CN207880967U - Air conditioner - Google Patents
Air conditioner Download PDFInfo
- Publication number
- CN207880967U CN207880967U CN201820042298.6U CN201820042298U CN207880967U CN 207880967 U CN207880967 U CN 207880967U CN 201820042298 U CN201820042298 U CN 201820042298U CN 207880967 U CN207880967 U CN 207880967U
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- filtration members
- shell
- air
- air conditioner
- air duct
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Abstract
The utility model discloses a kind of air conditioner, which includes shell, air duct is formed in the shell, and the shell has the air inlet for being connected to the air duct, and the wind turbine for being fixed on shell is additionally provided in the air duct;Cleaning shaft, the cleaning shaft stretch into the shell and are connected to the air duct;Net-filter assembly, the net-filter assembly are located in air duct and close on the air inlet, and the net-filter assembly includes first driving means and filtration members, and the first driving means coordinate with the filtration members to drive the filtration members to move;Dedusting structure, the dedusting structure are located in the air duct, and the dedusting structure is contacted with the filtration members in filtration members motion process, the impurity adhered in filtration members to be detached with filtration members;Under the driving of wind turbine, the air in the air duct is sent out impurity by cleaning shaft.The air conditioner of technical solutions of the utility model can automate dedusting, and the small volume of air conditioner.
Description
Technical field
The utility model is related to household electrical appliance technical field, more particularly to a kind of air conditioner.
Background technology
The dedusting structure of existing air conditioner includes the strainer moved back and forth, and the impurity top of strainer will be attached to by hairbrush
Go out, then scraped the impurity on strainer in dust-collecting box by adhesive tape, user or repair company personnel need periodically to dust
Box is cleared up, and complex to the demolishing process of dust-collecting box, and needs labor intensive, can not achieve automation dedusting.
The dedusting structure of the air conditioner more also improved increases dust suction element, can be automatic by the dust suction element
Impurity in dust-collecting box is retracted to outdoor, but increases dust suction element and not only replies the cost for increasing air conditioner, and dust suction member
Part volume is larger, can increase the volume of air conditioner indoor unit.
Utility model content
The main purpose of the utility model is to provide a kind of air conditioner, it is intended to enable air conditioner to automate dedusting, and empty
Adjust the small volume of device.
To achieve the above object, the utility model proposes air conditioner, which includes shell, is formed in the shell
There is air duct, and the shell has the air inlet for being connected to the air duct, and the wind turbine for being fixed on shell is additionally provided in the air duct;
Cleaning shaft, the cleaning shaft stretch into the shell and are connected to the air duct;
Net-filter assembly, the net-filter assembly are located in air duct and close on the air inlet, and the net-filter assembly includes first
Driving device and filtration members, the first driving means coordinate with the filtration members to drive the filtration members to move;
Dedusting structure, the dedusting structure are located in the air duct, the dedusting structure contacted with the filtration members in
In filtration members motion process, the impurity adhered in filtration members is detached with filtration members;
Under the driving of wind turbine, the air in the air duct is sent out impurity by cleaning shaft.
Preferably, the air conditioner further includes the wind shield component being connect with the shell, and the wind shield component is located at
The net-filter assembly deviates from the side of the air inlet;
The wind shield component includes being connected to the second driving device of the shell and being connected to second driving to fill
The wind shield set, second driving device drives the wind shield in being moved back and forth in air duct, to open the air inlet, or
Air inlet described in shield portions is so that air-flow is oriented to the dedusting structure.
Preferably, the shell is fixed with two wind shield guide grooves being oppositely arranged, and the two wind shield guide grooves are located at dedusting
Structure deviates from air inlet side;
The both sides of the wind shield are plugged in the two wind shield guide grooves respectively, and in the driving lower edge of the second driving device
Wind shield guide groove moves back and forth.
Preferably, second driving device includes being connected to an at least gear for the shell, and the wind shield has
The toothed track being meshed with the gear;
The gear is meshed with the toothed track, to drive the wind shield to move back and forth.
Preferably, the dedusting structure includes the dust blowing component for being fixed on shell, described in the dust blowing component flexibility abutting
Filtration members, and in the filtration members motion process, the impurity adhered in filtration members is detached with filtration members.
Preferably, the dust blowing component includes adhesive tape axis and adhesive tape, and the adhesive tape axis is fixed on the shell, and in an axial direction
Screens is offered, the side of the adhesive tape is fastened in the screens, and other side flexibility abuts the net-filter assembly.
Preferably, the dedusting structure further includes the brush member for being connected to the first driving means;
The first driving means drive the brush member with respect to housing into rotation, and the brush member is in the filtration members
Partial pressure is held in the filtration members in the middle part of motion process, and the impurity adhered in filtration members is ejected, and is scraped by dust blowing component.
Preferably, the brush member includes connecting the rotary shaft of the first driving means and being connected to the rotary shaft
The bristle on surface, the first driving means drive the rotary shaft rotation, the bristle to press in the filtration members, and part
By being pierced by the filtration members, the impurity for being attached to filtration members is ejected.
Preferably, the dust blowing component abuts the filtering in the filtration members away from the side flexibility of the brush member
Part;
The impurity adhered in the filtration members is scraped after brush member ejects by the dust blowing component.
Preferably, the shell is in being fixed with two strainer guide grooves being oppositely arranged, the two sides of the filtration members in air duct
It is plugged in the two strainer guide grooves respectively, and the strainer guide groove described in the driving lower edge of first driving means moves back and forth.
Preferably, the first driving means are located at the side for closing on the air inlet;
Each strainer guide groove includes two linkage sections being connected, and a linkage section is located at another linkage section away from described
The side of air inlet;
The shell is further fixed on arc-shaped setting and axially extending guide housing, the side of the guide housing are docked respectively
It docks respectively in the two strainer guide grooves separately the other side of the free end of a linkage section in the two strainer guide grooves, the guide housing
The free end of one linkage section;
The filtration members are past under the linkage section of strainer guide groove and the guiding of guide housing under the driving of first driving means
Multiple movement.
Preferably, the first driving means include being connected to an at least gear for the shell, and the filtration members have
The toothed track being meshed with the gear, a toothed track are engaged in a first gear.
The gear is meshed with the toothed track, to drive the filtration members to move back and forth.
Preferably, the shell is further opened with the air outlet for being connected to the air duct, and shell is connected with activity and opens or seal
The wind deflector of stifled air outlet is additionally provided with the stop part for the cleaning shaft opened or blocked in the air duct.
The air conditioner of technical solutions of the utility model adds dedusting structure in air duct, under the driving of wind turbine, air by
The air inlet of air conditioner enters in air duct, and first driving means driving filtration members are moved relative to shell in net-filter assembly, dedusting knot
Structure is contacted with filtration members so that and filtration members can be detached impurity attached to it by dedusting structure during the motion,
Impurity can be sent to outdoor by the air in air duct through screen modules and dedusting structure through cleaning shaft.The utility model skill
The air conditioner of art scheme provides wind pressure using the wind turbine of itself and air duct, and the impurity under filtration members are cleared up by dedusting structure is automatic
Impurity after separation is discharged to outdoor or impurity is discharged increase dust suction component so that air-conditioning by blowout without human intervention
Device can automate dedusting, and it is simple in structure, cost is relatively low.Further, compared to tradition need increase dust suction component into
The air conditioner of row dedusting, the complete machine of air conditioner of technical scheme is compact-sized, small volume.
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 explosive view of one embodiment of the utility model air conditioner;
Fig. 2 is the sectional view of Fig. 1 air conditioners;
Fig. 3 is the schematic diagram that wind shield slides into shield portions air inlet in Fig. 2;
Fig. 4 is the schematic diagram that the first actuator drives after filtration members movement in Fig. 3;
Fig. 5 is the structural schematic diagram of brush member and guide housing in Fig. 4;
Fig. 6 is the schematic diagram that brush member connects the first driving structure in Fig. 4;
Fig. 7 is the structural schematic diagram of dust blowing component and outer casing in Fig. 4;
Fig. 8 is the explosive view of adhesive tape and adhesive tape axis in Fig. 4;
Fig. 9 is the vertical view and side view of net-filter assembly in Fig. 4;
Figure 10 is the partial enlarged view that dust and hair are attached to filter screen in Fig. 4.
Drawing reference numeral explanation:
The embodiments will be further described with reference to the accompanying drawings for the realization, functional characteristics and advantage of the utility model aim.
Specific implementation mode
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describing, it is clear that described embodiment is only a part of the embodiment of the utility model, rather than all
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise
Lower obtained every other embodiment, shall fall within the protection scope of the present invention.
It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute in the utility model embodiment
It is only used for explaining relative position relation, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, such as
When the fruit particular pose changes, then directionality instruction also correspondingly changes correspondingly.
In addition, the description for being related to " first ", " second " etc. in the present invention is used for description purposes only, and cannot understand
To indicate or implying its relative importance or implicitly indicate the quantity of indicated technical characteristic.Define as a result, " first ",
The feature of " second " can explicitly or implicitly include at least one of the features.In addition, the technical side between each embodiment
Case can be combined with each other, but must can be implemented as basis with those of ordinary skill in the art, when the combination of technical solution
Conflicting or cannot achieve when occur will be understood that the combination of this technical solution is not present, also not in the requires of the utility model
Protection domain within.
Referring to figs. 1 to 10, the utility model proposes a kind of air conditioner 100, air conditioner 100 includes shell 10, in shell 10
It is formed with air duct, and shell 10 has the air inlet 111 and air outlet 113 in connection air duct, and evaporator 18 is additionally provided in air duct.
Under normal refrigeration or heating mode, net-filter assembly 30, which is located in air duct, to be closed at air inlet 111, and blocks air inlet comprehensively
111, under the driving of wind turbine 17, air is entered by air inlet 111 in air duct, and net-filter assembly 30 is to impurity such as dusts in air
It is filtered, then air carries out heat exchange with evaporator 18, forms the hot-air less than the cold air of room temperature or higher than room temperature,
And it is sent out by air outlet 113.
Referring to Fig. 1 and Fig. 2, the air conditioner 100 of the utility model also has additional dedusting work(compared to common air conditioner 100
Can, air conditioner 100 further includes cleaning shaft 20, which stretches into shell 10 and be connected to air duct;Specifically, wind turbine 17
Spiral case on offer dust removal port, cleaning shaft 20 is connected to the dust removal port and the circumferential direction with spiral case in dust removal port is sealed, by
Have in air conditioner 100 itself and be connected to outdoor drainpipe, which can be connected to outdoor together with drainpipe.
Air conditioner 100 further includes net-filter assembly 30 and dedusting structure 50, and net-filter assembly 30 is located in air duct and closes on air inlet
Mouth 111, net-filter assembly 30 include first driving means 31 and filtration members 33, and first driving means 31 coordinate with filtration members 33 to drive
Dynamic filtration members 33 move.Dedusting structure 50 is located in air duct, and can be contacted with filtration members 33, in the process that filtration members 33 move
In, dedusting structure 50 can detach the impurity adhered in filtration members 33 with filtration members 33;Under the driving of wind turbine 17 air by into
Air port 111 enters in air duct, air in air duct through screen modules 30 and dedusting structure 50, by filtration members 33 by dedusting knot
The impurity that structure 50 detaches is sent to outdoor through cleaning shaft 20.
The air conditioner 100 of technical solutions of the utility model adds dedusting structure 50 in air duct, under the driving of wind turbine 17,
Air is entered by the air inlet 111 of air conditioner 100 in air duct, and first driving means 31 drive 33 phase of filtration members in net-filter assembly 30
Shell 10 is moved, dedusting structure 50 is contacted with filtration members 33 so that filtration members 33 during the motion can be by dedusting structure 50
Impurity attached to it is detached, the air in air duct can pass through impurity through screen modules 30 and dedusting structure 50
Cleaning shaft 20 is sent to outdoor.The air conditioner 100 of technical solutions of the utility model is provided using the wind turbine 17 of itself and air duct
Wind pressure, blowout, without human intervention will be after separation to outdoor automatically for the impurity under filtration members 33 are cleared up by dedusting structure 50
Impurity is discharged or increases dust suction component and impurity is discharged so that air conditioner 100 can automate dedusting, and it is simple in structure, at
This is relatively low.Further, the air conditioner 100 that increase dust suction component is dusted, present techniques side are needed compared to tradition
The complete machine of air conditioner of case is compact-sized, small volume.
In technical solutions of the utility model, air conditioner 100 further includes the wind shield component 70 being connect with shell 10, wind shield
Component 70 is located at the side that net-filter assembly 30 deviates from air inlet 111;
Wind shield component 70 includes being connected to the second driving device 71 of shell 10 and being connected to the second driving device 71
Wind shield 73, the second driving device 71 drives wind shield 73 in being moved back and forth in air duct, to open air inlet 111 or occlusion part
Divide air inlet 111 so that air-flow is oriented to dedusting structure 50.
Air conditioner 100 further includes controller, and controller control air conditioner 100 changes operating mode and works as control referring to Fig. 2
When device controls the progress refrigerating/heating pattern of air conditioner 100, controller controls first driving means 31 and drives filtration members 33 with respect to shell
Body 10 slides, to block air inlet 111, and control 70 opposite shell 10 of the second driving device 71 driving wind shield component slide with
Air inlet 111 is opened, air is entered inside air duct after the filtering of filtration members 33 by air inlet 111 under the driving of wind turbine 17, made
Clean state, air-conditioning is kept normally freeze or heat inside air duct.
In one embodiment of the utility model, when air conditioner 100 runs refrigeration or heating mode 10 minutes or more, controller inspection
After measuring shutdown command, into dedusting pattern;In one embodiment of the utility model, the operation of air conditioner 100 refrigeration or heating mode
10 minutes or more, after controller detects dedusting instruction, into dedusting pattern, under dedusting pattern, wind turbine 17 was adjusted to gentle breeze mould
Formula.
In conjunction with Fig. 3 and Fig. 4, controller controls air conditioner 100 and enters dedusting pattern, and controller controls the second driving device 71
It drives the opposite shell 10 of wind shield component 70 to slide, with shield portions air inlet 111, and controls first driving means 31 and drove
Filter part 33 moves back and forth with respect to shell 10, during filtration members 33 move back and forth with respect to shell 10, filtration members
33 block always in the part air inlet 111 not blocked by wind shield component 70, and filtration members 33 carry out back and forth with respect to shell 10
During movement, the impurity being attached in filtration members 33 is cleared up by dedusting structure 50, meanwhile, wind turbine 17 drives sky
Gas is entered by part air inlet 111 in air duct, and under the blocking of wind shield component 70, air is directed to dust-extraction unit, will be through
The impurity of dust-extraction unit separation is sent to outdoor by cleaning shaft 20.Under dedusting pattern, air is only entered by part air inlet 111
Air duct, and wind concentration is in 50 position of dedusting structure so that the air into air duct can be completely used for dedusting, save into
Air quantity.It can not be blocked by wind shield 73 by the air inlet 111 that filtration members 33 are blocked, prevent extraneous air from bringing impurity by this into
In air duct.
In conjunction with Fig. 2 to Fig. 4, in one embodiment of the utility model, shell 10 is fixed with two wind shield guide grooves being oppositely arranged
14, two wind shield guide grooves 14 are located at dedusting structure 50 and deviate from 111 side of air inlet;
The both sides of the wind shield 73 are plugged in the two wind shield guide grooves 14 respectively, and in the drive of the second driving device 71
It is moved back and forth along wind shield guide groove 14 under dynamic.
The both sides of wind shield 73 are connected with wind shield guide groove 14 respectively so that wind shield 73 can be along wind shield guide groove
14 extending directions slide, which is that guiding and support are played the role of in the movement of wind shield 73.
Wind shield guide groove 14 has the backstop section being connected and hiding section, the extending direction of the backstop section and air inlet 111
Unanimously, it is consistent with air inlet direction to hide section, and backstop section is connect with hiding section by arc structure transition.When wind shield 73 slides
When to backstop section, 73 shield portions air inlet 111 of wind shield, when wind shield component 70 slides into hiding section, wind shield component
70 open air inlet 111, at this point, the extending direction of wind shield component 70 is consistent with wind direction, to air in the flowing shadow in air duct
Sound minimizes.
In one embodiment of the utility model, the second driving device 71 includes being connected to an at least gear for shell 10, is kept out the wind
Plate 73 has the toothed track being meshed with gear;Gear is meshed with toothed track, to drive wind shield 73 to move back and forth.
Second driving device 71 further includes being fixed on the motor of shell 10, and motor-driven gear rotation passes through gear and tooth
The engagement of shape track, wind shield 73 in air duct in moving back and forth.Second driving device 71 can also be the structure of belt pulley,
Wind shield 73 and the belt in belt sheave structure are mutually fixed, moved back and forth to realize.By in the utility model embodiment
Two driving devices 71 are set as gear so that wind shield component 70 is simple in structure, and position is accurate during the motion, is not easy out
The case where now skidding.
In one embodiment, the second driving device 71 includes two gears, and two gears are oppositely arranged on shell 10, wind shield 73
Both sides all have and be engaged with a gear with the matched toothed track of gear, a toothed track so that wind shield 73
Movement is more steady.It is to be appreciated that when if two lateral extents of wind shield 73 are larger, can also be arranged between two gears more
A gear, while more and gear matched toothed track are set on wind shield 73 so that gear to wind shield 73 into
Play the role of support to wind shield 73 while row driving, when being provided with multiple gears, only connects one of gear
In motor, driving force is provided.
In one embodiment of the utility model, dedusting structure 50 includes the dust blowing component 53 for being fixed on shell 10, dust blowing component
53 flexible abutting filtration members 33, and in 33 motion process of filtration members, the impurity adhered in filtration members 33 and filtration members 33 are divided
From.
The part-structure of the dust blowing component 53 is flexible material, and the flexible portion flexibility of dust blowing component 53 abuts filtration members
33, during filtration members 33 are moved with respect to shell 10, dust blowing component 53 generates bullet with respect to 10 remains stationary state of shell
Property deformation, the impurity being attached in filtration members 33 is scraped.
Further, in conjunction with Fig. 7 and Fig. 8, dust blowing component 53 includes adhesive tape axis 531 and adhesive tape 533, and adhesive tape axis 531 is along hair
Brush assemblies 51 are axially fixed at shell 10, and adhesive tape axis 531 is provided in the axial direction with screens 5311, and the side of adhesive tape 533 is in an axial direction
It is fastened in screens 5311, other end flexibility abuts net-filter assembly 30.
Dust blowing component 53 carries out dust blowing by adhesive tape 533 to net-filter assembly 30, which has certain flexibility,
So that adhesive tape 533 can adequately scrape the impurity in mesh during being abutted with net-filter assembly 30.The dust blowing component 53 exists
It is likely to occur abrasion during being used for a long time, needs to replace adhesive tape 533, directly by adhesive tape 533 from 531 upper edge of adhesive tape axis
Slide axially taking-up, and the adhesive tape 533 more renewed is simultaneously axially installed in the screens 5311 of adhesive tape axis 531, which is convenient for glue
The dismounting of item 533 so that the dedusting structure 50 of the air conditioner 100 safeguards, it is more convenient to clear up.
In conjunction with Fig. 5 and Fig. 6, in one embodiment of the utility model, dedusting structure 50 further includes being connected to first driving means
31 brush member 51;
First driving means 31 drive brush member 51 to be rotated relative to shell 10, and brush member 51 is moved through in filtration members 33
Partial pressure is held in filtration members 33 in the middle part of journey, and the impurity adhered in filtration members 33 is ejected, and is scraped by dust blowing component 53.
First driving means 31 drive brush member 51 to rotate, while the first driving means 31 also drive filtration members 33 to transport
It is dynamic so that brush member 51 and filtration members 33 can be realized and be moved synchronously.In conjunction with Fig. 9 and Figure 10, filtration members 33 include screen frame
331 and filter screen 333, filter screen 333 is circumferentially fixed on screen frame 331, and first driving means 31 drive screen frame 331
It moves back and forth, for brush member 51 during being moved synchronously with filtration members 33, part pressure holding, can in filter screen 333
The impurity adhered on filter screen 333 is ejected, then the impurity of the ejection is scraped by dust blowing component 53.
Further, brush member 51 includes the rotary shaft 511 of connection first driving means 31 and is connected to rotary shaft 511
The bristle 513 on surface, first driving means 31 drive rotary shaft 511 to rotate, the pressure holding of bristle 513 in filtration members 33, and part by
It is pierced by filtration members 33, the impurity for being attached to filtration members 33 is ejected.
Brush member 51 is including rotary shaft 511 and along the evenly arranged bristle 513 in the surface of rotary shaft 511, the first driving
Device 31 drives the rotary shaft 511 rotation, meanwhile, filtration members 33 are held in portion bristle in the driving pushing of first driving means 31
513, bristle 513 its free end portion pressed by filtration members 33 is pierced by the mesh on filter screen 333, will be attached to filter screen
The impurity such as the dust on 333 eject, and so that the impurity such as dust is detached from the surface of filter screen 333, filtration members 33 are in first driving means
Continue to move under 31 driving, and is scraped the impurity such as the dust of ejection by dust blowing component 53.
It dust blowing component 53 is separately provided is only capable of that the impurity such as unstable dust will be adhered in filtration members 33 and scrape, and some are grey
The impurity of dirt or hair etc can pass through the mesh of filtration members 33 more firmly be attached in the filtration members 33, brush member
51 can wear the mesh of Filtration Filtration part 33 by the small structure of bristle 513, and the impurity such as the dust of more difficult removal are ejected, are made
The impurity such as dust are loosened in filtration members 33, and then dust blowing component 53 can easily the impurity such as dust by this after loosening scrape,
Keep dust removal assembly more thorough to the dust removing effects of filtration members 33, the filtration members 33 after dedusting are more clean.
With continued reference to Fig. 2 to Fig. 4, in one embodiment of the utility model, dust blowing component 53 deviates from hairbrush group in filtration members 33
The side flexibility of part 51 abuts filtration members 33;
The impurity adhered in filtration members 33 is scraped after the ejection of brush member 51 by dust blowing component 53.
First driving means 31 drive filtration members 33 to move, and the filtration members 33 are during the motion, first by brush member 51
On bristle 513 impurity is ejected, using dust blowing component 53 by the impurity of ejection scrape or filtration members 33 simultaneously and hairbrush
Component 51 and dust blowing component 53 are in contact, and brush member 51 is located at the both sides of filtration members 33, dust blowing with dust blowing component 53
While 53 flexibility of component abuts filtration members 33, the bristle 513 by being stretched out in the mesh of filtration members 33 can be contacted, the structure
Dust blowing component 53 and 51 collective effect of brush member can ensure the impurity in filtration members 33 by brush member in filtration members 33
It is scraped by dust blowing component 53 while 51 ejection, it is more preferable to the dust removing effects of filtration members 33.
Preferably, dust blowing component 53 is located at the side that the brush member 51 deviates from air inlet 111, due to air inlet 111
It opens up upward so that dust blowing component 53 is located at the lower section of brush member 51, and the impurity scraped by dust blowing component 53 will not weigh
It is new to fall after rise to filtration members 33,
In one embodiment of the utility model, shell 10 is filtered in being fixed with two strainer guide grooves 12 being oppositely arranged in air duct
The two sides of part 33 are plugged in two strainer guide grooves 12 respectively, and reciprocal along strainer guide groove 12 under the driving of first driving means 31
Movement.
The both sides of filtration members 33 are connected with strainer guide groove 12 respectively, enable filtration members 33 along 12 side of extension of strainer guide groove
To sliding, which is that guiding and support are played the role of in the movement of filtration members 33.
Further, first driving means 31 are located at the side for closing on air inlet 111;
Each strainer guide groove 12 includes two linkage sections 121 being connected, and a linkage section 121 is located at another linkage section 121
Away from the side of air inlet 111;
Shell 10 is further fixed on arc-shaped setting and axially extending guide housing 52, the side of guide housing 52 dock two respectively
Another company in two strainer guide grooves 12 is docked respectively in the other side of the free end of a linkage section 121 in strainer guide groove 12, guide housing 52
Connect the free end of section 121;
Filtration members 33 are under the driving of first driving means 31, in the linkage section 121 and guide housing 52 of strainer guide groove 12
It is oriented to lower move back and forth.
The first linkage section through being oppositely arranged in two strainer guide grooves 12 under the driving of first driving means 31 of filtration members 33
121 are oriented to, and are then oriented to by guide housing 52, then another linkage section 121 by being oppositely arranged in two strainer guide grooves 12
It is oriented to, completes the movement in a direction, then move backward, primary reciprocating motion is completed, in multiple reciprocating motion
Cheng Zhong, brush member 51 enter 52 guiding area of guide housing in when wrapped up by filtration members 33, bristle 513 from the inside to the outside incited somebody to action
The impurity ejection on part 33 is filtered, while dust blowing component 53 will be pushed up in filtration members 33 away from the side of brush member 51 in filtration members 33
The impurity gone out scrapes.The structure of the strainer guide groove 12 makes filtration members 33, and motion range is more during moving back and forth
It concentrates, convenient for the air in air duct to 33 dedusting of filtration members.
In one embodiment of the utility model, first driving means 31 include being connected to an at least gear for shell 10, filtering
There is part 33 toothed track being meshed with gear, a toothed track to be engaged in a first gear.
Gear is meshed with toothed track, to drive filtration members 33 to move back and forth.
The first driving means 31 further include being fixed on the motor of shell 10, and motor-driven gear is rotated, and tooth is passed through
Take turns the engagement in toothed track, filtration members 33 in air duct in moving back and forth.First driving means 31 can also be belt pulley
Deng other driving structures.
In one embodiment, first driving means 31 include two gears, and two gears are oppositely arranged on shell 10, filtration members 33
Both sides all have and be engaged with a gear with the matched toothed track of gear, a toothed track so that filtration members 33
Movement is more steady.It is to be appreciated that when if two lateral extents of filtration members 33 are larger, can also be arranged between two gears more
A gear, while more and gear matched toothed track are set in filtration members 33 so that gear to filtration members 33 into
Play the role of support to filtration members 33 while row driving, when being provided with multiple gears, only connects one of gear
In motor, driving force is provided.
In the utility model embodiment, shell 10 is further opened with the air outlet 113 in connection air duct, and shell 10 is connected with work
The wind deflector 16 for the air outlet 113 opened or blocked is moved, stopping for the cleaning shaft opened or blocked 20 is additionally provided in air duct
Block piece.
When air conditioner 100 is in refrigerating/heating pattern, controller controls stop part and blocks cleaning shaft 20, and controls
Wind deflector 16 opens air outlet 113, and air conditioner 100 works normally.
When air conditioner 100 is in dedusting pattern, controller controls stop part and opens cleaning shaft 20, and controls wind deflector
16 close air outlet 113, and the air entered in air duct by air inlet 111 is only blown out by cleaning shaft 20.
In the utility model embodiment, which can be that cabinet-type air conditioner may be wall hanging machine, when the air conditioner 100
For wall hanging machine when, the shell 10 of air conditioner 100 includes 13 knead dough shell component 11 of chassis assembly, and face-piece component 11 includes surface frame and covers
It is placed on the panel 112 of surface frame, air conditioner 100 further includes left cover 115 and right cover plate 114, and face-piece component 11 is covered on chassis group
Part 13, and left and right cover board 114 is combined to form air duct, shell 10 is in being fixed with wind turbine 17 and evaporator 18, face-piece component in air duct
11 offer the air inlet 111 and air outlet 113 in connection air duct, and air inlet 111 and air outlet 113 are rectangle setting.
There is air inlet 111 long side and broadside, dedusting structure 50 to close on the broadside setting of air inlet 111, filtration members 33
It moves, then circumferentially surrounds in part hairbrush towards the direction close to dedusting structure 50 under the driving of first driving means 31
Opposite direction movement after component 51 towards this close to dedusting structure 50 so that the motion path of filtration members 33 is compact, makes air-conditioning
100 compact overall structure of device, it is small.
When air conditioner 100 is in dust removal state, wind shield component 70 in air duct in moving and be closed air inlet 111 far from removing
The side of dirt structure 50 so that the wind for entering air duct by air inlet 111 more concentrates on net-filter assembly 30 and 50 phase of dedusting structure
The part of effect more fully will be sent to outdoor by the impurity of 50 hanging fascia of dedusting structure through cleaning shaft 20.
Referring to Fig. 5 and Fig. 7, dedusting structure 50 further includes the hairbrush holder and dust blowing holder for being fixed on shell 10, hairbrush branch
Frame and dust blowing support assorted are installed and be both secured to shell, first driving means and brush member to be supported by hairbrush holder
And positioning, and guide housing takes shape on hairbrush holder, and dust blowing component is supported and is positioned by dust blowing holder, on dust blowing holder at
Type has outer casing, outer casing 54 to be sealed air inlet 111 in 50 side of dedusting structure, and specially the outer casing 54 is in
Arc is arranged, and brush member 51 and dust blowing component 53 are located at the outer casing 54 towards the side of air inlet 111 so that outside air
Air conditioner 100 will not be ensured in refrigeration/system by not entered in air duct by the region that wind shield component 70 and filtration members 33 are covered
It will not further be polluted by introduced contaminants in air duct in heat pattern and dust removal process.
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,
It is every 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 (13)
1. a kind of air conditioner, which is characterized in that including:
Shell, is formed with air duct in the shell, and the shell has an air inlet for being connected to the air duct, in the air duct and also
Equipped with the wind turbine for being fixed on shell;
Cleaning shaft, the cleaning shaft stretch into the shell and are connected to the air duct;
Net-filter assembly, the net-filter assembly are located in air duct and close on the air inlet, and the net-filter assembly includes the first driving
Device and filtration members, the first driving means coordinate with the filtration members to drive the filtration members to move;
Dedusting structure, the dedusting structure are located in the air duct, and the dedusting structure is contacted with the filtration members in filtering
In part motion process, the impurity adhered in filtration members is detached with filtration members;
Under the driving of wind turbine, the air in the air duct is sent out impurity by cleaning shaft.
2. air conditioner as described in claim 1, which is characterized in that the air conditioner further includes keeping out the wind with what the shell was connect
Board group part, the wind shield component are located at the side that the net-filter assembly deviates from the air inlet;
The wind shield component includes being connected to the second driving device of the shell and being connected to second driving device
Wind shield, second driving device drive the wind shield in being moved back and forth in air duct, to open the air inlet, or block
The part air inlet is so that air-flow is oriented to the dedusting structure.
3. air conditioner as claimed in claim 2, which is characterized in that the shell is fixed with two wind shields being oppositely arranged and leads
Slot, the two wind shield guide grooves are located at dedusting structure and deviate from air inlet side;
The both sides of the wind shield are plugged in the two wind shield guide grooves respectively, and keep out the wind in the driving lower edge of the second driving device
Plate guide groove moves back and forth.
4. air conditioner as claimed in claim 2, which is characterized in that second driving device includes being connected to the shell
An at least gear, the wind shield have the toothed track being meshed with the gear;
The gear is meshed with the toothed track, to drive the wind shield to move back and forth.
5. such as Claims 1-4 any one of them air conditioner, which is characterized in that the dedusting structure includes being fixed on shell
Dust blowing component, the dust blowing component flexibility abuts the filtration members, and in the filtration members motion process, will be in filtration members
The impurity of attachment is detached with filtration members.
6. air conditioner as claimed in claim 5, which is characterized in that the dust blowing component includes adhesive tape axis and adhesive tape, the glue
Axis is fixed on the shell, and is provided in the axial direction with screens, and the side of the adhesive tape is fastened in the screens, and the other side is flexible
Abut the net-filter assembly.
7. air conditioner as claimed in claim 5, which is characterized in that the dedusting structure further includes being connected to first driving
The brush member of device;
The first driving means drive the brush member with respect to housing into rotation, and the brush member is moved in the filtration members
Part pressure holding ejects the impurity adhered in filtration members, and scraped by dust blowing component in the filtration members in the process.
8. air conditioner as claimed in claim 7, which is characterized in that the brush member includes connecting the first driving means
Rotary shaft and be connected to the bristle of the rotating shaft surface, the first driving means drive the rotary shaft rotation, described
Bristle pressure holding is in the filtration members, and part is ejected the impurity for being attached to filtration members by being pierced by the filtration members.
9. air conditioner as claimed in claim 7, which is characterized in that the dust blowing component deviates from the hairbrush in the filtration members
The side flexibility of component abuts the filtration members;
The impurity adhered in the filtration members is scraped after brush member ejects by the dust blowing component.
10. air conditioner as described in claim 1, which is characterized in that the shell is in being fixed with two be oppositely arranged in air duct
The two sides of strainer guide groove, the filtration members are plugged in the two strainer guide grooves respectively, and under the driving of first driving means
It is moved back and forth along the strainer guide groove.
11. air conditioner as claimed in claim 10, which is characterized in that the first driving means, which are located at, closes on the air inlet
Side;
Each strainer guide groove includes two linkage sections being connected, and a linkage section is located at another linkage section and deviates from the air inlet
The side of mouth;
The shell is further fixed on arc-shaped setting and two institutes are docked in axially extending guide housing, the side of the guide housing respectively
The free end of a linkage section in strainer guide groove is stated, another company in the two strainer guide grooves is docked in the other side of the guide housing respectively
Connect the free end of section;
The filtration members are back and forth transported under the driving of first driving means under the linkage section of strainer guide groove and the guiding of guide housing
It is dynamic.
12. air conditioner as described in claim 1, which is characterized in that the first driving means include being connected to the shell
An at least gear, there is the filtration members toothed track that is meshed with the gear, a toothed track to be engaged in one
First gear;
The gear is meshed with the toothed track, to drive the filtration members to move back and forth.
13. air conditioner as described in claim 1, which is characterized in that the shell is further opened with the outlet air for being connected to the air duct
Mouthful, and shell is connected with the wind deflector for the air outlet that activity is opened or blocked, and is additionally provided with to open or block in the air duct
Cleaning shaft stop part.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820042298.6U CN207880967U (en) | 2018-01-09 | 2018-01-09 | Air conditioner |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820042298.6U CN207880967U (en) | 2018-01-09 | 2018-01-09 | Air conditioner |
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Publication Number | Publication Date |
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CN207880967U true CN207880967U (en) | 2018-09-18 |
Family
ID=63505328
Family Applications (1)
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CN201820042298.6U Active CN207880967U (en) | 2018-01-09 | 2018-01-09 | Air conditioner |
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CN (1) | CN207880967U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108224557A (en) * | 2018-01-09 | 2018-06-29 | 广东美的制冷设备有限公司 | Air conditioner |
-
2018
- 2018-01-09 CN CN201820042298.6U patent/CN207880967U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108224557A (en) * | 2018-01-09 | 2018-06-29 | 广东美的制冷设备有限公司 | Air conditioner |
CN108224557B (en) * | 2018-01-09 | 2024-05-28 | 广东美的制冷设备有限公司 | Air Conditioner |
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