CN208011898U - Cabinet air-conditioner and air conditioner - Google Patents

Abstract

The utility model discloses a kind of cabinet air-conditioner and air conditioner, cabinet air-conditioner includes shell, the first wind guiding component and the second wind guiding component, and air outlet is offered on front side of shell, and air outlet extends along the length direction of shell；First wind guiding component is arranged at air outlet, including the first wind blade that multiple length directions along shell are arranged, first wind blade are connect with housing into rotation；Second wind guiding component is arranged at air outlet, and the second wind guiding component is located at the downside of the first wind guiding component, and the second wind guiding component includes the second wind blade that multiple length directions along shell are arranged, which connect with housing into rotation；The distance between adjacent two first wind blades are H1, and the distance between adjacent two second wind blades are H2, H1 > H2；Alternatively, H1 < H2.The utility model improves the structure of cabinet air-conditioner, improves the air supplying distance and comfort of cabinet air-conditioner.

Description

Cabinet air-conditioner and air conditioner

Technical field

The utility model is related to air-conditioning technical field more particularly to a kind of cabinet air-conditioners and air conditioner.

Background technology

In the prior art, air conditioner is when being heated, the warm wind of the air outlet blowout of cabinet air-conditioner since density is relatively low, It can ramp up, cause the air supplying distance of cabinet air-conditioner shorter as a result, and the temperature of indoor upper space is high, and indoor lower part is empty Between temperature it is low, keep the air-supply comfort of cabinet air-conditioner poor.

Utility model content

The main purpose of the utility model is to provide a kind of cabinet air-conditioners, it is intended to improve the air supplying distance of cabinet air-conditioner with And air-supply comfort.

To achieve the above object, the utility model proposes a kind of cabinet air-conditioner, the cabinet air-conditioner includes：

Shell, front side offer air outlet, and the air outlet extends along the length direction of the shell；

First wind guiding component is arranged at the air outlet, including multiple length directions along the shell arrange the One wind blade, first wind blade are connect with the housing into rotation；

Second wind guiding component is arranged at the air outlet, and second wind guiding component is located at the first wind-guiding group The downside of part, second wind guiding component include the second wind blade that multiple length directions along the shell are arranged, this Two wind blades are connect with the housing into rotation；

The distance between adjacent two described first wind blade is H1, the distance between adjacent two described second wind blade For H2, the H1 > H2；Alternatively, the H1 < H2.

Preferably, the H1 and H2 meets：0.5≤H2/H1≤0.9.

Preferably, the H1 and H2 meets：0.7≤H2/H1≤0.9.

Preferably, the height of first wind guiding component is H3, and the height of second wind guiding component is H4, as H1 > H2 When, the H3 and H4 meet：0.3≤H4/H3≤1.

Preferably, the side of first wind blade offers perforative first ventilation hole；And/or

The side of second wind blade offers perforative second ventilation hole.

Preferably, between the width of first wind blade, with the rotation axis of adjacent two first wind blade Away from suitable；And/or

The width of second wind blade is suitable with adjacent two spacing of rotation axis of second wind blade.

Preferably, tubular wine wheel and heat exchanger are provided in the shell, the tubular wine wheel connects with shell rotation It connects, air inlet is offered on rear side of the shell, which extends along the length direction of the shell；The heat exchanger and institute It states air inlet and/or the air outlet is corresponding, the heat exchanger refrigerant inlet corresponding in heating mode is located under it Portion, the heat exchanger refrigerant exit corresponding in heating mode is located therein or top.

Preferably, the heat exchanger is single row heat exchanger, including：

The quantity of fin, the fin is multiple, and along the circumferential array of the shell；

Heat exchanger tube is arranged on multiple fins, and the quantity of the heat exchanger tube is multiple, and multiple heat exchanger tubes are along institute State the length direction arrangement of shell.

Preferably, the homonymy of multiple first wind blades and multiple second wind blades is provided with connecting rod, The position that the connecting rod corresponds to first wind blade is provided with first connecting portion, and the connecting rod corresponds to described second and leads The position of air blade is provided with second connecting portion, and the first connecting portion is rotatablely connected with first wind blade, and described the Two interconnecting pieces are rotatablely connected with second wind blade.

Preferably, air inlet, the cylindrical setting of shell are offered on rear side of the shell, the heat exchanger is in arc Shape is arranged, and corresponding with the air inlet.

The utility model also proposes a kind of air conditioner, which includes outdoor unit and cabinet air-conditioner as described above, institute Stating cabinet air-conditioner includes：

Shell, front side offer air outlet, and the air outlet extends along the length direction of the shell；

First wind guiding component is arranged at the air outlet, including multiple length directions along the shell arrange the One wind blade, first wind blade are connect with the housing into rotation；

Second wind guiding component is arranged at the air outlet, and second wind guiding component is located at the first wind-guiding group The downside of part, second wind guiding component include the second wind blade that multiple length directions along the shell are arranged, this Two wind blades are connect with the housing into rotation；

The distance between adjacent two described first wind blade is H1, the distance between adjacent two described second wind blade For H2, the H1 > H2；Alternatively, the H1 < H2.

The utility model by be arranged at the air outlet of cabinet air-conditioner the first wind guiding component for arranging along the vertical direction and Second wind guiding component, and make the distance between adjacent two described first wind blade H1 in the first wind guiding component, it is led more than second The distance between adjacent two described second wind blade H2, more after the air in shell is accelerated by air-supply assembly in wind component Air velocity between a first wind blade, the air velocity being less than between multiple second wind blades, to make air outlet The part air supplying distance of corresponding second wind guiding component is farther.As a result, when air conditioner is in heating mode, led by control first Air blade and the second wind blade tilt down certain angle, make the heating edge blown out from air outlet lower part towards outside air outlet Horizontal direction rises again after flowing longer distance, and not only air supplying distance is remote, but also can quickly improve indoor lower space Temperature plays the effect for warming up foot；And begun to ramp up after blowing out certain distance from the warm wind on air outlet top, it is direct to avoid warm wind It blows to the head of human body and human body is made to generate discomfort.Alternatively, make in the first wind guiding component adjacent two first wind blade it Between distance H1, be less than in the distance between adjacent two described second wind blade H2 in the second wind guiding component, to make outlet air The part air supplying distance of corresponding first wind guiding component of mouth is farther.When air conditioner is in refrigeration mode, by controlling the first wind-guiding Blade and the second wind blade tilt certain angle, can improve the air-supply of air outlet top cold wind upwards towards outside air outlet Distance keeps the temperature in space more uniform.

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 cabinet air-conditioner；

Fig. 2 is the sectional view along the directions A-A in Fig. 1；

Fig. 3 is the structural schematic diagram of the first wind guiding component of the utility model and the second wind guiding component；

Fig. 4 is structural schematic diagram when the first wind guiding component of the utility model and the second wind guiding component are in another state；

Fig. 5 is the partial sectional view of heat exchanger in Fig. 2, and the axial direction along heat exchanger tube has carried out section view.

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 the creative labor 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 proposes a kind of cabinet air-conditioner, which is mainly used for air conditioner, with the temperature to air into Row is adjusted.

Referring to figs. 1 to Fig. 3, above-mentioned cabinet air-conditioner includes shell 10, and the surface of shell 10 offers air outlet 101, this goes out Air port 101 extends along the length direction of shell 10；The first wind guiding component 11 and the second wind guiding component are additionally provided at air outlet 101 12, the first wind guiding component 11 is located at the upside of the second wind guiding component 12, and the first wind guiding component 11 includes multiple along shell 10 First wind blade 111 of length direction arrangement, first wind blade 111 are rotatablely connected with shell 10；Second wind guiding component 12 include the second wind blades 121 that multiple length directions along shell 10 are arranged, second wind blade 121 also with shell 10 Rotation connection can be to the air-flow that is blown out from air outlet 101 by rotating the first wind blade 111 and the second wind blade 121 Direction is adjusted.

As shown in figure 3, the distance between adjacent two first wind blades 111 be H1, adjacent two second wind blades 121 it Between distance be H2, in the present embodiment, H1 > H2 can be made, to improve the air-supply comfort of indoor bottom, make air-conditioning cabinet equipment There is the warm cool effect of foot.

It is understood that after the air air-supply assembly 20 in shell 10 accelerates, multiple first wind blades can be flowed through The gap between gap and multiple second wind blades 121 between 111, due to H1 > H2 namely a first wind blade Gap between 111 is more than the gap between multiple second wind blades 121, therefore, between multiple second wind blades 121 Faster, air supplying distance is farther for gas flow rate.When air conditioner is in refrigeration mode, by controlling the first wind blade 111 and the Two wind blades 121 tilt certain angle, can improve the air-supply of 101 lower part cold wind of air outlet upwards towards outside air outlet 101 Distance keeps the temperature in space more uniform.When air conditioner is in heating mode, by controlling 111 He of the first wind blade Second wind blade 121 tilts down certain angle, makes the heating edge blown out from 101 lower part of air outlet towards outside air outlet 101 Horizontal direction rises again after flowing longer distance, and not only air supplying distance is remote, but also can quickly improve indoor lower space Temperature plays the effect for warming up foot；And begun to ramp up after blowing out certain distance from the warm wind on 101 top of air outlet, to avoid warm wind It directly blows to the head of human body and human body is made to generate discomfort.

Wherein, when the first wind blade 111 is slab construction, the distance between adjacent two first wind blades 111 H1 It can be the minimum range between the opposite two sides of two first wind blades 111；When the side of the first wind blade is in curved surface, When the shapes such as cambered surface are arranged, the minimum widith in the gap that distance H1 can be between adjacent two first wind blades 111.Distance H2 Similar with distance H1, details are not described herein again.

In other implementations, H1 < H2 can be made, as a result, when air conditioner is when being freezed, from 101 top of air outlet The cold wind wind speed of blowout faster, and due to the height higher on 101 top of air outlet, cold wind can reach farther distance, Alternatively, higher height is reached, to improve the refrigeration effect of cabinet air-conditioner.

In the present embodiment, as H1 > H2, above-mentioned H1 and H2 can be made to meet：0.5≤H2/H1≤0.9.It is appreciated that It is that, if the ratio of H2 and H1 is too small, the speed raising of 101 lower part outlet air of air outlet is not apparent enough；If the ratio mistake of H2 and H1 Greatly, then the second wind guiding component 12 is excessive to the resistance of air-flow, not only will increase the wind loss at air outlet 101, but also meeting So that the adjacent air velocity between the first wind blade 111 is increased, and weakens cabinet air-conditioner warm cool air-supply effect enough.Separately Outside, H2/H1 is arranged in rational range, not only reduces the wind loss at air outlet 101, and can exist with cabinet air-conditioner It is combined with the distance between human body in actual use, so that air conditioner in heating mode, is blown out from 101 lower part of air outlet Heating blows to the lower part of the body of human body, and the heating blown out from 101 top of air outlet is begun to ramp up after blowing out shorter distance, without The head of human body is directly blowed to, or only less hot wind blows to the head of human body, to be in heating mode in air conditioner When, there is the preferably warm cool effect of foot, further improve the comfort of air-supply.In a preferred embodiment, can make 0.7≤H2/H1≤0.9, so that cabinet air-conditioner has preferably air-supply comfort.

Similarly, as H1 < H2,0.5≤H1/H2≤0.9 can be made, when air conditioner is when being freezed, make air-conditioning cabinet Machine has air supplying distance and smaller wind loss farther out.

As shown in figure 3, the height of the first wind guiding component 111 is H3, the height of the second wind guiding component 121 is H4, this implementation In example, as H1 > H2,0.3≤H4/H3≤1 can be made, the height to avoid the second wind guiding component 12 is long, and leads to outlet air Wind loss at mouth 101 is excessive.Moreover, the ratio range of H4 and H3 is combined by it with cabinet air-conditioner actual height, so that For air conditioner in heating mode, the heating blown out from 101 lower part of air outlet blows to the lower part of the body of human body, from 101 top of air outlet The heating of blowout is begun to ramp up after blowing out shorter distance, the head without directly blowing to human body, or only less heat Wind is further increased to the head of human body to when air conditioner is in heating mode, have the preferably warm cool effect of foot The comfort of air-supply.

Similarly, as H1 < H2,0.3≤H3/H4≤1 can be made, the height to avoid the first wind guiding component 12 is long, And cause the wind loss at air outlet 101 excessive.

It is understood that when H1, H2, H3 and H4 meet above-mentioned requirements constantly simultaneously, the air supplying distance of cabinet air-conditioner is more Far, air quantity bigger, air-supply comfort are more preferable.

As shown in figure 4, the width of the first wind blade 111 is H5, adjacent two first wind blades 111 are relative to shell 10 The distance between rotation axis be H6, in the present embodiment, the width H5 of the first wind blade 111 can be made, with adjacent two the The spacing H6 of the rotation axis of one wind blade 111 is suitable.As a result, when cabinet air-conditioner is not run, make at the first wind blade 111 (namely the first wind blade 111 is in generally vertical position), the side of multiple first wind blades 111 when closed position It can keep being substantially flush, so that cabinet air-conditioner is more beautiful.Wherein, the width H5 of the first wind blade 111, with adjacent two The spacing H6 of the rotation axis of one wind blade 111 is suitable, can be that H5 is equal with H6, can also be that H5 is slightly less than H6, alternatively, H5 is slightly larger than H6.

It should be noted that the part in multiple first wind blades 111 can be made to meet above-mentioned requirements, can also make The first all wind blades 121 meet above-mentioned requirements, certainly, when the first all wind blades 121 meets above-mentioned requirements, The appearance of cabinet air-conditioner is promoted more preferable.

Similarly, the width of the second wind blade 121 is H7, and adjacent two second wind blades 121 are relative to shell 10 The distance between rotation axis is H8, can make the width H7 of the second wind blade 121, with adjacent two second wind blades 121 Rotation axis spacing H8 it is suitable, details are not described herein again.

It is understood that as the width H5 of the first wind blade 111, the rotation with adjacent two first wind blades 111 The spacing H6 of axis is suitable, and the width H7 of the second wind blade 121, the rotation axis with adjacent two second wind blades 121 Spacing H8 it is suitable when, the overall appearance effect of cabinet air-conditioner is more preferable.

In the present embodiment, third wind guiding component can also be set between the first wind guiding component 11 and the second wind guiding component 12 (not shown), the third wind guiding component include the multiple third wind blades arranged along the length direction of shell 10, and adjacent two the Between the distance between the distance between one wind blade, adjacent two second wind blade and adjacent two thirds wind blade away from Reduce from component, so that the wind speed at air outlet 101 from top to bottom uniformly successively decreases, to further increase the air-supply of cabinet air-conditioner Comfort.It is understood that more wind-guiding groups can also be arranged between the first wind guiding component 11 and the second wind guiding component 12 Part, details are not described herein again.

On the basis of above-mentioned any one embodiment, perforative first can be opened up in the side of the first wind blade 111 Ventilation hole 112, as a result, when air-flow is flowed out from air outlet 101, which can disperse air-flow 101, So that cabinet air-conditioner has the effect of calm sense air-supply.

Wherein, the quantity of the first ventilation hole 112 can be one or more, certainly, when the quantity of the first ventilation hole 112 is When multiple, the calm sense air-supply effect of cabinet air-conditioner is more preferable.

Furthermore it is possible to make to open up the first ventilation hole 112 on one in multiple first wind blades 111, can also make more Multiple or whole in a first wind blade 111 opens up the first ventilation hole 112, it is clear that when the first whole wind blades 111 It is upper when offering multiple first ventilation holes 112 respectively, it is maximum to the calm sense air-supply effect promoting of cabinet air-conditioner.

Likewise it is possible to the second ventilation hole (not shown) be opened up on the second wind blade 121, so that cabinet air-conditioner has The effect of calm sense air-supply.Wherein, the quantity of the second ventilation hole opened up on the second wind blade 121, and, offer second Second wind blade 121 of ventilation hole can refer to above-mentioned first wind blade 111, and details are not described herein again.

On the basis of above-mentioned any one embodiment, as shown in Figures 3 and 4, the first wind guiding component 11 can be made at least Two the first wind blades 111 interlock with the rotation, as a result, by drive one of them first wind blade 111 rotate, you can make with Its first wind blade 111 to interlock with the rotation rotates.Certainly, when multiple first wind blades 111 of the first wind guiding component 11 are equal It is more convenient to the control of multiple first wind blades 111 when interlocking with the rotation.

It is equally possible that making at least two second wind blades 121 of the second wind guiding component 12 interlock with the rotation, herein not It repeats again.

In a preferred embodiment, the first wind guiding component 11 and the second wind guiding component 12 can be made to be connected, as a result, When being rotated relative to shell 10 by driving one in the first wind guiding component 11 and the second wind guiding component 12, another also can be opposite Shell 10 rotates, and operation is more convenient.

Specifically, can connecting rod be set in the homonymy of multiple first wind blades 111 and multiple second wind blades 121 13, which corresponds to the first wind blade 111 and the position of the second wind blade 121 is respectively arranged with first connecting portion (not shown) and second connecting portion (not shown) are turned with the linkage realized between the first wind guiding component 11 and the second wind guiding component 12 Dynamic, simple in structure, installation is convenient to.

In the present embodiment, the rotation axis of the 111 opposite shell 10 of the first wind blade of the first wind guiding component 11 can be made Along radially extending for shell 10, so that the first wind blade 111 has preferable wind effect up and down.Wherein, the first wind guide vane Piece 111 can be radial parallel with shell 10 with respect to the rotation axis of shell 10, can also be first to the radial skew one of shell 10 Fixed angle.Certainly, when the rotation axis of the opposite shell of the first wind blade 111 10 and shell 10 it is radial parallel when, first The wind effect up and down of wind blade 111 is more preferable.

In addition, multiple first wind blades 111 can be mutually parallel with respect to the rotation axis of shell 10, can also mutually incline Tiltedly certain angle when multiple first wind blades 111 are mutually parallel with respect to the rotation axis of shell 10, can make certainly The air-flow wind direction blown out between multiple first wind blades 111 is essentially identical, and then it is more uniform to use wind velocity.

Relationship between second wind blade 121 and shell 10 and between multiple second wind blades 121, Ke Yican According to the relationship between the first wind blade 111 and shell 10 and between multiple second wind blades 121, details are not described herein again.

In the present embodiment, it further includes that controller (not shown) and driving device (are not shown in figure that can make cabinet air-conditioner Go out), which is electrically connected with driving device, which connects with the first wind guiding component 11 and the second wind guiding component 12 respectively It connects, controller is for controlling the driving device the first wind blade 111 of driving and the rotation of the second wind blade 121.

It is of course also possible to drive 121 turns of the first wind blade 111 and the second wind blade by manually controlling driving device It moves to set angle, alternatively, directly the first wind blade 111 is moved with hand push and the second wind blade 121 turns to set angle, To save controller or driving device, to reduce the overall cost of cabinet air-conditioner.

In the present embodiment, as shown in Fig. 2, when air-supply assembly 20 is tubular wine wheel, have in shell 10 and tubular wine wheel Corresponding volute tongue 103 in the present embodiment, can make 103 turns of the first wind blade 111 and the second wind blade 121 and volute tongue Dynamic connection, to improve the space availability ratio of shell 10.

On the basis of above-mentioned any one embodiment, as shown in Fig. 2, the air-supply assembly 20 in cabinet air-conditioner can be made to be to pass through Wind wheel is flowed, which is rotatably connected with shell 10；The heat exchanger 30 of cabinet air-conditioner is located in shell 10, and with shell 10 Air inlet 102 and/or air outlet 101 are corresponding.When cabinet air-conditioner works, tubular wine wheel rotation, by indoor air from sky It adjusts the air inlet 102 of cabinet-type air conditioner to be drawn into shell 10, and heat exchange is carried out with heat exchanger 30, then from the air outlet of cabinet air-conditioner 101 blowouts, indoor temperature to be adjusted.Thereby, it is possible to reduce resistance of the heat exchanger 30 to air, air outlet is improved Wind speed at 101.

Wherein it is possible to keep heat exchanger 30 opposite with one in air inlet 102 and air outlet 101, heat exchanger can also be made 30 is opposite with air inlet 102 and air outlet 101 simultaneously.Certainly, when heat exchanger 30 is corresponding with air inlet 102, heat exchanger 30 To the air speed influence smaller at air outlet 101.

In the present embodiment, the refrigerant inlet that heat exchanger 30 can be made corresponding when air conditioner is in heating mode (is not shown Go out) it is located at the lower part of heat exchanger 30, and the refrigerant exit for keeping heat exchanger 30 corresponding when air conditioner is in heating mode (does not show Go out) it is located at the middle part or top of heat exchanger 30.So that when air conditioner heat-production, the Air Temperature after being exchanged heat with 30 lower part of heat exchanger Degree carries out the temperature after heat exchange, when air is blown out from air outlet 101, air outlet higher than with 30 middle part of heat exchanger and top The gas flow temperature of 101 lower parts blowout is higher than the gas flow temperature at air outlet 101 middle part and top blowout.It is led as a result, by first The wind-guiding of wind component 11 and the second wind guiding component 12 acts on, and so as to improve the heating effect of indoor bottom, it is warm to further strengthen foot Cool effect.

Alternatively, when air conditioner is heated, the air themperature after being exchanged heat with 30 top of heat exchanger is higher than and heat exchange 30 middle part of device and lower part carry out the air themperature after heat exchange, and when air is blown out from air outlet 101,101 top of air outlet is blown The gas flow temperature gone out will be less than the gas flow temperature at air outlet 101 middle part and lower part blowout, to make colder air-flow be delivered to more Remote distance, rapidly and uniformly to reduce indoor temperature.

In the present embodiment, heat exchanger 30 can be single row heat exchanger, or double row tube heat exchanger；It can also make to change A part for hot device 30 is biexhaust pipe structure, and another part is single row of tubes structure.Wherein, when heat exchanger 30 is single row heat exchanger When, resistance of the heat exchanger 30 to air can be reduced, speed higher when air-flow being made to carry out heat exchange with heat exchanger 30, and then make Speed when air is blown out from air outlet 101 is faster.

Specifically, as shown in figure 5, heat exchanger 30 can be made to include the fins 31 of multiple circumferential arrays along cabinet air-conditioner, And it is arranged in the heat exchanger tube 32 on multiple fins 31, the quantity of heat exchanger tube 32 is multiple, is arranged along the length direction of shell 10 Row, and form the pipeline to circulate for refrigerant.

It is understood that the multiple fins 31 and multiple heat exchanger tubes 32 of heat exchanger 30 are arranged in the manner described above Afterwards, the refrigerant being under heating mode can enter from the refrigerant nozzle of 30 lower part of heat exchanger, and thereby, it is possible to improve air outlet 101 The temperature difference between the air-flow of lower part and the air-flow on top, to further increase the warm cool effect of foot.

It is of course also possible to make multiple fins 31 be arranged along the length direction of shell 10, alternatively, making multiple fins edges and shell The direction arrangement that 10 length direction is tilted a certain angle, details are not described herein again.

In the present embodiment, 10 cylindrical setting of shell can be made, to reduce the occupied interior space of cabinet air-conditioner.Into One step, can make 30 arc-shaped setting of heat exchanger, so that heat exchanger 30 and shell 10 is compact-sized, further reduce air-conditioning The volume of cabinet-type air conditioner.

In the present embodiment, as shown in Fig. 2, the auxiliary thermal of electricity can also be arranged between heat exchanger 30 and fan assembly 20 40, to improve the heating effect of cabinet air-conditioner.

It is understood that due to the utility model proposes air conditioner include above-mentioned cabinet air-conditioner all embodiments Therefore all schemes at least have technique effect identical with the cabinet air-conditioner, do not illustrate one by one herein.

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 (10)

1. a kind of cabinet air-conditioner, which is characterized in that the cabinet air-conditioner includes：

Shell, front side offer air outlet, and the air outlet extends along the length direction of the shell；

First wind guiding component is arranged at the air outlet, including first leading of arranging of multiple length directions along the shell Air blade, first wind blade are connect with the housing into rotation；

Second wind guiding component is arranged at the air outlet, and second wind guiding component is located at first wind guiding component Downside, second wind guiding component include the second wind blade that multiple length directions along the shell are arranged, this second is led Air blade is connect with the housing into rotation；

The distance between adjacent two described first wind blade is H1, and the distance between adjacent two described second wind blade is H2, the H1 > H2；Alternatively, the H1 < H2.

2. cabinet air-conditioner as described in claim 1, which is characterized in that the H1 and H2 meets：0.5≤H2/H1≤0.9.

3. cabinet air-conditioner as claimed in claim 2, which is characterized in that the H1 and H2 meets：0.7≤H2/H1≤0.9.

4. the cabinet air-conditioner as described in claims 1 to 3 any one, which is characterized in that the height of first wind guiding component Height for H3, second wind guiding component is H4, and as H1 > H2, the H3 and H4 meet：0.3≤H4/H3≤1.

5. the cabinet air-conditioner as described in claims 1 to 3 any one, which is characterized in that the side of first wind blade Offer perforative first ventilation hole；And/or

The side of second wind blade offers perforative second ventilation hole.

6. the cabinet air-conditioner as described in claims 1 to 3 any one, which is characterized in that the width of first wind blade, It is suitable with adjacent two spacing of rotation axis of first wind blade；And/or

The width of second wind blade is suitable with adjacent two spacing of rotation axis of second wind blade.

7. the cabinet air-conditioner as described in claims 1 to 3 any one, which is characterized in that be provided with through-flow wind in the shell Wheel and heat exchanger, the tubular wine wheel are rotatably connected with the shell, offer air inlet on rear side of the shell, the air inlet Length direction along the shell extends；The heat exchanger is corresponding with the air inlet and/or the air outlet, the heat exchange The device refrigerant inlet corresponding in heating mode is located at its underpart, and the heat exchanger refrigerant corresponding in heating mode goes out Mouth is located therein or top.

8. cabinet air-conditioner as claimed in claim 7, which is characterized in that the heat exchanger is single row heat exchanger, including：

The quantity of fin, the fin is multiple, and along the circumferential array of the shell；

Heat exchanger tube is arranged on multiple fins, and the quantity of the heat exchanger tube is multiple, and multiple heat exchanger tubes are along the shell The length direction of body arranges.

9. the cabinet air-conditioner as described in claims 1 to 3 any one, which is characterized in that multiple first wind blades and The homonymy of multiple second wind blades is provided with connecting rod, and the position that the connecting rod corresponds to first wind blade is set It is equipped with first connecting portion, the position that the connecting rod corresponds to second wind blade is provided with second connecting portion, and described first Interconnecting piece is rotatablely connected with first wind blade, and the second connecting portion is rotatablely connected with second wind blade.

10. a kind of air conditioner, which is characterized in that the air conditioner includes outdoor unit and as described in claim 1 to 9 any one Cabinet air-conditioner.