520；

First drip tray 510 is located at the bottom 160 of the First Heat Exchanger 210, and with the bottom of the shell 100 160 and/or rear wall 180 be detachably connected；

Second drip tray 520 is located at the bottom 160 of second heat exchanger 220, and with the bottom of the shell 100 160 and/or front side wall 170 be detachably connected.

First drip tray 510 can be connected to multiple positions, and the junction to be connected to bottom 160 and rear wall 180 is Example.Air-conditining further includes holder, and holder connects 100 bottom 160 of shell and 100 rear wall 180 of shell, the first drip tray 510 It is installed on holder, also, the bottom 160 of First Heat Exchanger 210 is connect with holder or the first drip tray 510, so that first The condensed water of heat exchanger 210 flows into the first drip tray 510.Certainly, in some embodiments, the first drip tray 510 and holder Setting can be integrally formed.

Second drip tray 520 can be connected to multiple positions, and the junction to be connected to bottom 160 and front side wall 170 is Example.Air-conditining further includes holder, and the junction in 100 bottom 160 of front side wall 170 and shell is arranged in holder.Second drip tray 520 are installed on holder, also, the bottom 160 of the second heat exchanger 220 is connect with holder or the second drip tray 520, so that the The condensed water of two heat exchangers 220 flows into the second drip tray 520.Certainly, in some embodiments, the second drip tray 520 and branch Frame can be integrally formed setting.

First drip tray 510 and the second drip tray 520 extend along the length direction of corresponding heat exchanger, and one Height apart from 100 bottom 160 of shell is held, height of the other end apart from bottom 160 is higher than so that the first drip tray 510 and the Water in two drip trays 520 is flowed from higher one end to lower one end.In order to more easily be discharged, the first drip tray 510 and 520 higher one end of the second drip tray be located at the same end (left or right) of shell 100.It is with the first drip tray 510 Example, height of 510 left end of the first drip tray apart from 100 bottom 160 of shell are more than 510 right end of the first drip tray apart from shell The height of 100 bottoms 160 so that the water in the first drip tray 510 flow to right end from the left end of the first drip tray 510, using Drainpipe is discharged.Similarly, the water in the second drip tray 520, also flow to right end, using row from the left end of the second drip tray 520 Water pipe is discharged.It being arranged such so that the condensed water in the first drip tray 510 and the second drip tray 520 can rapidly be discharged, from And the phenomenon that avoiding the occurrence of ponding, and then avoid growing bacterium etc. inside air-conditining, it is more healthy to be conducive to raising user Use air conditioner.

In order to which the wind for reducing air conditioner is hot-tempered, the space of shell 100, first wind wheel 410 and institute are adequately and reasonably utilized It is tubular wine wheel to state the second wind wheel 420, and first wind wheel 410 and second wind wheel 420 are along the length of the shell 100 Spend direction setting.By the way that the first wind wheel 410 and the second wind wheel 420 are extended along the length direction of shell 100 so that first Wind wheel 410 and the second wind wheel 420 can act in entire shell 100, and the utilization rate in 100 space of shell greatly improved.

For the ease of the installation of air-conditining, the air-conditining includes multiple first air outlets 140, and multiple described first Air outlet 140 along the shell 100 circumferential array so that air-conditining have multiple installation positions.In the surrounding of shell 100 (top 150, bottom 160, left and right end wall and rear wall 180) is both provided with the first air outlet 140, and certain air-conditining needs When installation, required position can be selected to be installed.So that the installation of air-conditining is more convenient.

The above is only the preferred embodiment of the present invention, and it does not limit the scope of the patent of the present invention, Under every utility model in the utility model is conceived, equivalent structure made based on the specification and figures of the utility model Transformation, or directly/be used in other related technical areas indirectly and be included in the scope of patent protection of the utility model.

Claims (12)

1. a kind of air-conditining, which is characterized in that including：

Shell, the shell have air inlet and outlet, and the air duct of the connection air inlet and air outlet, the outlet air Mouth includes the first air outlet and the second air outlet, and the air outlet is located at bottom and/or the front side wall of the shell；

First Heat Exchanger and the second heat exchanger, first heat exchange and second heat exchanger are arranged in parallel, first heat exchange Device and second heat exchanger are set in the air duct；

The bottom of the First Heat Exchanger, the second heat exchanger and shell is enclosed air-out chamber, the air-out chamber with it is described go out Air port is connected to；

First wind wheel and the second wind wheel, first wind wheel corresponds to first air outlet and is set in the air-out chamber, described Second wind wheel corresponds to second air outlet and is set in the air-out chamber.

2. air-conditining as described in claim 1, which is characterized in that the air-conditining further includes the first spiral case, the second snail Shell, and the first volute tongue and the second volute tongue that are adapted to first spiral case and the second spiral case；

First spiral case and first volute tongue are oppositely arranged to form first flow, the side of the first flow and described the One air outlet is connected to, and the other side forms the first wind groove corresponding with first wind wheel, and first wind wheel extends partially into In first wind groove；And/or

Second spiral case is opposite with second volute tongue to form second flow channel, and the side of the second flow channel goes out with described second Air port is connected to, and the other side forms the second wind groove corresponding with second wind wheel, and extending partially into for second wind wheel is described In second wind groove.

3. air-conditining as claimed in claim 2, which is characterized in that first air outlet and the equal position of the second air outlet In the bottom of the shell；

First spiral case and second spiral case are connect with the bottom of the shell, the first air outlet and second outlet air It is isolated by first volute tongue being connected with each other and the second volute tongue between mouthful.

4. air-conditining as claimed in claim 2, which is characterized in that first air outlet is located at the bottom of the shell, Second air outlet is located on the front side wall of the shell；

First spiral case and first volute tongue are connect with the bottom of the shell, and first air outlet is formed in described Between first spiral case and first volute tongue；

Second spiral case is set to the bottom of the shell, and second volute tongue is set on the front side wall of the shell, and described the Two air outlets are formed between second spiral case and second volute tongue.

5. air-conditining as claimed in claim 4, which is characterized in that one end of First Heat Exchanger and the second heat exchanger is and shell The middle part at the top of body connects, and the bottom of First Heat Exchanger is connect with the bottom of the shell and/or rear wall；Second heat exchanger Bottom connect with the front side wall of the shell and/or the second volute tongue.

6. air-conditining as described in claim 1, which is characterized in that the air-conditining further includes middle baffles, in described Baffles extend to the top of the shell from the bottom of the shell, and the shell is separated to form mutual indepedent first wind Road and the second air duct；

The First Heat Exchanger and first wind wheel are located in first air duct, second heat exchanger and second wind Wheel is located in second air duct.

7. air-conditining as claimed in claim 6, which is characterized in that the air-conditining further includes the first spiral case, the second snail Shell, and the first volute tongue and the second volute tongue that are adapted to first spiral case and the second spiral case；

First spiral case is set to the bottom of the shell close to the rear wall of the shell, and second spiral case is close to described The housing bottom is arranged in front side wall；

The middle baffles include first partition and second partition arranged side by side, and the first partition is enclosed with the rear wall First air duct is formed, the lower part of the first partition is integrally formed with first volute tongue；The second partition with it is described Front side wall is enclosed second air duct, and the lower part of the second partition is integrally formed with second volute tongue.

8. air-conditining as described in claim 1, which is characterized in that one end of First Heat Exchanger and the second heat exchanger is and shell The top of body connects, so that the cross section of the air-out chamber is triangular in shape or trapezoidal.

9. air-conditining as claimed in claim 8, which is characterized in that the top of the First Heat Exchanger and the shell and after Side wall is enclosed the first air-inlet cavity, and the first air inlet is offered on the side wall of first air-inlet cavity；Second heat exchanger Be enclosed the second air-inlet cavity with the top of the shell and front side wall, offered on the side wall of second air-inlet cavity second into Air port, first air-inlet cavity and second air-inlet cavity are mutual indepedent.

10. air-conditining as claimed in claim 9, which is characterized in that first air inlet and second air inlet are equal Positioned at the top of the shell.

11. air-conditining as described in claim 1, which is characterized in that the air-conditining further includes the first drip tray and Two drip trays；

First drip tray is located at the bottom of the First Heat Exchanger, and removable with the bottom of the shell and/or rear wall Unload connection；

Second drip tray is located at the bottom of second heat exchanger, and removable with the bottom of the shell and/or front side wall Unload connection.

12. air-conditining as described in claim 1, which is characterized in that first wind wheel and second wind wheel are to pass through Wind wheel is flowed, first wind wheel and second wind wheel are arranged along the length direction of the shell.