CN205090488U - Air conditioner refrigeration subassembly, air conditioner and building structure - Google Patents

Abstract

The utility model provides an air conditioner refrigeration subassembly, air conditioner and building structure. Air conditioner refrigeration subassembly includes: casing, casing are the flat structure, and the casing has cavity, at least one air intake and at least one air outlet, and the air intake passes through cavity and air outlet intercommunication, and when air conditioner refrigeration subassembly was in the user state, the casing transversely set up, and the air intake is perhaps level setting down, and the air outlet is perhaps level setting down, condensers. Fan, condenser and fan setting are in the cavity, and condenser and fan are arranged to air outlet one side by the air intake along gaseous flow direction and is set up, the water collector, the water collector is disposed under the in the cavity and lie in the condenser. When this casing and building structure's top surface, side elevation or hoisting structure fix for air conditioner refrigeration subassembly can with building subject perfect combination. In addition, the air inlet and the air -out mode of air conditioner refrigeration subassembly have the diversified characteristics.

Description

Air-conditioner cooling assembly, air-conditioner and building structure

Technical field

The utility model relates to technical field of heat exchange, in particular to a kind of air-conditioner cooling assembly, air-conditioner and building structure.

Background technology

At present, air-conditioner is mainly divided into two large classes, and a class is split type wall-hanging, and another kind of is cabinet-type air conditioner.

The air-conditioner of said structure all can take the large quantity space in room in installation process, and it is large to there is noise, and user's temperature-sensitive experiences the problem of difference.

Common air-conditioner is all that wind sense at air outlet place is obvious, and the local wind sense away from air outlet place is weak, and there is air intake and the single problem of air-out mode.

Utility model content

Main purpose of the present utility model is to provide a kind of air-conditioner cooling assembly, air-conditioner and building structure, there is air intake and the single problem of air-out mode to solve air-conditioner cooling assembly of the prior art.

To achieve these goals, according to an aspect of the present utility model, provide a kind of air-conditioner cooling assembly, comprising: housing, housing is flat structure, housing has cavity, at least one air inlet and at least one air outlet, air inlet is communicated with air outlet by cavity, when air-conditioner cooling assembly is in using state, and housing horizontally set, down or be horizontally disposed with, air outlet down or be horizontally disposed with for air inlet; Condenser; Blower fan, condenser and blower fan are arranged in cavity, and condenser and blower fan along the flow direction of gas by air inlet to air outlet side spread configuration; Drip tray, drip tray to be arranged in cavity and to be positioned at the below of condenser.

Further, the thickness h 1 of housing is less than 330 millimeters.

Further, the base plate that housing comprises top board and is oppositely arranged with top board, condenser is flat structure, and the condenser in flat structure is inclined in cavity, and the angle between condenser and base plate is less than or equal to 30 degree.

Further, air-conditioner cooling assembly also comprises at least two air doors, and air inlet and air outlet place are respectively provided with at least one air door to be opened/closed.

Further, when air door blocks air outlet or air inlet, the surface that air door deviates from cavity side is provided with the first ornamental portion.

Further, housing comprises: top board; The base plate be oppositely arranged with top board; The circumferential side plate be all connected with top board and base plate, air inlet is arranged on base plate or circumferential side plate, and air outlet is arranged on base plate or circumferential side plate.

Further, the surface that base plate deviates from cavity side is provided with the second ornamental portion.

Further, air-conditioner cooling assembly also comprises the air channel structure with spiral case air channel molded line, and air channel structure is arranged in cavity, and blower fan is positioned at air channel structure.

Further, air-conditioner cooling assembly also comprises screen pack, and screen pack to be arranged in housing and between air inlet and condenser.

Further, screen pack is arc surfaced screen pack.

Further, air-conditioner cooling assembly also comprises air guide structure, and air guide structure to be arranged in cavity and between blower fan and air outlet.

According to another aspect of the present utility model, provide a kind of building structure, comprise end face, building structure also comprises above-mentioned air-conditioner cooling assembly, and air-conditioner cooling assembly is arranged on the below of end face.

Further, building structure comprises hoisting structure, and hoisting structure is arranged on end face, and air-conditioner cooling assembly is connected with end face by hoisting structure.

Further, building structure also comprises side elevation, and the housing of air-conditioner cooling assembly contacts with side elevation.

Further, form locating clip angular zone between side elevation and end face, housing and end face contact with side elevation and are positioned at locating clip angular zone.

Further, building structure also comprises the bottom surface be oppositely arranged with end face, and the thickness h 1 of the housing of air-conditioner cooling assembly is less than 20 percent of the distance h between end face and bottom surface.

According to another aspect of the present utility model, provide a kind of air-conditioner, comprise above-mentioned air-conditioner cooling assembly.

Application the technical solution of the utility model, housing be flat structure, when the end face of this housing and building structure, side elevation or hoisting structure are fixed, air-conditioner cooling assembly can be merged with building body is perfect.In addition, by arranging at least one or horizontally disposed air outlet and air inlet on housing down, with the air intake and air-out mode that make air-conditioner cooling assembly, there is diversified feature, and turnover air quantity when ensure that air-conditioner cooling assembly runs, thus improve the refrigeration performance of air-conditioner cooling assembly, improve refrigerating efficiency, the temperature in building structure is reduced fast, and to ensure that in process of refrigerastion that air-flow can efficient circulation, improve human perception comfortableness.

Accompanying drawing explanation

The Figure of description forming a application's part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 shows the structural representation of the air-conditioner cooling assembly according to first embodiment of the present utility model;

Fig. 2 shows the structural representation of the air-conditioner cooling assembly according to second embodiment of the present utility model;

Fig. 3 shows the structural representation of the air-conditioner cooling assembly according to the 3rd embodiment of the present utility model;

Fig. 4 shows the structural representation of the air-conditioner cooling assembly according to the 4th embodiment of the present utility model; And

Fig. 5 shows the structural representation of the air-conditioner cooling assembly according to the 5th embodiment of the present utility model.

Wherein, above-mentioned accompanying drawing comprises the following drawings mark:

10, housing; 11, cavity; 12, air inlet; 13, air outlet; 14, top board; 15, base plate; 16, circumferential side plate; 20, condenser; 30, blower fan; 40, drip tray; 50, air door; 60, air channel structure; 70, screen pack; 80, air guide structure; 90, end face; 91, side elevation; 92, hoisting structure.

Detailed description of the invention

It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combine mutually.Below with reference to the accompanying drawings and describe the utility model in detail in conjunction with the embodiments.

It is noted that following detailed description is all exemplary, be intended to provide further instruction to the application.Unless otherwise, all technology used herein and scientific terminology have the identical meanings usually understood with the application person of an ordinary skill in the technical field.

In the utility model, when not doing contrary explanation, the noun of locality of use if " upper and lower, top, the end " is normally for direction shown in the drawings, or for parts this in vertically, on vertical or gravity direction; Similarly, for ease of understanding and describing, " inside and outside " refers to profile inside and outside relative to each parts itself, but the above-mentioned noun of locality is not limited to the utility model.

There is air intake and the single problem of air-out mode to solve air-conditioner cooling assembly of the prior art, the utility model provides a kind of air-conditioner cooling assembly, air-conditioner and building structure.Wherein, building structure comprises following air-conditioner cooling assembly.Air-conditioner comprises following air-conditioner cooling assembly.

As shown in Figures 1 to 5, building structure comprises end face 90, and air-conditioner cooling assembly is arranged on the below of end face 90.

Alternatively, air-conditioner cooling assembly can be fitted on end face 90 and install (please refer to Fig. 3).Can merge with building body perfection like this.

As depicted in figs. 1 and 2, building structure also comprises side elevation 91, and the housing 10 of air-conditioner cooling assembly contacts with side elevation 91.Similar with aforementioned structure, air-conditioner cooling assembly can be merged with building body perfection.

Specifically, form locating clip angular zone between side elevation 91 and end face 90, housing 10 and end face 90 contact with side elevation 91 and are positioned at locating clip angular zone.Now, air-conditioner cooling assembly only takies the space in building structure corner, is convenient to hide, and is conducive to improving space availability ratio and aesthetic property.

As shown in Figure 4 and Figure 5, also can be arranged on the hoisting structure 92 in building structure, hoisting structure 92 is arranged on end face 90, and air-conditioner cooling assembly is connected with end face 90 by hoisting structure 92.When hoisting structure 92 be light fixture or ornament time, air-conditioner cooling assembly can with light fixture or ornament perfection merge, raising building structure overall aesthetics.

Alternatively, building structure also comprises the bottom surface be oppositely arranged with end face 90, and the thickness h 1 of the housing 10 of air-conditioner cooling assembly is less than 20 percent of the distance h between end face 90 and bottom surface.The air-conditioner cooling assembly of setting like this is easy to merge with building body, avoids taking too much space, is conducive to the lightening design of air-conditioner cooling assembly.

Above-mentioned building structure comprises home dwelling, commercial place etc.

As shown in Figures 1 to 5, air-conditioner cooling assembly comprises housing 10, condenser 20, blower fan 30 and drip tray 40, housing 10 is in flat structure, housing 10 has cavity 11, at least one air inlet 12 and at least one air outlet 13, air inlet 12 is communicated with air outlet 13 by cavity 11, when air-conditioner cooling assembly is in using state, and housing 10 horizontally set, down or be horizontally disposed with, air outlet 13 down or be horizontally disposed with for air inlet 12; Condenser 20 and blower fan 30 are arranged in cavity 11, and condenser 20 and blower fan 30 along the flow direction of gas by air inlet 12 to air outlet 13 side spread configuration; Drip tray 40 to be arranged in cavity 11 and to be positioned at the below of condenser 20.

Housing 10, in flat structure, when the end face 90 of this housing 10 and building structure, side elevation 91 or hoisting structure 92 are fixed, makes air-conditioner cooling assembly can merge with building body perfection.In addition, by arranging at least one on the housing 10 or horizontally disposed air outlet 13 and air inlet 12 down, with the air intake and air-out mode that make air-conditioner cooling assembly, there is diversified feature, and turnover air quantity when ensure that air-conditioner cooling assembly runs, thus improve the refrigeration performance of air-conditioner cooling assembly, improve refrigerating efficiency, the temperature in building structure is reduced fast, and to ensure that in process of refrigerastion that air-flow can efficient circulation, improve human perception comfortableness.

Alternatively, housing 10 is in flat rectangular configuration.

Alternatively, blower fan 30 is cross flow fan or centrifugal blower etc.

The base plate 15 that housing 10 in the utility model comprises top board 14, be oppositely arranged with top board 14, the circumferential side plate 16 be all connected with top board 14 and base plate 15, air inlet 12 is arranged on base plate 15 or circumferential side plate 16, and air outlet 13 is arranged on base plate 15 or circumferential side plate 16.Because air-conditioner cooling assembly is usual and end face 90 is close to, thus top board 14 place generally can not offer air inlet 12 and air outlet 13.Even if offer air inlet 12 and air outlet 13 on top board 14, its air-out is also difficult to lower the temperature to surrounding environment, on top board 14, thus sets out air port 13 unreasonable.

Alternatively, the surface that base plate 15 deviates from cavity 11 side is provided with the second ornamental portion.The base plate 15 being provided with the second ornamental portion can beautify the outward appearance of air-conditioner cooling assembly, and air-conditioner cooling assembly and building body perfection are merged.

Alternatively, the thickness h 1 of housing 10 is less than 330 millimeters.

While meeting the lightening design of air-conditioner cooling assembly, in order to ensure the refrigeration of air-conditioner cooling assembly, need the size and the setting angle that control condenser 20.As shown in Figures 1 to 5, the base plate 15 that housing 10 comprises top board 14 and is oppositely arranged with top board 14, condenser 20 is in flat structure, and the condenser 20 in flat structure is inclined in cavity 11, and the angle between condenser 20 and base plate 15 is less than or equal to 30 degree.

Alternatively, the upper end of condenser 20 relative to the lower end of condenser 20 near air outlet 13.

In order to avoid staff false touch air inlet 12 or air outlet 13 damage, the air-conditioner cooling assembly in the utility model also comprises at least two air doors 50, and air inlet 12 and air outlet 13 place are respectively provided with at least one air door 50 to be opened/closed.Meanwhile, when air door 50 is closed, can also effectively hide air inlet 12 and air outlet 13, ensure that air-conditioner cooling assembly can merge with building is perfect, and effectively stop that extraneous foreign matter enters in cavity 11, improves the operational reliability of air-conditioner cooling assembly.

Condenser 20 in the utility model is the ultra-thin condensers of sleeve configuration.Such condenser 20 is long-pending large with air contact surfaces, and heat exchange efficiency is high.

Alternatively, when air door 50 blocks air outlet 13 or air inlet 12, the surface that air door 50 deviates from cavity 11 side is provided with the first ornamental portion.The air door 50 being provided with the first ornamental portion, when blocking air outlet 13 or air inlet 12, can beautify the outward appearance of air-conditioner cooling assembly, and air-conditioner cooling assembly and building body perfection are merged.

Alternatively, air door 50 is connected with housing 10 pivotable or is slidably connected.No matter how air door 50 is connected with housing 10, as long as it can open or close air outlet 13, air inlet 12.

As shown in Figure 1, air door 50 is connected with housing 10 pivotable, and air door 50 overturns to open air inlet 12 or air outlet 13 in housing 10.After such air door 50 is opened, can be hidden in well in cavity 11, avoid the overall aesthetics affecting air-conditioner cooling assembly, and reduce taking of space outerpace, be conducive to the lightening design of air-conditioner cooling assembly.

Alternatively, air door 50 is fitted on the inwall of housing 10 after overturning.Like this, avoid air door 50 to affect the flowing of gas, ensure that gas can smooth outflow, thus reduce the operation noise of air-conditioner cooling assembly.

As shown in Figure 1, the upset radius of air door 50 is less than the height of housing 10.Make the length L1 of housing 10 to effectively reduce like this, be conducive to the Miniaturization Design of air-conditioner cooling assembly, to improve the amalgamation of air-conditioner cooling assembly and building body.

In a specific embodiment, the length L1 of housing 10 is 1800 millimeters, and the thickness h 1 of housing 10 is 100 millimeters, and the distance h between end face 90 and bottom surface is 400 millimeters.

Alternatively, air door 50 is connected with housing 10 pivotable, and air door 50 overturns to the outside of housing 10 to open air inlet 12 or air outlet 13 (please refer to Fig. 1).Air door 50 after opening, according to its open angle, also has the effect of air guide structure 80, to control by the trend of the air-flow of air outlet 13 or air inlet 12.

As shown in Figure 4 and Figure 5, the flip angle of air door 50 is less than or equal to 270 degree.After air door 50 flips to the outside, certain angle can be opened to and just stop, such as 90 degree.Or directly can overturn 270 degree to fit with the base plate 15 of housing 10, such air-flow can not impact air door 50, thus air door 50 place is avoided to produce noise.

In a not shown detailed description of the invention, air door 50 and housing 10 are slidably connected.When air door 50 opens air inlet 12 or air outlet 13, air door 50 is stacked with base plate 15, is positioned at the outside of cavity 11 or housing 10.Like this, hiding air door 50 is also convenient to.

In order to ensure the motion credibility of air-flow in cavity 11, air-conditioner cooling assembly also comprises the air channel structure 60 with spiral case air channel molded line, and air channel structure 60 is arranged in cavity 11, and blower fan 30 is positioned at air channel structure 60.The air channel structure 60 with spiral case air channel molded line effectively can reduce eddy current crack, improves the operating reliability of blower fan 30.

Air-conditioner cooling assembly in the utility model also comprises screen pack 70, and screen pack 70 to be arranged in housing 10 and between air inlet 12 and condenser 20.Owing to being provided with screen pack 70, thus ensure that the spatter property of each parts in cavity 11, reduce the cleaning frequency to electric component, and ensure that each parts can normally, stably run.

As shown in Figures 1 to 5, screen pack 70 is arc surfaced screen pack.Certainly, screen pack 70 can also be planar shaped screen pack.These needs are rationally arranged according to the space in cavity 11.

Specifically, the upper end of screen pack 70 is to air outlet 13 curving.

In order to improve the controllability of air-out direction, the air-conditioner cooling assembly in the utility model also comprises air guide structure 80, and air guide structure 80 to be arranged in cavity 11 and between blower fan 30 and air outlet 13.

Alternatively, air guide structure 80 comprises level and sweeps wind portion and/or sweep wind portion up and down.

In specific embodiment as shown in Figure 1, air-conditioner cooling assembly comprises two air doors 50, screen pack 70, condenser 20, drip tray 40, blower fan 30, air channel structure 60, air guide structure 80.This air-conditioner cooling assembly and side elevation 91 (wall) and end face 90 (ceiling) merge.Air-conditioner cooling assembly run time, two air doors 50 are all opened, room air by air inlet 12 from bottom air intake, air filters through screen pack 70, condenser 20 heat exchange cooling after, be sent to air outlet 13 by blower fan 30, formed Lateral supply.

In specific embodiment as shown in Figure 2, air-conditioner cooling assembly comprises two air doors 50, screen pack 70, condenser 20, drip tray 40, blower fan 30, air channel structure 60, air guide structure 80.This air-conditioner cooling assembly and side elevation 91 (wall) and end face 90 (ceiling) merge.Air-conditioner cooling assembly run time, two air doors 50 are all opened, room air by air inlet 12 air intake from the side, air filters through screen pack 70, condenser 20 heat exchange cooling after, be sent to air outlet 13 by blower fan 30, formed bottom air-out.

In specific embodiment as shown in Figure 3, air-conditioner cooling assembly comprises two air doors 50, screen pack 70, condenser 20, drip tray 40, blower fan 30, air channel structure 60, air guide structure 80.This air-conditioner cooling assembly and end face 90 (ceiling) merge.Air-conditioner cooling assembly run time, two air doors 50 are all opened, room air by air inlet 12 air intake from the side, air filters through screen pack 70, condenser 20 heat exchange cooling after, be sent to air outlet 13 by blower fan 30, formed side air-out.

In specific embodiment as shown in Figure 4, air-conditioner cooling assembly comprises two air doors 50, screen pack 70, condenser 20, drip tray 40, blower fan 30, air channel structure 60, air guide structure 80.This air-conditioner cooling assembly is fixedly connected with end face 90 (ceiling), and connected mode is not limit.Air-conditioner cooling assembly run time, two air doors 50 are all opened, room air by air inlet 12 air intake from the side, air filters through screen pack 70, condenser 20 heat exchange cooling after, be sent to air outlet 13 by blower fan 30, formed side air-out.Certainly, also side air inlet can be arranged to, bottom air-out; Or bottom air inlet, side air-out; Or bottom air inlet, the various ways such as bottom air-out.

In specific embodiment as shown in Figure 5, air-conditioner cooling assembly comprises two air doors 50, screen pack 70, condenser 20, drip tray 40, blower fan 30, air channel structure 60, air guide structure 80.This air-conditioner cooling assembly is fixedly connected with end face 90 (ceiling), and connected mode is not limit.When air-conditioner cooling assembly runs, two air doors 50 are all opened, and the air door 50 at air inlet 12 place overturns rear laminating on the housing 10, has namely overturn 270 degree, and now, air-conditioner cooling assembly is wide-angle air intake pattern (all-dimensional inlet).Similarly, when air door 50 upset 270 degree equally at air outlet 13 place, wide-angle air-out mode (omnidirectional air outlet) can also be realized.

Air-conditioner cooling assembly in the utility model have take up room little, noise is little, it is fast to circulate, the advantage of calm sense.

Above-mentioned calm sense refers to, when air-conditioner cooling assembly freezes, and air outlet 13 side air-out, now air-flow againsts end face 90 and down circulates; Bottom air outlet 13 during air-out, air-flow circulates from top to bottom, and not directly to user, the experience wind speed of user is no more than 0.3m/s, therefore, it is possible to realize calm sense heat exchange.

Air-conditioner in the utility model also comprises air conditioner heat-production assembly.Building structure comprises the air-conditioner with above-mentioned air-conditioner cooling assembly and above-mentioned air conditioner heat-production assembly.

Air-conditioner in the utility model provides a kind of slim Smart Home air-conditioning merged mutually with building body.Its air-conditioner cooling assembly and air conditioner heat-production assembly independent operating, by the design of inlet and outlet, make the airflow circulating of indoor set form a systemic circulation smoothly in whole building body, and Velocity Profiles is even, and air-conditioner regulates evenly, and comfortableness is good.

As can be seen from the above description, the utility model the above embodiments achieve following technique effect:

1, air-conditioner cooling assembly and the thin design that heats assembly make air-conditioner not account for the space of floor space and side elevation, can perfect merge with building body;

2, air-conditioner cooling assembly and heat assembly and arrange independently of one another, no matter at heating mode or in cooling mode, by the design of air inlet, air outlet, room airflow circulation is smooth and easy, and temperature regulates Quick uniform, and human body comfort is good;

3, the air-conditioner in the utility model has noiseless advantage, is conducive to making intelligent comfortable household air-conditioning.

It should be noted that used term is only to describe detailed description of the invention here, and be not intended to the illustrative embodiments of restricted root according to the application.As used herein, unless the context clearly indicates otherwise, otherwise singulative is also intended to comprise plural form, in addition, it is to be further understood that, " comprise " when using term in this manual and/or " comprising " time, it indicates existing characteristics, step, work, device, assembly and/or their combination.

It should be noted that, term " first ", " second " etc. in the description of the application and claims and above-mentioned accompanying drawing are for distinguishing similar object, and need not be used for describing specific order or precedence.Should be appreciated that the data used like this can be exchanged in the appropriate case, so as the embodiment of the application described herein can with except here diagram or describe those except order implement.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (17)

1. an air-conditioner cooling assembly, is characterized in that comprising:

Housing (10), described housing (10) is in flat structure, described housing (10) has cavity (11), at least one air inlet (12) and at least one air outlet (13), described air inlet (12) is communicated with described air outlet (13) by described cavity (11), when described air-conditioner cooling assembly is in using state, described housing (10) horizontally set, down or be horizontally disposed with, described air outlet (13) down or be horizontally disposed with for described air inlet (12);

Condenser (20);

Blower fan (30), described condenser (20) and described blower fan (30) are arranged in described cavity (11), and described condenser (20) and described blower fan (30) along the flow direction of gas by described air inlet (12) to described air outlet (13) side spread configuration;

Drip tray (40), described drip tray (40) to be arranged in described cavity (11) and to be positioned at the below of described condenser (20).

2. air-conditioner cooling assembly according to claim 1, is characterized in that, the thickness h 1 of described housing (10) is less than 330 millimeters.

3. air-conditioner cooling assembly according to claim 1, it is characterized in that, the base plate (15) that described housing (10) comprises top board (14) and is oppositely arranged with described top board (14), described condenser (20) is in flat structure, described condenser (20) in flat structure is inclined in described cavity (11), and the angle between described condenser (20) and described base plate (15) is less than or equal to 30 degree.

4. air-conditioner cooling assembly according to claim 1, it is characterized in that, described air-conditioner cooling assembly also comprises at least two air doors (50), and described air inlet (12) and described air outlet (13) place are respectively provided with at least one described air door (50) to be opened/closed.

5. air-conditioner cooling assembly according to claim 4, it is characterized in that, when described air door (50) blocks described air outlet (13) or described air inlet (12), the surface that described air door (50) deviates from described cavity (11) side is provided with the first ornamental portion.

6. air-conditioner cooling assembly according to claim 1, is characterized in that, described housing (10) comprising:

Top board (14);

The base plate (15) be oppositely arranged with described top board (14);

The circumferential side plate (16) be all connected with described top board (14) and described base plate (15), described air inlet (12) is arranged on described base plate (15) or described circumferential side plate (16), and described air outlet (13) is arranged on described base plate (15) or described circumferential side plate (16).

7. air-conditioner cooling assembly according to claim 6, is characterized in that, the surface that described base plate (15) deviates from described cavity (11) side is provided with the second ornamental portion.

8. air-conditioner cooling assembly according to claim 1, it is characterized in that, described air-conditioner cooling assembly also comprises the air channel structure (60) with spiral case air channel molded line, described air channel structure (60) is arranged in described cavity (11), and described blower fan (30) is positioned at described air channel structure (60).

9. air-conditioner cooling assembly according to claim 1, it is characterized in that, described air-conditioner cooling assembly also comprises screen pack (70), and described screen pack (70) to be arranged in described housing (10) and to be positioned between described air inlet (12) and described condenser (20).

10. air-conditioner cooling assembly according to claim 9, is characterized in that, described screen pack (70) is arc surfaced screen pack.

11. air-conditioner cooling assemblies according to claim 1, it is characterized in that, described air-conditioner cooling assembly also comprises air guide structure (80), and described air guide structure (80) to be arranged in described cavity (11) and to be positioned between described blower fan (30) and described air outlet (13).

12. 1 kinds of building structure, comprise end face (90), it is characterized in that, described building structure also comprises the air-conditioner cooling assembly according to any one of claim 1 to 11, and described air-conditioner cooling assembly is arranged on the below of described end face (90).

13. building structure according to claim 12, it is characterized in that, described building structure comprises hoisting structure (92), described hoisting structure (92) is arranged on described end face (90), and described air-conditioner cooling assembly is connected with described end face (90) by described hoisting structure (92).

14. building structure according to claim 12, is characterized in that, described building structure also comprises side elevation (91), and the housing (10) of described air-conditioner cooling assembly contacts with described side elevation (91).

15. building structure according to claim 14, it is characterized in that, form locating clip angular zone between described side elevation (91) and described end face (90), described housing (10) and described end face (90) contact with described side elevation (91) and are positioned at described locating clip angular zone.

16. building structure according to claim 12, it is characterized in that, described building structure also comprises the bottom surface be oppositely arranged with described end face (90), and the thickness h 1 of the housing (10) of described air-conditioner cooling assembly is less than 20 percent of the distance h between described end face (90) and described bottom surface.

17. 1 kinds of air-conditioners, is characterized in that, comprise the air-conditioner cooling assembly according to any one of claim 1 to 11.