CN208237992U - Cabinet air-conditioner and air conditioner - Google Patents
Cabinet air-conditioner and air conditioner Download PDFInfo
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- CN208237992U CN208237992U CN201820383973.1U CN201820383973U CN208237992U CN 208237992 U CN208237992 U CN 208237992U CN 201820383973 U CN201820383973 U CN 201820383973U CN 208237992 U CN208237992 U CN 208237992U
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Abstract
The utility model discloses a kind of cabinet air-conditioner and air conditioner, wherein the cabinet air-conditioner includes: shell, has air inlet, upper ventilation opening and lower ventilation opening, the air inlet is between the upper ventilation opening and lower ventilation opening;Heat exchanger is disposed in the housing position corresponding with the air inlet;Windward thermomechanical components and lower fan assembly, the windward thermomechanical components are between the air inlet and upper ventilation opening, the lower fan assembly is between the air inlet and lower ventilation opening, wherein the windward thermomechanical components and/or the lower fan assembly include multiple axial-flow windwheels arranged along the vertical direction.The utility model cabinet air-conditioner has the air-out mode of diversification, can effectively promote comfort of the cabinet air-conditioner under refrigeration mode and heating mode.
Description
Technical field
The utility model relates to air conditioner technical field, in particular to a kind of cabinet air-conditioner and air conditioner.
Background technique
Existing cabinet air-conditioner is usually only provided with an air outlet, and air outlet is set to the top of shell,
When refrigeration mode, cold air blows out from air outlet and sinks naturally, can play preferable refrigeration effect;But in heating mode
When, due to current of warm air can upward ascension, from top air outlet blow out current of warm air be difficult to send to user so that cabinet air-conditioner
Heating effect it is undesirable.Also, cabinet air-conditioner mostly uses centrifugal blower or cross flow fan to blow, due to centrifugal blower and
The air supply direction of cross flow fan is difficult to adjust in time, cannot realize the diversification of cabinet air-conditioner air supply pattern well, it is difficult to make
Cabinet air-conditioner all has preferable comfort under refrigeration and heating mode.
Utility model content
The main purpose of the utility model is to propose a kind of cabinet air-conditioner, it is intended to realize the polynary of cabinet air-conditioner air supply pattern
Change, to all have preferable comfort under refrigeration and heating mode.
To achieve the above object, the utility model proposes cabinet air-conditioner include:
Shell, has air inlet, upper ventilation opening and lower ventilation opening, and the air inlet is located at the upper ventilation opening and lower ventilation
Between mouthful;
Heat exchanger is disposed in the housing position corresponding with the air inlet;
Windward thermomechanical components and lower fan assembly, the windward thermomechanical components are between the air inlet and upper ventilation opening, institute
Lower fan assembly is stated between the air inlet and lower ventilation opening, wherein the windward thermomechanical components and/or the lower blower fan group
Part includes multiple axial-flow windwheels arranged along the vertical direction.
Preferably, the shell is cylindrical, the air inlet be set to the shell the back side, the heat exchanger it is close
The side of the air inlet be in towards the air inlet protrusion arcwall face, and the heat exchanger backwards the air inlet one
Side is formed with cavity, and the cavity is vertically extended and is connected to the air duct.
Preferably, the cabinet air-conditioner further includes upper wind door and lower wind door, and the upper wind door is movably arranged on described
To open or close the upper ventilation opening at ventilation opening, the lower wind door be movably arranged at the lower ventilation opening to open or
Close the lower ventilation opening;When the cabinet air-conditioner is in refrigeration mode, the upper wind door opens the upper ventilation opening, it is described on
Air-flow is oriented to the upper ventilation opening by fan assembly;When the cabinet air-conditioner is in heating mode, described in the lower wind door opening
Air-flow is oriented to the lower ventilation opening by lower ventilation opening, the lower fan assembly.
Preferably, when the cabinet air-conditioner is in refrigeration mode, the lower wind door opens the lower ventilation opening, the leeward
Air-flow is oriented to the upper ventilation opening by thermomechanical components.
Preferably, when the cabinet air-conditioner is in heating mode, the upper wind door opens the upper ventilation opening, the windward
Air-flow is oriented to the lower ventilation opening by thermomechanical components.
Preferably, the windward thermomechanical components include the first axial-flow windwheel, the second axial-flow windwheel, first motor and the second electricity
Machine, the first motor drive the first axial-flow windwheel rotation, and the second axial-flow windwheel described in second motor driven rotates,
And first axial-flow windwheel and second axial-flow windwheel is oppositely oriented.
Preferably, the windward thermomechanical components further include the first cylinder and the second cylinder of docking, are set in first cylinder
There is a first support, is equipped with second support in second cylinder, the first motor is installed on the first support, and described second
Motor is installed on the second support.
Preferably, the windward thermomechanical components further include third axial-flow windwheel, and the axis of the third axial-flow windwheel is vertically
Direction extends.
Preferably, the lower fan assembly includes the driving of the 4th axial-flow windwheel and driving the 4th axial-flow windwheel rotation
The axis of motor, the 4th axial-flow windwheel vertically extends.
The utility model also proposes that a kind of air conditioner, including air-conditioner outdoor unit and cabinet air-conditioner, the cabinet air-conditioner include:
Shell, has air inlet, upper ventilation opening and lower ventilation opening, and the air inlet is located at the upper ventilation opening and lower ventilation
Between mouthful;
Heat exchanger is disposed in the housing position corresponding with the air inlet;
Windward thermomechanical components and lower fan assembly, the windward thermomechanical components are between the air inlet and upper ventilation opening, institute
Lower fan assembly is stated between the air inlet and lower ventilation opening, wherein the windward thermomechanical components and/or the lower blower fan group
Part includes multiple axial-flow windwheels arranged along the vertical direction.
The utility model cabinet air-conditioner passes through windward thermomechanical components and lower blower by the way that upper ventilation opening and lower ventilation opening is arranged
The cooperation of component can regulate and control the air-out mode of cabinet air-conditioner, to realize the polynary of the air-out mode of cabinet air-conditioner
Change.It specifically, can in refrigeration mode by adjusting the air supply direction or air-supply dynamics of windward thermomechanical components and lower fan assembly
To realize that cold air is only sent out from upper ventilation opening, or realize that cold air is sent out from upper ventilation opening and lower ventilation opening simultaneously;In heating mode
When, hot gas may be implemented and only sent out simultaneously from upper ventilation opening and lower ventilation opening from the submitting of lower ventilation opening or hot gas.In this way, making
The air-out mode for obtaining cabinet air-conditioner is more flexible, and the alternative of user greatly promotes, and user can select to close according to self-demand
Suitable air-out mode, to all have preferable comfort under refrigeration mode and heating mode.
Also, the first fan assembly and/or the second fan assembly include multiple axial-flow windwheels arranged along the vertical direction, phase
Compared with traditional centrifugal wind wheel, axial-flow windwheel is more convenient for changing air supply direction in time, so that the air supply pattern of cabinet air-conditioner is more just
In adjusting, moreover, multiple axial-flow windwheels, which are arranged side by side, effectively to promote the air supplying distance of cabinet air-conditioner, to promote air-conditioning
The overall performance of cabinet-type air conditioner.
Detailed description of the invention
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 schematic diagram of internal structure in Fig. 1 after panel of air conditioner cabinet opening;
Fig. 3 is the internal cross section structural schematic diagram of cabinet air-conditioner in Fig. 1;
Fig. 4 is that cabinet air-conditioner air-flow for the moment in refrigeration mode moves towards schematic diagram;
Fig. 5 be cabinet air-conditioner it is in refrigeration mode two when air-flow move towards schematic diagram;
Fig. 6 be cabinet air-conditioner it is in refrigeration mode three when one embodiment air-flow move towards schematic diagram;
Fig. 7 be cabinet air-conditioner it is in refrigeration mode three when another embodiment air-flow move towards schematic diagram;
Fig. 8 is that cabinet air-conditioner is in heating mode air-flow moves towards schematic diagram for the moment;
Fig. 9 is that air-flow when cabinet air-conditioner is in heating mode two moves towards schematic diagram;
Figure 10 is the structural schematic diagram of one embodiment of windward thermomechanical components;
Figure 11 is the decomposition texture schematic diagram of windward thermomechanical components in Figure 10.
Drawing reference numeral explanation:
| Label | Title | Label | Title | Label | Title |
| 100 | Cabinet air-conditioner | 103 | Lower ventilation opening | 31b | Second motor |
| 10 | Shell | 20 | Heat exchanger | 32a | First cylinder |
| 10a | Panel | 30 | Windward thermomechanical components | 321 | First support |
| 10b | Backboard | 30a | First axial-flow windwheel | 32b | Second cylinder |
| 101 | Air inlet | 30b | Second axial-flow windwheel | 322 | Second support |
| 102 | Upper ventilation opening | 31a | First motor | 40 | Lower fan assembly |
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 embodiment
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
Under every other embodiment obtained, fall within the protection scope of the utility model.
It is to be appreciated that if related in the utility model embodiment directionality instruction (such as upper and lower, left and right, it is preceding,
Afterwards ...), then directionality instruction is only used for explaining opposite between each component under a certain particular pose (as shown in the picture)
Positional relationship, motion conditions etc., if the particular pose changes, directionality instruction is also correspondingly changed correspondingly.
In addition, if relating to the description of " first ", " second " etc. in the utility model embodiment, " first ", " the
Two " etc. description is used for description purposes only, and is not understood to indicate or imply its relative importance or is implicitly indicated meaning
The quantity of the technical characteristic shown." first " is defined as a result, the feature of " second " can explicitly or implicitly include at least one
A this feature.It in addition, the technical solution between each embodiment can be combined with each other, but must be with ordinary skill
Based on personnel can be realized, this technical side will be understood that when the combination of technical solution appearance is conflicting or cannot achieve
The combination of case is not present, also not within the protection scope of the requires of the utility model.
The utility model proposes a kind of cabinet air-conditioners 100.
In the utility model embodiment, as shown in Figure 1 to Figure 3, the cabinet air-conditioner 100 include shell 10, heat exchanger 20,
Windward thermomechanical components 30 and lower fan assembly 40.Wherein, shell 10 has air inlet 101, upper ventilation opening 102 and lower ventilation opening 103,
Air inlet 101 is between upper ventilation opening 102 and lower ventilation opening 103;Heat exchanger 20 is set to corresponding with air inlet 101 in shell 10
Position;Windward thermomechanical components 30 between air inlet 101 and upper ventilation opening 102, lower fan assembly 40 be located at air inlet 101 and
Between lower ventilation opening 103, wherein windward thermomechanical components 30 and/or lower fan assembly 40 are arranged side by side along the vertical direction including multiple
Axial-flow windwheel.
In the present embodiment, which can be round cabinet-type air conditioner or rectangular cabinet-type air conditioner.Shell 10 usually has panel
10a and backboard 10b, panel 10a are equipped with upper ventilation opening 102 and lower ventilation opening 103, and backboard 10b is equipped with air inlet 101, into
Air-inlet grille is installed at air port 101, is provided with filter screen on the inside of air-inlet grille, heat exchanger 20 be mounted in shell 10 and with into
Air port 101 is corresponding.In general, panel 10a and/or backboard 10b can be one piece of plate body, can also be made of muti-piece plate body.Heat exchanger
20 can be installed on backboard 10b, can also use other mounting means.There are many shapes of heat exchanger 20, may be, for example, V-type,
It is plate or U-shaped etc..
Windward thermomechanical components 30 and lower fan assembly 40 act synergistically, to realize air-flow in 100 air duct of cabinet air-conditioner upwards
Or conveying downwards.Wherein, windward thermomechanical components 30 and/or lower fan assembly 40 include multiple axis stream wind arranged along the vertical direction
Wheel.That is, there are many windward thermomechanical components 30 and the combining forms of lower fan assembly 40, for example, windward thermomechanical components 30 and lower blower
Component 40 includes multiple axial-flow windwheels arranged along the vertical direction, and the axis of multiple axial-flow windwheels prolongs along the vertical direction
It stretches, in this way, air-supply and low noise at a distance may be implemented by the cooperation between multiple axial-flow windwheels.Wherein of axial-flow windwheel
Number can be two or more, be not specifically limited herein.Tune can be for the regulative mode of the air supplying distance of air-conditioning cabinet-type air conditioner
The revolving speed of one of axial flow blower is saved, or adjusts the revolving speed of two axial flow blowers together.Multiple axis stream wind can also be adjusted
The direction of rotation of wheel.Also, by the steering for changing axial-flow windwheel, the conversion of air supply direction can be also fast implemented, is convenient for air duct
The regulation in internal gas flow direction.Or windward thermomechanical components 30 and the one of them of lower fan assembly 40 include multiple vertically sides
To the axial-flow windwheel of arrangement, the concrete form of another one is unlimited, can be the blower of uniaxial flow fan, centrifugal blower or other modes
Etc..
It should be noted that passing through the cooperation of windward thermomechanical components 30 and lower fan assembly 40, a variety of air-supply moulds may be implemented
Formula.Upper ventilation opening 102 and lower ventilation opening 103 can be different according to locating for cabinet air-conditioner 100 air supply pattern and play air inlet or
The different role of outlet air.Several main air supply patterns of cabinet air-conditioner 100 are illustrated below.
It is excellent in order to ensure cabinet air-conditioner 100 has preferable refrigeration effect when cabinet air-conditioner 100 is in refrigeration mode
It is selected as upper ventilation opening 102 as air outlet, windward thermomechanical components 30 updraft to lead the air-flow at air inlet 101 at this time
Mouth 102;It is of course also possible to select ventilation opening 102 and the outlet air simultaneously of lower ventilation opening 103, windward thermomechanical components 30 are to incite somebody to action at this time
Air-flow at air inlet 101 is oriented to upper ventilation opening 102, and lower fan assembly 40 is to lower logical by the air-flow guiding at air inlet 101
Air port 103.Again alternatively, by adjusting lower fan assembly 40 air supply direction, make the air-supply upwards of lower fan assembly 40, such air
It can be entered in shell 10 simultaneously by air inlet 101 and lower ventilation opening 103, and be sent out by upper ventilation opening 102.In addition, can also pass through
The different shape and modes of emplacement of heat exchanger 20 derive different air supply patterns, will not enumerate herein.
It is excellent in order to ensure cabinet air-conditioner 100 has preferable heating effect when cabinet air-conditioner 100 is in heating mode
It is selected as descending fan assembly 40 will divulge information under the air-flow guiding at air inlet 101 at this time as air outlet lower ventilation opening 103
Mouth 103;It is of course also possible to select ventilation opening 102 and the outlet air simultaneously of lower ventilation opening 103, windward thermomechanical components 30 are to incite somebody to action at this time
Air-flow at air inlet 101 is oriented to upper ventilation opening 102, and lower fan assembly 40 is to lower logical by the air-flow guiding at air inlet 101
Air port 103.Again alternatively, by adjusting windward thermomechanical components 30 air supply direction, make windward thermomechanical components 30 downwards blow, such air
It can be entered in shell 10 simultaneously by air inlet 101 and upper ventilation opening 102, and be sent out by lower ventilation opening 103.In addition, can also pass through
The different shape and modes of emplacement of heat exchanger 20 derive different air supply patterns, will not enumerate herein.
The utility model cabinet air-conditioner 100 passes through windward unit by the way that upper ventilation opening 102 and lower ventilation opening 103 is arranged
The cooperation of part 30 and lower fan assembly 40 can regulate and control the air-out mode of cabinet air-conditioner 100, to realize cabinet air-conditioner
The diversification of 100 air supply pattern.Specifically, by adjusting windward thermomechanical components 30 and lower fan assembly 40 air supply direction or give
Wind-force degree may be implemented cold air and only send out from upper ventilation opening 102 in refrigeration mode, or realize cold air simultaneously from upper ventilation opening
102 and lower ventilation opening 103 send out;In heating mode, it is only same from the submitting of lower ventilation opening 103 or hot gas that hot gas may be implemented
When sent out from upper ventilation opening 102 and lower ventilation opening 103, to reach preferable warm sufficient effect.In this way, going out cabinet air-conditioner 100
Wind mode is more flexible, and the alternative of user greatly promotes, and user can select suitable air-out mode according to self-demand, with
Preferable comfort is all had under refrigeration mode and heating mode.
Also, the first fan assembly and/or the second fan assembly include multiple axial-flow windwheels arranged along the vertical direction, phase
Compared with traditional centrifugal wind wheel, axial-flow windwheel is more convenient for changing air supply direction in time, so that the air supply pattern of cabinet air-conditioner 100 is more
Convenient for adjusting, moreover, the cooperation of multiple axial-flow windwheels can also effectively promote the air supplying distance of cabinet air-conditioner 100, to promote sky
Adjust the overall performance of cabinet-type air conditioner 100.
Further, in one embodiment, referring to figure 2., shell 10 is cylindrical, and air inlet 101 is set to shell 10
The back side, the side of the close air inlet 101 of heat exchanger 20 are in towards the arcwall face of 101 protrusion of air inlet, and the back of heat exchanger 20
It is formed with cavity to the side of air inlet 101, cavity is vertically extended and is connected to air duct.
In the present embodiment, air inlet 101 is set to the back side of shell 10, advantageously reduces the noise of cabinet air-conditioner 100.
The corresponding air inlet 101 of heat exchanger 20 is arranged, and air can be exchanged heat by heat exchanger 20 immediately from after the entrance of air inlet 101.And
And the side of the close air inlet 101 of heat exchanger 20 be in towards the arcwall face of the protrusion of air inlet 101 so that heat exchanger 20 have compared with
Big heat exchange area, while heat exchanger 20 forms backwards to the side of air inlet 101 and vertically extends and be connected to air duct
Cavity, the circulating resistance after so may make air-flow to exchange heat in air duct is smaller, and the heat exchange rate of air-flow is faster.
Further, cabinet air-conditioner 100 further includes that upper wind door (not shown) and lower wind door (not shown), upper wind door are movable
Ground is set to open or close upper ventilation opening 102 at upper ventilation opening 102, lower wind door be movably arranged at lower ventilation opening 103 with
Open or close lower ventilation opening 103.When cabinet air-conditioner 100 is in refrigeration mode, upper wind door opens upper ventilation opening 102, upper fan
Air-flow is oriented to upper ventilation opening 102 by component 30;When cabinet air-conditioner 100 is in heating mode, lower wind door opens lower ventilation opening 103,
Air-flow is oriented to lower ventilation opening 103 by lower fan assembly 40.
It in the present embodiment, can be quickly and easily to upper ventilation opening 102 and lower logical by setting upper wind door and lower wind door
The folding in air port 103 is controlled.Wherein, upper wind door and lower wind door can be by being slidably connected, the corresponding peace of the modes such as rotation connection
At upper ventilation opening 102 and lower ventilation opening 103.Certainly, in other embodiments, windward thermomechanical components 30 or leeward can also be passed through
The operating status of thermomechanical components 40 is controlled with the disengaging to air-flow, wishes that air-flow does not enter shell from lower ventilation opening 103 for example, working as
When in body 10, the state that can lower fan assembly 40 is adjusted to low-speed running and be dried downwards can make lower ventilation opening 103 at this time
The air pressure at place maintains balance, enters to avoid air-flow from lower ventilation opening 103.Similarly, when wishing air-flow not from upper ventilation opening 102
When in into shell 10, windward thermomechanical components 30 can be adjusted to low-speed running and to the state of up-draught, can made at this time logical
Air pressure at air port 102 maintains balance, enters to avoid air-flow from upper ventilation opening 102.In contrast, by setting upper wind door and
Lower wind door is more simple and convenient.
In the present embodiment, matched by the coordination between upper wind door, windward thermomechanical components 30, lower wind door and lower fan assembly 40
A variety of different air-out modes that cabinet air-conditioner 100 can be achieved are closed, such as control unit can be set in cabinet air-conditioner 100, with
It realizes to the independent control of upper wind door, lower wind door, windward thermomechanical components 30 and lower fan assembly 40 or linkage control.Control unit can
To control the folding of upper wind door and lower wind door, it also can control windward thermomechanical components 30 and the operating status of lower fan assembly 40 to realize
Different air supply directions.
In refrigeration mode, upper wind door opens upper ventilation opening 102, and air-flow is oriented to upper ventilation opening 102 by windward thermomechanical components 30.
Optionally, including following several air-out modes:
Refrigeration mode one: referring to figure 4., upper wind door opens upper ventilation opening 102, and lower wind door closes lower ventilation opening 103, windward
The upward air draught of thermomechanical components 30, lower fan assembly 40 is closed or to up-draught, air-flow enters from air inlet 101 at this time, via heat exchange
Device 20 is sent out after exchanging heat from upper ventilation opening 102.In such a mode, cold air all concentrates on the submitting of ventilation opening 102, so that upper logical
Cold air flow at air port 102 is big, flow velocity is high, and cooling rate is faster.
Refrigeration mode two: referring to figure 5., upper wind door opens upper ventilation opening 102, and lower wind door opens lower ventilation opening 103, windward
The upward air draught of thermomechanical components 30, the downward air draught of lower fan assembly 40, air-flow enters from air inlet 101 at this time, changes via heat exchanger 20
It is divided into two-way air-flow after heat, air-flow is sent out from upper ventilation opening 102 all the way, and air-flow is sent out from lower ventilation opening 103 all the way.In this mode
Under, cold air can be sent out simultaneously from upper ventilation opening 102 and lower ventilation opening 103, so that cold air is more uniformly spread, refrigeration range is more
Extensively.
Refrigeration mode three: please referring to Fig. 6 and Fig. 7, and upper wind door opens upper ventilation opening 102, and lower wind door opens lower ventilation opening
103, the upward air draught of windward thermomechanical components 30, the upward air draught of lower fan assembly 40, air-flow is from air inlet 101 and lower ventilation opening at this time
103 enter in shell 10, and are sent out by upper ventilation opening 102.In such a mode, again according to the type of heat exchanger 20 and laying method
Different refrigeration effects can be achieved.For example, when heat exchanger 20 is U-shaped heat exchanger 20 as shown in Figure 5, air inlet 101 at this time
The air-flow at place is handled in laggard air inlet duct via heat exchanger 20, and the air-flow at lower ventilation opening 103 without heat exchanger 20 directly into
In air inlet duct, so that the air-flow at upper ventilation opening 102 is the mixing of cold airflow and room temperature air-flow, to reach the effect of mixed flow air-conditioning
Fruit, it is excessively cool to avoid the cold air of blowout, so that the overall comfort of cabinet air-conditioner 100 is preferable.In another example such as Fig. 6 and Fig. 7 institute
Show, heat exchanger 20 can be plate heat exchanger or V-arrangement heat exchanger, by suitable placement location, so that from air inlet 101 and lower logical
After the air-flow that air port 103 enters can be handled via 20 heat exchange of heat exchanger, then from the submitting of upper ventilation opening 102, it can so make air-conditioning
The cooling rate of cabinet-type air conditioner 100 is faster.
In heating mode, lower wind door opens lower ventilation opening 103, and air-flow is oriented to lower ventilation opening 103 by lower fan assembly 40.
Optionally, including following several air-out modes:
Heating mode one: please referring to Fig. 8, and lower wind door opens lower ventilation opening 103, and upper wind door closes upper ventilation opening 102, leeward
The downward air draught of thermomechanical components 40, windward thermomechanical components 30 are closed or blowing downwards, and air-flow enters from air inlet 101 at this time, via heat exchange
Device 20 is sent out after exchanging heat from lower ventilation opening 103.In such a mode, heating all concentrates on lower ventilation opening 103 and sends out, so that lower logical
Heating flow automatic at air port 103 is big, flow velocity is high, it can be achieved that blanket type is blown, and it is good to warm up foot effect.
Heating mode two: please referring to Fig. 9, and upper wind door opens upper ventilation opening 102, and lower wind door opens lower ventilation opening 103, windward
The upward air draught of thermomechanical components 30, the downward air draught of lower fan assembly 40, air-flow enters from air inlet 101 at this time, changes via heat exchanger 20
It is divided into two-way air-flow after heat, air-flow is sent out from upper ventilation opening 102 all the way, and air-flow is sent out from lower ventilation opening 103 all the way.In this mode
Under, heating can be sent out simultaneously from upper ventilation opening 102 and lower ventilation opening 103, so that heating is more uniformly spread, room temperature is more
For equilibrium.
Heating mode three: upper wind door opens upper ventilation opening 102, and lower wind door opens lower ventilation opening 103, windward thermomechanical components 30 to
Lower air-supply, the downward air draught of lower fan assembly 40, air-flow enters in shell 10 from air inlet 101 and upper ventilation opening 102 at this time, and by
Lower ventilation opening 103 is sent out.In such a mode, different heating effects can be realized again according to the type of heat exchanger 20 and laying method
Fruit.Specific embodiment can refer to the embodiment in above-described embodiment in refrigeration mode three, and this will not be detailed here.
Based on above-mentioned several refrigeration modes and heating mode, user can select according to practical application scene and self-demand
Suitable air-out mode, and realize optimal refrigeration or heating effect.
Further, Figure 10 and Figure 11 is please referred to, in one embodiment, windward thermomechanical components 30 include the first axial-flow windwheel
30a, the second axial-flow windwheel 30b, first motor 31a and the second motor 31b, first motor 31a is to drive the first axial-flow windwheel
30a rotation, the second motor 31b is to drive the second axial-flow windwheel 30b to rotate, and the first axial-flow windwheel 30a and the second axis stream wind
Take turns the oppositely oriented of 30b.
In the present embodiment, there are two axial-flow windwheels for the tool of windward thermomechanical components 30, pass through the first axial-flow windwheel 30a and the second axis
The cooperation of wind wheel 30b is flowed, it can be achieved that farther away air supplying distance and lower noise.For example, in refrigeration mode, first axle stream wind
Take turns 30a can be along rotating clockwise, then the second axial-flow windwheel 30b can be rotated counterclockwise, air-flow via the second axial-flow windwheel 30b from
Air inlet 101 enters, and by ventilation opening 102 in the first axial-flow windwheel 30a guiding, in this way, windward thermomechanical components can be promoted effectively
30 air supplying distance.And each axial-flow windwheel is by a motor driven, under the premise of identical air output, each electricity
The revolving speed of machine distribution is lower so that windward thermomechanical components 30 it is whole noise it is smaller, and then make the noise of cabinet air-conditioner 100 compared with
It is small.In addition, can also further promote cabinet air-conditioner 100 by the revolving speed of adjusting two axial flow wind wheel to realize calm sense effect
Comfort.
Further, windward thermomechanical components further include in the first cylinder 32a and the second cylinder 32b, the first cylinder 32a of docking
Equipped with first support 321, it is equipped with second support 322 in the second cylinder 32b, first motor 31a is installed on first support 321, the
Two motor 31b are installed on second support 322.In the present embodiment, by the cooperation of the first cylinder 32a and the second cylinder 32b, with
Convenient for the dismounting and maintenance of axial-flow windwheel and motor.Specifically, the first axial-flow windwheel 30a is assemblied in by first motor 31a
On one bracket 321, the second axial-flow windwheel 30b is assemblied in second support 322 by the second motor 31b, the first cylinder 32a and
It can be connected by a snap between two cylinder 32b or the modes such as screw connection are detachably fixed.
First support 321 is substantially arranged in " ten " font, is provided centrally with the installation position for first motor 31a installation,
Certainly, which is also possible in linear type setting.It can be one between first support 321 and the first cylinder 32a
It is body formed, it can also be fixedly connected, can be also connected by a snap, the removablies such as screw connection by the modes such as welding, being bonded
It is fixed.First axial-flow windwheel 30a may be mounted at the upside or downside of first support 321.For second support 322, the second axis
Flow the positional relationship and structure of wind wheel 30b and the second motor 31b, it is corresponding with first support 321, the first axial-flow windwheel 30a and the
One motor 31a is similar.
On the basis of a upper embodiment, it is preferable that the end face of the first cylinder 32a docked with the second cylinder 32b is along week
To several eye-splices are arranged at intervals with, the end face of the second cylinder 32b docked with the first cylinder 32a is circumferentially arranged with several and eye-splice
One-to-one slot.By the cooperation of eye-splice and slot, may be implemented between the first cylinder 32a and the second cylinder 32b quickly
Accurately pre-installation, is then fixed the two by screw, it is ensured that the stability of assembly.
Further, windward thermomechanical components 30 further include third axial-flow windwheel (not shown), the axis edge of third axial-flow windwheel
Up and down direction extends.In the present embodiment, by the way that third axial-flow windwheel is arranged, the adjustable of windward thermomechanical components 30 is further improved
Section property.Specifically, third axial-flow windwheel can be by independent motor driven, thus with the first axial-flow windwheel 30a and the second axis stream
More fit systems are formed between wind wheel 30b;Or third axial-flow windwheel is under the drive that stator blade wind wheel passes through air duct air-flow
Rotation.Preferably, third axial-flow windwheel is set to the air side of the first axial-flow windwheel 30a and the second axial-flow windwheel 30b, in this way,
It can play the role of further dispersing to air-flow, be advantageously implemented the calm perceptual energy of cabinet air-conditioner 100.Certainly, third axis stream
Wind wheel may also set up the inlet side in the first axial-flow windwheel 30a and the second axial-flow windwheel 30b.
It should be noted that the concrete mode of lower fan assembly 40 is unlimited, it can be for single or multiple axial-flow windwheels
The blower of blower or other forms.For the ease of the adjustment of lower 40 air supply direction of fan assembly, it is preferable that lower fan assembly 40
Driving motor including the 4th axial-flow windwheel and driving the 4th axial-flow windwheel rotation, the axis edge of the 4th axial-flow windwheel
Up and down direction extends.So, it is only necessary to which the 4th axial-flow windwheel air supply direction can be realized in the rotation direction for adjusting driving motor
Quickly adjust.
The utility model also proposes a kind of air conditioner, which includes air-conditioner outdoor unit and cabinet air-conditioner 100, the air-conditioning
The specific structure of cabinet-type air conditioner 100 is referring to above-described embodiment, since this air conditioner uses whole technical sides of above-mentioned all embodiments
Case, therefore at least all beneficial effects brought by the technical solution with above-described embodiment, this is no longer going to repeat them.
The above is only the preferred embodiment of the present invention, and therefore it does not limit the scope of the patent of the utility model,
It is all under the inventive concept of the utility model, equivalent structure made based on the specification and figures of the utility model becomes
It changes, 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 characterized by comprising
Shell, has air inlet, upper ventilation opening and a lower ventilation opening, the air inlet be located at the upper ventilation opening and lower ventilation opening it
Between;
Heat exchanger is disposed in the housing position corresponding with the air inlet;
Windward thermomechanical components and lower fan assembly, the windward thermomechanical components are between the air inlet and upper ventilation opening, under described
Fan assembly is between the air inlet and lower ventilation opening, wherein the windward thermomechanical components and/or the lower fan assembly packet
Include multiple axial-flow windwheels arranged along the vertical direction.
2. cabinet air-conditioner as described in claim 1, which is characterized in that the shell is cylindrical, and the air inlet is set to institute
The back side of shell is stated, the side close to the air inlet of the heat exchanger is in the arcwall face towards the air inlet protrusion, and
The side backwards to the air inlet of the heat exchanger is formed with cavity, and the cavity vertically extends and connects with air duct
It is logical.
3. cabinet air-conditioner as described in claim 1, which is characterized in that further include upper wind door and lower wind door, the upper wind door can
Actively be set to open or close the upper ventilation opening at the upper ventilation opening, the lower wind door be movably arranged at it is described under
To open or close the lower ventilation opening at ventilation opening;When the cabinet air-conditioner is in refrigeration mode, the upper wind door opens institute
Ventilation opening is stated, air-flow is oriented to the upper ventilation opening by the windward thermomechanical components;When the cabinet air-conditioner is in heating mode, institute
It states lower wind door and opens the lower ventilation opening, air-flow is oriented to the lower ventilation opening by the lower fan assembly.
4. cabinet air-conditioner as claimed in claim 3, which is characterized in that when the cabinet air-conditioner is in refrigeration mode, under described
Air door opens the lower ventilation opening, and air-flow is oriented to the upper ventilation opening by the lower fan assembly.
5. cabinet air-conditioner as claimed in claim 3, which is characterized in that when the cabinet air-conditioner is in heating mode, it is described on
Air door opens the upper ventilation opening, and air-flow is oriented to the lower ventilation opening by the windward thermomechanical components.
6. the cabinet air-conditioner as described in claim 1 to 5 any one, which is characterized in that the windward thermomechanical components include first
Axial-flow windwheel, the second axial-flow windwheel, first motor and the second motor, the first motor drive first axial-flow windwheel to turn
It is dynamic, the rotation of the second axial-flow windwheel described in second motor driven, and first axial-flow windwheel and second axial-flow windwheel
It is oppositely oriented.
7. cabinet air-conditioner as claimed in claim 6, which is characterized in that the windward thermomechanical components further include the first cylinder of docking
And second cylinder, first support is equipped in first cylinder, is equipped with second support, the first motor in second cylinder
It is installed on the first support, second motor is installed on the second support.
8. cabinet air-conditioner as claimed in claim 6, which is characterized in that the windward thermomechanical components further include third axial-flow windwheel,
The axis of the third axial-flow windwheel vertically extends.
9. cabinet air-conditioner as claimed in claim 6, which is characterized in that the lower fan assembly includes the 4th axial-flow windwheel and drive
The driving motor of the 4th axial-flow windwheel rotation is moved, the axis of the 4th axial-flow windwheel vertically extends.
10. a kind of air conditioner, which is characterized in that including air-conditioner outdoor unit and air-conditioning as claimed in any one of claims 1 to 9
Cabinet-type air conditioner.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201820383973.1U CN208237992U (en) | 2018-03-20 | 2018-03-20 | Cabinet air-conditioner and air conditioner |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201820383973.1U CN208237992U (en) | 2018-03-20 | 2018-03-20 | Cabinet air-conditioner and air conditioner |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN208237992U true CN208237992U (en) | 2018-12-14 |
Family
ID=64588702
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201820383973.1U Active CN208237992U (en) | 2018-03-20 | 2018-03-20 | Cabinet air-conditioner and air conditioner |
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| Country | Link |
|---|---|
| CN (1) | CN208237992U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108332293A (en) * | 2018-03-20 | 2018-07-27 | 广东美的制冷设备有限公司 | Cabinet air-conditioner and air conditioner |
-
2018
- 2018-03-20 CN CN201820383973.1U patent/CN208237992U/en active Active
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108332293A (en) * | 2018-03-20 | 2018-07-27 | 广东美的制冷设备有限公司 | Cabinet air-conditioner and air conditioner |
| CN108332293B (en) * | 2018-03-20 | 2024-03-29 | 广东美的制冷设备有限公司 | Cabinet air conditioner and air conditioner |
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