CN105674411B - Cabinet air-conditioner - Google Patents

Abstract

The present invention discloses a kind of cabinet air-conditioner, which includes door body assembly, wind guiding component and driving device；The driving device includes rotary components, and the rotary components drive the door body assembly and wind guiding component rotation, to adjust the relative position between the door body assembly and the wind guiding component.The present invention drives door body assembly and wind guiding component to rotate by rotary components, to adjust the relative position between door body assembly and wind guiding component, to meet cabinet air-conditioner requirements of one's work；Meanwhile avoiding stuck phenomenon occur during the opening and closing of door body, be conducive to the reliable and stable use cabinet air-conditioner of user.

Description

Cabinet air-conditioner

Technical field

The present invention relates to air-conditioning technical field, more particularly to a kind of cabinet air-conditioner.

Background technology

Since the inner space of cabinet air-conditioner shell is limited, between the door body and wind guiding component of traditional cabinet air-conditioner away from From adjustment underaction so that door body phenomena such as stuck often occurs during opening and closing, is unfavorable for user's stabilization Reliably use cabinet air-conditioner.

Invention content

The main object of the present invention is to provide a kind of cabinet air-conditioner, it is intended to increase the spacing tune between door body and air-conditioning assembly Whole flexibility, to improve the stability of cabinet air-conditioner operation.

To achieve the above object, cabinet air-conditioner proposed by the present invention, including door body assembly, wind guiding component and driving device； The driving device includes rotary components, and the rotary components drive the door body assembly and wind guiding component rotation, to adjust Relative position between the whole door body assembly and the wind guiding component.

Preferably, the driving device is set to the bottom of the door body assembly and the wind guiding component, the door body group The door body of part corresponds to the air outlet setting of cabinet air-conditioner.

Preferably, the rotary components include first motor, the first driving gear, driven ring gear and are door body assembly The rotating disc of installation position is provided with wind guiding component；First motor driving the first driving gear, first sliding tooth Wheel and the driven ring gear engagement, the driven ring gear are fixedly connected with the rotating disc.

Preferably, the tooth of the driven ring gear is arranged on inner ring surface, the first driving gear and the driven ring gear Inner ring surface engagement；The axis direction of the first driving gear hangs down with the plane where the rotary motion trace of the driven ring gear Directly.

Preferably, the driving device includes moving assembly, and the moving assembly drives the door body assembly and described leads Wind component relatively moves, to adjust the relative position between the door body assembly and the wind guiding component.

Preferably, the moving assembly includes the second motor, the second driving gear, for driving the door body assembly One rack and the second rack for driving the wind guiding component；Second motor driving the second driving gear, it is described Second driving gear is engaged with first rack and second rack simultaneously.

Preferably, first rack includes engaging section and the driving portion that is connect with the engaging section, the engaging section with The second driving gear engagement, the driving portion are connect with the door body assembly.

Preferably, the wind guiding component includes air deflector, air guide member and the first idler wheel part；The air guide member is installed on described In air deflector；The first idler wheel part is installed on the air deflector；So that the air deflector is moved by the first idler wheel part It is dynamic.

Preferably, the air deflector includes first crossbeam, second cross beam and two first vertical beams；The first idler wheel part packet The first idler wheel and the first mounting bracket are included, first idler wheel is installed in first mounting bracket；First mounting bracket and institute First crossbeam or the second cross beam is stated to be fixedly connected away from the side of first vertical beam.

Preferably, the air guide member includes several lateral wind guide strips, the first driving motor and for all cross that link To the vertical connecting rod of wind guide strip；The vertical beam of the transverse direction wind guide strip and the air deflector is rotatablely connected；The first driving electricity Machine is flexibly connected by toggle with one end of the vertical beam, so that all transverse direction wind guide strips are with the vertical connecting rod Movement and swing.

Preferably, the rotating direction of the first idler wheel part is vertical with the lateral length direction of wind guide strip.

Preferably, the door body assembly includes door body, the support frame for installing the door body and the second idler wheel part；It is described Door body is installed on the support frame；The second idler wheel part is installed on the support frame, so that the door body is with described The rolling of second wheel part and move.

Preferably, the support frame includes third crossbeam, the 4th crossbeam and two second vertical beams；The second idler wheel part packet The second idler wheel and the second mounting bracket are included, second idler wheel is installed in second mounting bracket；Second mounting bracket and institute Third crossbeam or the 4th crossbeam is stated to be fixedly connected away from the side of perpendicular second straight beam.

Preferably, on the third crossbeam and/or the 4th crossbeam, along the third crossbeam and/or described 4th horizontal The length direction of beam is set side by side with multiple second idler wheel parts.

Preferably, the cabinet air-conditioner further includes holder, and the holder includes for for door body assembly movement One guide rail and the second guide rail moved for the empty wind guiding component；The door body assembly is moved along the extending direction of first guide rail Dynamic, the wind guiding component is moved along the extending direction of second guide rail, so that the door body assembly and the wind guiding component phase To movement.

The present invention drives door body assembly and wind guiding component to rotate by rotary components, to adjust door body assembly and wind guiding component Between relative position, to meet cabinet air-conditioner requirements of one's work；Meanwhile it avoiding occurring during the opening and closing of door body Stuck phenomenon is conducive to the reliable and stable use cabinet air-conditioner of user.

Description of the drawings

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with The structure shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the structural schematic diagram of one embodiment of cabinet air-conditioner of the present invention；

Fig. 2 is the configuration schematic diagram of cabinet air-conditioner upper air duct internal structure of the present invention；

Fig. 3 is the structural schematic diagram of cabinet air-conditioner driving device of the present invention；

Fig. 4 is the partial enlarged view at A in Fig. 3；

Fig. 5 is the configuration schematic diagram of cabinet air-conditioner driving device of the present invention；

Fig. 6 is the structural schematic diagram of the rotary components of cabinet air-conditioner driving device of the present invention；

Fig. 7 is the structural schematic diagram of the moving assembly of cabinet air-conditioner driving device of the present invention；

Fig. 8 is the configuration schematic diagram of the wind guiding component of cabinet air-conditioner of the present invention；

Fig. 9 is the partial enlarged view at B in Fig. 8；

Figure 10 is the structural schematic diagram of the air deflector of the wind guiding component of cabinet air-conditioner of the present invention；

Figure 11 is the configuration schematic diagram of the door body assembly of cabinet air-conditioner of the present invention；

Figure 12 is the structural schematic diagram of another angle of door body assembly of cabinet air-conditioner of the present invention；

Figure 13 is the structural schematic diagram of one embodiment of holder of cabinet air-conditioner of the present invention；

Figure 14 is the structural schematic diagram of another embodiment of holder of cabinet air-conditioner of the present invention；

Figure 15 is the structural schematic diagram of the another embodiment of holder of cabinet air-conditioner of the present invention；

Figure 16 is the structural schematic diagram of the holder another embodiment of cabinet air-conditioner of the present invention；

Figure 17 is the structural schematic diagram of the holder a further embodiment of cabinet air-conditioner of the present invention；

Figure 18 is the structural schematic diagram of the holder of cabinet air-conditioner of the present invention.

Drawing reference numeral explanation：

Label	Title	Label	Title
				100	Shell	110	Air outlet
120	Upper chamber	130	Lower chambers
				140	Air inlet	150	Air duct shell
200	Ventilation case	300	Heat exchanger
				400	Wind guiding component	500	Door body assembly
600	Holder	700	Driving device
				710	Rotary components	711	First motor
712	First driving gear	713	Driven ring gear
				720	Rotating disc	730	Moving assembly
731	Second motor	732	Second driving gear
				733	First rack	7331	Engaging section
7332	Driving portion	734	Second rack
				410	Air deflector	411	First crossbeam
412	Second cross beam	413	First vertical beam
				420	First idler wheel part	421	First mounting bracket
422	First idler wheel	430	First reinforcer
				440	Lateral wind guide strip	450	First driving motor
455	Crank connecting link	460	Vertical connecting rod
				461	Sliding groove	470	Longitudinal wind guide strip
480	Transverse link	490	Second driving motor
				510	Support frame	511	Third crossbeam
512	4th crossbeam	513	Second vertical beam
				520	Second idler wheel part	521	Second mounting bracket
522	Second idler wheel	530	Door body
				540	Second reinforcer	550	Erecting bed
610	First guide rail	620	Second guide rail
				630	Support column	640	Mounting rail

The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.

Specific implementation mode

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiment is only a part of the embodiment of the present invention, instead of all the embodiments.Base Embodiment in the present invention, those of ordinary skill in the art obtained without creative efforts it is all its His 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 is only used in the embodiment of the present invention In explaining relative position relation, motion conditions etc. under a certain particular pose (as shown in the picture) between each component, if should When 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 should not be understood as referring to Show or imply its relative importance or implicitly indicates the quantity of indicated technical characteristic." first ", " are defined as a result, Two " feature can explicitly or implicitly include at least one of the features.In addition, the technical solution between each embodiment can To 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 occurs Conflicting or cannot achieve when, will be understood that the combination of this technical solution is not present, also not the present invention claims protection model Within enclosing.

Referring to Figures 1 and 2, Fig. 1 is the structural schematic diagram of one embodiment of cabinet air-conditioner of the present invention；Fig. 2 is air-conditioning of the present invention Structural schematic diagram inside cabinet-type air conditioner upper air duct.For cabinet air-conditioner by taking axis stream cabinet-type air conditioner as an example, axis stream cabinet-type air conditioner includes guiding subassembly and shell Body 100, the guiding subassembly are installed in the shell 100.The shell 100 is formed with upper chamber 120, lower chambers 130, passes through Wear the upper air duct of the upper chamber 120 and the lower air duct through the lower chambers 130.The guiding subassembly is set to the epicoele Between room 120 and the lower chambers 130, the guiding subassembly includes movable vane, stator blade and ventilation case 200.Ventilation case 200 has It is connected to the diversion air duct of the upper air duct and the lower air duct, the stator blade is installed in the diversion air duct close to the windward The one end in road, the movable vane are installed on one end close to the lower air duct in the diversion air duct.Outdoor wind passes through air inlet 140, into upper air duct, are leading into lower air duct under the driving of movable vane and the wind-guiding effect of stator blade with after the heat exchange of heat exchanger 300 Under the action of wind component 400 region that user specifies is blown to from air outlet 110.Wherein, wind guiding component 400 and door body assembly 500 It is respectively positioned in upper air duct, and on holder 600, under the action of driving device 700, wind guiding component 400 and door body group 500 relative motion of part, and coordinate with air duct shell 150, to be applicable in the various working conditions of cabinet air-conditioner.

The concrete structure of cabinet air-conditioner is described below.

It is the structural schematic diagram of cabinet air-conditioner driving device of the present invention with reference to Fig. 3 to Fig. 6, Fig. 3；Fig. 4 is in Fig. 3 at A Partial enlarged view；Fig. 5 is the configuration schematic diagram of cabinet air-conditioner driving device of the present invention；Fig. 6 drives for cabinet air-conditioner of the present invention The structural schematic diagram of the rotary components of dynamic device.

In embodiments of the present invention, which includes door body assembly 500, wind guiding component 400 and driving device 700； The driving device 700 includes rotary components 710, and the rotary components 710 drive the door body assembly 500 and the wind-guiding group Part 400 rotates, to adjust the relative position between the door body assembly 500 and the wind guiding component 400.

Specifically, in the present embodiment, door body assembly 500 and wind guiding component 400 are installed in the air duct of cabinet air-conditioner, rotation Turn component 710 to drive door body assembly 500, wind guiding component 400 or door body assembly 500 and wind guiding component 400 is driven to rotate simultaneously, To adjust spacing between the two.Certainly, in some embodiments, door body assembly 500 and wind guiding component 400 are arranged at intervals on together On one rotating disc 720, tumbler drives rotating disc 720 to rotate, so that door body assembly 500 and wind guiding component 400 are complete It does not do relative motion at while respective function, to avoid the occurrence of the appearance of stuck phenomenon.In order to reasonably utilize air-conditioning Driving device 700 is set to the bottom of the door body assembly 500 and the wind guiding component 400, the door by cabinet-type air conditioner inner space The door body 530 of body component 500 corresponds to the setting of the air outlet 110.

In the present embodiment, door body assembly 500 and wind guiding component 400 is driven to rotate by rotary components 710, to adjust door body Relative position between component 500 and wind guiding component 400, to meet cabinet air-conditioner requirements of one's work；Meanwhile it avoiding in door body There is stuck phenomenon during 530 opening and closing, is conducive to the reliable and stable use cabinet air-conditioner of user.

Further, Fig. 3 to Fig. 6, the rotary components 710 include that first motor 711, first drives gear 712, driven Ring gear 713 and the rotating disc 720 that installation position is provided for door body assembly 500 and wind guiding component 400；The first motor 711 is driven The dynamic first driving gear 712, the first driving gear 712 and the driven ring gear 713 engagement, the driven ring gear 713 are fixedly connected with the rotating disc 720.

Specifically, in the present embodiment, the drive shaft of first motor 711 and the centre bore of the first driving gear 712 coordinate, the One driving gear 712 is rotated with the rotation of the drive shaft of first motor 711.Driven ring gear 713 is annularly arranged, in ring The teeth portion being adapted to the tooth of the first driving gear 712, the first driving gear 712 are formed on inner wall, outer wall, top or bottom It is engaged with the teeth portion of driven ring gear 713.Driven ring gear 713 drives the rotating disc 720 of connection fixed thereto, rotating disc 720 with The rotation of driven ring gear 713 and rotate.Wind guiding component 400 and door body assembly 500 are arranged on rotating disc 720, wind guiding component 400 The angle at smaller angle is more than 0 ° between door body assembly 500, is less than or equal to 180 °.By taking the angle of the two is 180 ° as an example, That is wind guiding component 400 and door body assembly 500 is oppositely arranged.When opening cabinet air-conditioner, need to open door body 530, while to sending The air-flow for going out cabinet air-conditioner carries out water conservancy diversion, and first motor 711 is by driving gear, driven ring gear 713 and rotating disc 720 at this time, Door body assembly 500 is opened from the position movement of corresponding air outlet 110, while wind guiding component 400 being sent to corresponding with air outlet 110 Position.Certainly, in some embodiments, above-mentioned behaviour can be completed by multiple driving motors and multiple transmission systems Make.

In the present embodiment, by the driving of first motor 711 first driving gear 712, the first driving gear 712 is by driven Ring gear 713 drives rotating disc 720, the position of door body assembly 500 and wind guiding component 400 is adjusted by rotating disc 720, to meet sky Adjust cabinet-type air conditioner requirements of one's work；By the way that door body assembly 500 and the interval of wind guiding component 400 to be arranged, and in door body assembly 500 and lead In 400 course of work of wind component, the two does not do crisscross motion, avoids occurring during the opening and closing of door body 530 stuck Phenomenon is conducive to the reliable and stable use cabinet air-conditioner of user；In addition, passing through a motor, a gear, a ring gear and one The mutual cooperation of a rotating disc 720, while the position of wind guiding component 400 and door body assembly 500 being driven to move, reasonably it is utilized Mutual cooperation relationship between each component so that driving device 700 is reasonable for structure, stable and reliable in work.

Further, with reference to fig. 4 to fig. 6, the tooth of the driven ring gear 713 is arranged on inner ring surface, first driving Gear 712 is engaged with the inner ring surface of the driven ring gear 713；It is described first driving gear 712 axis direction with it is described driven Plane where the rotary motion trace of ring gear 713 is vertical.

Specifically, in the present embodiment, the tooth of driven ring gear 713 is arranged along the internal face of driven ring gear 713, and tooth can be straight Tooth, helical teeth etc..First driving gear 712 is arranged in driven ring gear 713, the first driving 712 external teeth of gear and driven ring gear 713 tooth engagement.In the present embodiment, by being arranged tooth on the internal face of driven ring gear 713 so that the first driving gear 712 and first motor 711 be all disposed in 713 area defined of driven ring gear so that driven ring gear 713, the first sliding tooth The connection of wheel 712 and first motor 711 is compacter, and the space of cabinet air-conditioner is reasonably utilized.

Specifically, in the present embodiment, driven ring gear 713 along fixed pivot axis, what driven ring gear 713 was rotated Track can be the shapes such as circle, ellipse.The pivot center of the pivot center and driven ring gear 713 of first driving gear 712 It is arranged in parallel.The pivot center of first driving gear 712 is vertical with the face where the rotary motion trace of driven ring gear 713.So set Set so that the first driving gear 712 and engaging for driven ring gear 713 is more reliable and more stable so that the first driving gear 712 and from The fit structure of moving teeth ring 713 is compacter.

Certainly, in some embodiments, the tooth of driven ring gear 713 in curved surface can be arranged, gear shaft line direction with Plane out of plumb where the rotary motion trace of the driven ring gear 713, but as long as can realize that the first driving gear drives driven tooth Ring 713 should be construed as being included according to the scheme that desired guiding trajectory rotates in this programme.

Further, it is formed in the interior sidewall surface of the rotating disc 720 and is adapted to the external annulus of the driven ring gear 713 Annular mounting groove, the driven ring gear 713 is installed in the annular mounting groove.

In the present embodiment, on the inner wall of rotating disc 720, corresponding driven ring gear 713 is formed with the mounting groove of cyclic annular setting, when So, mounting groove can be opened on wall surface, can also form mounting groove by some position limiting structures.The notch of mounting groove with it is driven The height of ring gear 713 is suitable so that driven ring gear 713 carries out tight fit with mounting groove.It is arranged such so that driven tooth ring 713 While with mounting groove stable connection, it is also beneficial to the loading of driven ring gear 713.Certainly, in some embodiments, driven ring gear 713 and rotating disc 720 connection, can be attached by buckle, screw, viscose etc..

Further, it is the structural representation of the moving assembly of cabinet air-conditioner driving device of the present invention with reference to Fig. 3 to Fig. 7, Fig. 7 Figure.The driving device 700 further includes moving assembly 730, and the moving assembly 730 is for driving 500 He of the door body assembly The wind guiding component 400 relatively moves.Moving assembly 730 can be multiple motors, multiple gears, lever or rack etc., master Syllabus in the relative motion with driving moving assembly 730 and drive component, i.e., both do close or separate relative motion.

Name one specifically embodiment illustrate.The moving assembly 730 drives including the second motor 731, second Gear 732, the first rack 733 for being fixedly connected with the door body assembly 500 and be used for and the wind guiding component 400 fix Second rack 734 of connection.Second motor 731 drives the second driving gear 732, the second driving gear 732 It is engaged simultaneously with first rack 733 and second rack 734.

Specifically, in the present embodiment, the drive shaft of the second motor 731 and the rotational axis hole of the second driving gear 732 coordinate, Driving the second driving gear 732 rotates.Second driving gear 732 is engaged with the first rack and the second rack simultaneously, with The first rack and the second rack are driven simultaneously, to drive wind guiding component 400 and door body assembly 500 simultaneously.Wherein, the first rack 733 and second rack 734 can be arranged in parallel, can also be in angle be arranged.The connection of first rack 733 and door body assembly 500 Mode has very much, such as buckle, the dismountable connection type of screw.Similarly, the connection of the second rack 734 and wind guiding component 400 Mode has very much, such as buckle, the dismountable connection type of screw.

In the present embodiment, drive gear 732, the first rack 733 and the second rack 734 same by the second motor 731, second When driving wind guiding component 400 and door body assembly 500 so that door body assembly 500 and wind guiding component 400 do relative motion, advantageous While adjusting spacing between door body assembly 500 and wind guiding component 400；Door body assembly is realized using limited parts 500 and wind guiding component 400 relative motion so that moving assembly 730 it is compact-sized, space is reasonably utilized.

Further, with reference to Fig. 7, first rack 733 includes engaging section 7331 and is connect with the engaging section 7331 Driving portion 7332, the engaging section 7331 engage with the second driving gear 732, the driving portion 7332 and the door body Component 500 connects.

Specifically, in the present embodiment, 733 L-shaped setting of the first rack, engaging section 7331 is set with driving portion 7332 in angle It sets, angle is more than 0 °, and is less than 180 °.Certainly, in some embodiments, the engaging section 7331 and the driving portion 7332 It is arranged in a mutually vertical manner.Driving portion 7332 is perpendicular to the plane where the movement locus of engaging section 7331.Similarly, the second rack 734 Also include engaging section 7331 and driving portion 7332.First rack 733 and the setting independently of each other of the second rack 734 so that the two it Between relative position relation there are many kinds of, do not limit herein.

The relative position relation of the first rack 733 and the second rack 734 is introduced with one embodiment below.Described first The engaging section 7331 of rack 733 and second rack 734 is arranged in parallel, first rack 733 and second rack 734 Driving portion 7332 be arranged in parallel.By the way that the engaging section 7331 of the first rack 733 and the second rack 734 to be provided parallel to, make The second driving gear 732 and engaging for two engaging sections 7331 it is more reliable and more stable, be conducive to improve and drive the first rack 733 With the stability of the second rack 734；By the way that the driving portion 7332 of the first rack 733 and the second rack 734 to be provided parallel to, make The relative movement obtained between door body assembly 500 and wind guiding component 400 more stablizes, is smooth.

In the present embodiment, by the way that the first rack 733 to be set as being made of engaging section 7331 and the connection of driving portion 7332, make The movement of the moving direction and driven object that obtain rack can be more diversified, to meet the needs of various movements, so that The applicability of rack is improved so that the applicability of moving assembly 730 is improved.

Further, with reference to Fig. 4, the second driving gear 732, first rack 733 and second rack 734 It is respectively positioned in the rotating disc 720, and is respectively positioned on the inside of the driven ring gear 713.

Specifically, in the present embodiment, the second motor 731, second drives gear 732, the first rack 733 and the second rack 734 are respectively positioned within the scope of 713 area defined of driven ring gear, i.e., also all in rotating disc 720.Second motor 731 and second Drive gear 732 corresponding with the center of rotating disc 720, the drive shaft of the second motor 731 is total with the pivot center of rotating disc 720 Line.

In the present embodiment, by driving gear 732, the first rack 733 and the second rack 734 to be set to rotation by second In disk 720 so that the structure of driving device 700 is compacter, arrangement is more reasonable.

Further, it is the configuration schematic diagram of the wind guiding component of cabinet air-conditioner of the present invention with reference to Fig. 8 to Figure 10, Fig. 8； Fig. 9 is the partial enlarged view at B in Fig. 8；Figure 10 is the structural schematic diagram of the air deflector of the wind guiding component of cabinet air-conditioner of the present invention.

The wind guiding component 400 includes air deflector 410, air guide member and the first idler wheel part 420；The air guide member is installed on institute It states in air deflector 410；The first idler wheel part 420 is installed on the air deflector 410；So that the air deflector 410 passes through institute State the movement of the first idler wheel part 420.

Specifically, in the present embodiment, for by the wind guiding component 400 in cabinet air-conditioner.Air deflector 410 is rectangle Frame, the length direction of air deflector 410 is identical as the short transverse of cabinet air-conditioner, and the is equipped in the framework of 410 one end of air deflector One idler wheel part 420, the first idler wheel part 420 has the first idler wheel 422 that can be rolled, so that air deflector 410 is with the first idler wheel The rolling of part 420 and move.Certainly, in some embodiments, the first idler wheel part 420 can also be other portions that can be rolled Part.Pass through the setting of the first idler wheel part 420 so that the movement of air deflector 410 is very flexible.Air guide member is used to guide the stream of wind To air guide member is mounted in air deflector 410, is rotatablely connected with air deflector 410.

In the present embodiment, by the setting of the first idler wheel part 420, the flexibility of the movement of air deflector 410 is improved so that lead Wind frame 410 is very flexible relative to the movement of door body 530, so that the spacing adjustment between air deflector 410 and door body 530 is non- It is often convenient, it avoids door body 530 and is occurred by the stuck phenomenon of wind guiding component 400 during opening and closing, be conducive to user More reliable and more stable uses cabinet air-conditioner.

Further, with reference to Fig. 8 to Figure 10, the air deflector 410 includes first crossbeam 411, second cross beam 412 and two the One vertical beam 413；The first idler wheel part 420 includes the first idler wheel 422 and the first mounting bracket 421, and first idler wheel 422 is pacified Loaded in first mounting bracket 421.The first idler wheel part is provided on the first crossbeam 411 and/or the second cross beam 412 420.First mounting bracket 421 deviates from first vertical beam 413 with the first crossbeam 411 or the second cross beam 412 Side be fixedly connected.

Specifically, in the present embodiment, first mounting bracket 421 includes interconnecting piece and the installation being connect with the interconnecting piece Portion.The interconnecting piece is solid away from the side of first vertical beam 413 with the first crossbeam 411 or the second cross beam 412 Fixed connection.The mounting portion has the installation position for the first idler wheel part 420 installation.Mounting portion is arranged in strip row, and two the One idler wheel, 422 installation position is arranged along the length direction of mounting portion so that the direction one that two first idler wheels 422 after installation roll It causes.Interconnecting piece is linking arm, and one end of linking arm is connect with mounting portion away from the side of installation position, the other end and first crossbeam 411 or second cross beam 412 connect.Certainly, in some embodiments, interconnecting piece may be the notch being opened on mounting portion, First crossbeam 411 or second cross beam 412 are caught in the notch, to realize mounting portion and first crossbeam 411 or second cross beam 412 Connection.Certainly, in some embodiments, the first idler wheel part 420 is may be provided on first crossbeam 411 and second cross beam 412.

In the present embodiment, by the way that the first mounting bracket 421 is deviated from the first crossbeam 411 or the second cross beam 412 The side of first vertical beam 413 is fixedly connected so that the first idler wheel 422 being set on the first mounting bracket 421 can be certainly By rolling, to be conducive to moving freely for air deflector 410, be conducive to adjust the distance between air deflector 410 and door body 530.

Further, with reference to Fig. 8 to Figure 10, on the first crossbeam 411 and/or the second cross beam 412, along described the The length direction of one crossbeam 411 and/or the second cross beam 412 is set side by side with multiple first idler wheel parts 420.

In the present embodiment, 410 component of air deflector includes multiple first idler wheel parts 420, in some embodiments, first crossbeam Multiple first idler wheel parts 420 are set side by side on 411, the length direction of the mounting portion of multiple first idler wheel parts 420 is identical；One In a little embodiments, multiple first idler wheel parts 420, the mounting portion of multiple first idler wheel parts 420 are set side by side on second cross beam 412 Length direction it is identical；In some embodiments, multiple are set side by side on first crossbeam 411 and second cross beam 412 The length direction of one idler wheel part 420, the mounting portion of multiple first idler wheel parts 420 is identical.

Certainly, in some embodiments, on the first crossbeam 411 and/or the second cross beam 412 described in adjacent two The first reinforcer 430 is provided between first mounting bracket 421.Added by the way that first is arranged between the first adjacent mounting bracket 421 Strong part 430 so that the connection between two first adjacent mounting brackets 421 is more reliable and more stable so that between wind guiding component 400 Connection is more reliable and more stable.

In the present embodiment, by being set up in parallel multiple first idler wheel parts on first crossbeam 411 and/or second cross beam 412 420 so that air deflector 410 obtains multi-point support and multiple rollings point, increases the stability of the setting of wind guiding component 400 so that The stability that air deflector 410 rolls is effectively improved.

Further, with reference to Fig. 8 to Figure 10, the air guide member includes several lateral wind guide strips 440, the first driving motor 450 and for all lateral wind guide strips 440 that link vertical connecting rod 460；The transverse direction wind guide strip 440 and the air deflector 410 the first vertical beam 413 rotation connection；First driving motor 450 is perpendicular with described first by 455 mechanism of crank connecting link One end of straight beam 413 is flexibly connected, so that all transverse direction wind guide strips 440 are swung with the movement of the vertical connecting rod 460.

Specifically, in the present embodiment, several transverse direction wind guide strips 440 are arranged in parallel, and the both ends of lateral wind guide strip 440 are respectively provided with There is a rotation axis, two first vertical beams 413 are towards the rotation axis installation being correspondingly arranged on the side wall in frame for lateral wind guide strip 440 Rotation hole.The rotation axis at 440 both ends of lateral wind guide strip is separately positioned in the rotation hole of two first vertical beams 413, if so that Dry transverse direction wind guide strip 440 can be dynamic for shaft rotation by respective rotation axis.440 arc-shaped setting of lateral wind guide strip, in wind-guiding It is provided with the shaft being rotatablely connected with vertical connecting rod 460 in the middle part of the recess side of item, on vertical connecting rod 460, corresponding shaft opens up Fluted, shaft is arranged in groove so that lateral wind guide strip 440 is moved up and down and swung with vertical connecting rod 460.

It is formed with the sliding groove 461 perpendicular to length of connecting rod direction in one end of vertical connecting rod 460.Crank mechanism includes base One end of body and sliding bar, sliding bar is arranged perpendicular to matrix.Matrix deviates from the side of sliding bar, offers for the first driving electricity The mounting hole of the rotation axis installation of machine 450, the axis and connecting rod of mounting hole be not conllinear.When the first driving motor 450 drives matrix When rotation, connecting rod and the first driving motor 450 do centrifugation rotation, and the one end of first connecting rod far from matrix is moved in sliding groove 461 It is dynamic, and vertical connecting rod 460 is driven to move up and down, so that synchronous with several lateral wind guide strips 440 that vertical connecting rod 460 connects It swings.

In some embodiments, the length side of the rotating direction of the first idler wheel part 420 and the lateral wind guide strip 440 To vertical.I.e. when lateral wind guide strip 440 is horizontally disposed with, the moving direction of air deflector 410 is identical as air-out direction, is led when laterally When wind item 440 is swung, air-out direction and moving direction setting at an acute angle.It is arranged such so that wind-guiding position is with the first idler wheel The movement of part 420 and change, you can to adjust air-supply region by the position for adjusting wind guiding component 400.

In the present embodiment, pass through the setting of crank connecting link 455 mechanism and sliding groove 461 so that vertical connecting rod 460 is second Moved up and down under the driving of driving motor 490, so as to by while drive several lateral wind guide strips 440 to swing so that The lateral wind-guiding of wind guiding component 400 is uniform.

Further, the air guide member includes several longitudinal wind guide strip 470, the second driving motors 490 and for linking There is the transverse link 480 of longitudinal wind guide strip 470.The both ends of the longitudinal direction wind guide strip 470 respectively with the air deflector 410 Crossbeam is rotatablely connected.The drive shaft of second driving motor 490 is connect with one end of wherein one longitudinal wind guide strip 470, is driven Described wherein one longitudinal wind guide strip 470 is swung, so that described wherein one longitudinal wind guide strip 470 passes through 480 band of the transverse link Dynamic all longitudinal wind guide strips 470.

Specifically, in the present embodiment, several longitudinal direction wind guide strips 470 are arranged in parallel, and the both ends of longitudinal wind guide strip 470 are respectively provided with There are rotation axis, first crossbeam 411 and second cross beam 412 towards being correspondingly arranged on for longitudinal wind guide strip 470 on the side wall in frame The rotation hole of rotation axis installation.The rotation axis at 470 both ends of longitudinal wind guide strip is separately positioned on first crossbeam 411 or second cross beam In 412 rotation hole, so that several longitudinal direction wind guide strips 470 can be dynamic by shaft rotation of respective rotation axis.Longitudinal wind guide strip 470 It is arranged in vertical plate, the shaft being rotatablely connected with transverse link 480 is provided in one end of the side of longitudinal wind guide strip 470, it is horizontal To on connecting rod 480, corresponding shaft opens up fluted, and shaft is arranged in groove so that longitudinal wind guide strip 470 is with transverse link 480 move left and right and swing.The shaft of second driving motor 490 is connect with the shaft of arbitrary longitudinal wind guide strip 470, when second When driving motor 490 works, the longitudinal wind guide strip 470 being connect with the second driving motor 490 rotates, and passes through transverse link 480 Effect drives 470 synchronous hunting of other longitudinal wind guide strips.

In some embodiments, the length side of the rotating direction of the first idler wheel part 420 and longitudinal wind guide strip 470 To vertical.I.e. when longitudinal wind guide strip 470 is vertically arranged, the moving direction of air deflector 410 is identical as air-out direction, is led when longitudinally When wind item 470 is swung, air-out direction and moving direction setting at an acute angle.It is arranged such so that wind-guiding position is with the first idler wheel The movement of part 420 and change, you can to adjust air-supply region by the position for adjusting wind guiding component 400.Certainly, in some realities It applies in example, the rotating direction and crossbeam and the first vertical beam 413 of idler wheel part are vertical simultaneously.

In the present embodiment, the setting of the second driving motor 490 and transverse link 480 so that transverse link 480 drives second The driving of dynamic motor 490 moves left and right, so as to by while drive several longitudinal wind guide strips 470 to swing so that wind-guiding The vertical wind-guiding of component 400 is uniform.

Further, 1 and Figure 12, Figure 11 are the detonation configuration signal of the door body assembly of cabinet air-conditioner of the present invention referring to Fig.1 Figure；Figure 12 is the structural schematic diagram of another angle of door body assembly of cabinet air-conditioner of the present invention.

The door body assembly 500 includes door body 530, the support frame 510 for installing the door body 530 and the second idler wheel part 520；The door body 530 is installed on the support frame 510；The second idler wheel part 520 is installed on the support frame 510, So that the door body 530 is moved with the rolling of the second idler wheel part 520.

Specifically, in the present embodiment, for by the door body assembly 500 in cabinet air-conditioner.Support frame 510 is rectangle Frame, the length direction of support frame 510 is identical as the short transverse of cabinet air-conditioner, and the is equipped in the framework of 510 one end of support frame Second wheel part 520, the second idler wheel part 520 has the second idler wheel 522 that can be rolled, so that outlet frame is with the second idler wheel part 520 rolling and move.Certainly, in some embodiments, the second idler wheel part 520 can also be other components that can be rolled. Pass through the setting of the second idler wheel part 520 so that the movement of outlet frame is very flexible.530 arc-shaped setting of door body, door body 530 are recessed Sunken plate face is detachably connected with support frame 510.

In the present embodiment, by the setting of the second idler wheel part 520, the flexibility of the movement of support frame 510 is improved so that branch It is very flexible relative to the movement of wind guiding component 400 to support wind frame, so that between 510 frame of support frame and wind guiding component 400 Spacing adjustment is very convenient, avoids door body 530 and is occurred by the stuck phenomenon of wind guiding component 400 during opening and closing, Be conducive to the more reliable and more stable use cabinet air-conditioner of user.

Further, 1 and Figure 12, the support frame 510 include third crossbeam 511, the 4th crossbeam 512 and two referring to Fig.1 Second vertical beam 513；The second idler wheel part 520 includes the second idler wheel 522 and the second mounting bracket 521, second idler wheel 522 It is installed in second mounting bracket 521；Second mounting bracket 521 and the third crossbeam 511 or the 4th crossbeam 512 It is fixedly connected away from the side of second vertical beam 513.

Specifically, in the present embodiment, second mounting bracket 521 includes interconnecting piece and the installation being connect with the interconnecting piece Portion.The interconnecting piece is solid away from the side of second vertical beam 513 with the third crossbeam 511 or the 4th crossbeam 512 Fixed connection.The mounting portion has the installation position for the second idler wheel part 520 installation.Mounting portion is arranged in strip row, and two the 522 installation position of second wheel is arranged along the length direction of mounting portion so that the direction one that two second idler wheels 522 after installation roll It causes.Interconnecting piece is linking arm, and one end of linking arm is connect with mounting portion away from the side of installation position, the other end and third crossbeam 511 or the 4th crossbeam 512 connect.Certainly, in some embodiments, interconnecting piece may be the notch being opened on mounting portion, Third crossbeam 511 or the 4th crossbeam 512 are caught in the notch, to realize mounting portion and third crossbeam 511 or the 4th crossbeam 512 Connection.Certainly, in some embodiments, it may be provided with the second idler wheel part 520 on third crossbeam 511 and the 4th crossbeam 512.

In the present embodiment, by the way that the second mounting bracket 521 and the third crossbeam 511 or the 4th crossbeam 512 are deviated from The side of second vertical beam 513 is fixedly connected so that the second idler wheel 522 being set on the second mounting bracket 521 can be certainly By rolling, to be conducive to moving freely for support frame 510, be conducive to adjust between support frame 510 and wind guiding component 400 away from From.

Further, 1 and Figure 12 referring to Fig.1, on the third crossbeam 511 and/or the 4th crossbeam 512, along described The length direction of crossbeam is set side by side with multiple second idler wheel parts 520.

In the present embodiment, 530 frame component of door body includes multiple second idler wheel parts 520, in some embodiments, third crossbeam Multiple second idler wheel parts 520 are set side by side on 511, the length direction of the mounting portion of multiple second idler wheel parts 520 is identical；One In a little embodiments, multiple second idler wheel parts 520, the mounting portion of multiple second idler wheel parts 520 are set side by side on the 4th crossbeam 512 Length direction it is identical；In some embodiments, multiple are set side by side on third crossbeam 511 and the 4th crossbeam 512 The length direction of second wheel part 520, the mounting portion of multiple second idler wheel parts 520 is identical.

Certainly, in some embodiments, on the third crossbeam 511 and/or the 4th crossbeam 512 described in adjacent two The second reinforcer 540 is provided between second mounting bracket 521.Added by the way that second is arranged between the second adjacent mounting bracket 521 Strong part 540 so that the connection between two second adjacent mounting brackets 521 is more reliable and more stable so that between door body assembly 500 Connection is more reliable and more stable.

In the present embodiment, by being set up in parallel multiple second idler wheel parts on third crossbeam 511 and/or the 4th crossbeam 512 520 so that support frame 510 obtains multi-point support and multiple rollings point, increases the stability of the setting of door body assembly 500 so that The stability that support frame 510 rolls is effectively improved.

Further, the support frame 510 includes from the support frame 510 to the outside projection in 510 side of the support frame Erecting bed 550, a plate face of the door body 530 is fixedly connected with the erecting bed 550.

Specifically, in the present embodiment, erecting bed 550 includes supporting table and linking arm, one end and the third crossbeam of linking arm 511, the 4th crossbeam 512 or the connection of the second vertical beam 513, the other end are connect with supporting table.Door body 530 passes through with erecting bed 550 The removablies such as buckle, screw connect.Certainly, in order to keep erecting bed 550 and the connection of support frame 510 more reliable and more stable, The quantity of linking arm can be multiple, be connect respectively with third crossbeam 511, the 4th crossbeam 512 or the second vertical beam 513.

In the present embodiment, pass through the setting of erecting bed 550 so that the installation site of door body 530 is more flexible, with support frame 510 connection is more reliable and more stable, is conducive to improve the stability that door body assembly 500 connects.

Further, the rotating direction of the second idler wheel part 520 and the horizontal third crossbeam 511 and the 4th crossbeam 512 length direction is vertical.The rotating direction of the second idler wheel part 520 hangs down with the length direction of second vertical beam 513 Directly.

Specifically, in the present embodiment, third crossbeam 511, the 4th crossbeam 512 and two second vertical beams 513 surround one The moving direction of rectangular area, the second idler wheel part 520 is vertical with the rectangular area.Wherein, door body 530 is mounted on the rectangular area It is interior so that the moving direction of door body 530 is vertical with the rectangular area.Certainly, in some embodiments, the second idler wheel part 520 Moving direction can be only perpendicular to the second vertical beam 513, can also be only perpendicular to third crossbeam 511 and the 4th crossbeam 512.For The moving direction of some more common situations, the second idler wheel part 520 is arranged with rectangular area in angle.

In the present embodiment, by by the moving direction of the second idler wheel part 520 and third crossbeam 511 and the 4th crossbeam 512, the Two vertical beams 513 or rectangular area are vertical so that and door body 530 fixes the movement of track under the action of the second idler wheel part 520, So that the movement of door body 530 be more prone to realize and it is convenient so that door body assembly 500 movement it is more reliable and more stable.

Further, referring to Fig.1 3 to Figure 18, Figure 13 are the structural representation of one embodiment of holder of cabinet air-conditioner of the present invention Figure；Figure 14 is the structural schematic diagram of another embodiment of holder of cabinet air-conditioner of the present invention；Figure 15 is the branch of cabinet air-conditioner of the present invention The structural schematic diagram of the another embodiment of frame；Figure 16 is the structural schematic diagram of the holder another embodiment of cabinet air-conditioner of the present invention；Figure 17 be the structural schematic diagram of the holder a further embodiment of cabinet air-conditioner of the present invention；Figure 18 is the knot of the holder of cabinet air-conditioner of the present invention Structure schematic diagram.

The cabinet air-conditioner further includes holder 600, and the holder 600 includes for being moved for the door body assembly 500 First guide rail 610 and the second guide rail 620 moved for the empty wind guiding component 400；The door body assembly 500 is led along described first The extending direction of rail 610 moves, and the wind guiding component 400 is moved along the extending direction of second guide rail 620, so that the door Body component 500 and the wind guiding component 400 relatively move.

Specifically, in the present embodiment, the first guide rail 610 and the elongated setting of the second guide rail 620, door body assembly 500 It is slidably connected with the first guide rail 610, wind guiding component 400 is slidably connected with the second guide rail 620.First guide rail 610 can be with second Guide rail 620 is arranged in parallel, and can also be arranged in angle with the second guide rail 620；First guide rail 610 and the second guide rail 620 can positions In in the same face, can also be located in different faces.Certainly, in some embodiments, in order to meet design or actual needs, Also the first guide rail 610 and the second guide rail 620 will can be set to arc-shaped guide rail.

In the present embodiment, door body assembly 500 is slided along the first guide rail 610, and wind guiding component 400 is slided along the second guide rail 620, So that the movement of door body assembly 500 and wind guiding component 400 is more flexible, movement locus is more stablized, so as to avoid in door body There is stuck phenomenon during 530 opening and closing.

Referring to Fig.1 1 to Figure 18, it, can be with about the quantity and relative position relation of the first guide rail 610 and the second guide rail 620 It realizes that the mode of door body assembly 500 and 400 relative motion of wind guiding component has very much, several specific forms is described below.Door body Component 500 and wind guiding component 400 angled can also be relatively moved towards or away from movement.

When first guide rail 610 and second guide rail 620 are arranged in parallel, door body assembly 500 and wind guiding component 400 It moves towards, or is moved away under the action of driving device 700.The holder 600 further includes support column 630 and mounting rail 640, one end of the support column 630 and the rotating disc 720 of cabinet air-conditioner connect, and the mounting rail 640 is provided on the other end. At this time parallel includes that the first guide rail 610 and the second guide rail 620 are all disposed on rotating disc 720, is also set including the first guide rail 610 It sets on rotating disc 720, the second guide rail 620 is arranged on the mounting rail 640 above rotating disc 720.Certainly, in some embodiments In, first guide rail 610 and second guide rail 620 can also be located along the same line.

When the quantity of first guide rail 610 is two, and the quantity of second guide rail 620 is two, two described the One guide rail 610 is arranged in parallel, and two second guide rails 620 are arranged in parallel.At this time the top and bottom of door body assembly 500 respectively with Two the first guide rail 610 connections, the top and bottom of wind guiding component 400 are connect with two the second guide rails 620 respectively.Make wind-guiding The installation and movement of component 400 and door body assembly 500 are more stablized.At this point, the both ends of the mounting rail 640 are respectively arranged with One guide rail 610 and the second guide rail 620, i.e. door body assembly 500 are arranged between two first guide rails 610, and the setting of wind guiding component 400 exists Between two second guide rails 620.

When the quantity of first guide rail 610 is four, four first guide rails 610 are arranged in parallel, and its In two first guide rails 610 be arranged on the mounting rail 640, two first guide rails 610 are arranged in the rotation On disk 720.The quantity of second guide rail 620 is four, and four second guide rails 620 are arranged in parallel, and wherein two Second guide rail 620 described in item is arranged on the mounting rail 640, and two second guide rails 620 are arranged in the rotating disc 720 On.Certainly, in some embodiments, the first guide rail 610 is corresponding is located along the same line with the second guide rail 620, to form one Root long rail.By the way that four the first guide rails 610 being mutually parallel and four the second guide rails 620 being mutually parallel are arranged so that door body The installation and movement of component 500 and wind guiding component 400 are more reliable and more stable, are conducive to improve door body assembly 500 and wind guiding component The stability of 400 work.

The foregoing is merely the preferred embodiment of the present invention, are not intended to limit the scope of the invention, every at this Under the inventive concept of invention, using equivalent structure transformation made by description of the invention and accompanying drawing content, or directly/use indirectly In the scope of patent protection that other related technical areas are included in the present invention.

Claims (14)

1. a kind of cabinet air-conditioner, which is characterized in that including door body assembly, wind guiding component and driving device；The driving device packet Rotary components are included, the rotary components drive the door body assembly and wind guiding component rotation, to adjust the door body assembly Relative position between the wind guiding component；

The rotary components include first motor, the first driving gear, driven ring gear and are carried for door body assembly and wind guiding component For the rotating disc of installation position；First motor driving the first driving gear, the first driving gear and described driven Ring gear engages, and the driven ring gear is fixedly connected with the rotating disc.

2. cabinet air-conditioner as described in claim 1, which is characterized in that the driving device be set to the door body assembly and The door body of the bottom of the wind guiding component, the door body assembly corresponds to the air outlet setting of cabinet air-conditioner.

3. cabinet air-conditioner as described in claim 1, which is characterized in that the tooth of the driven ring gear is arranged on inner ring surface, institute The first driving gear is stated to engage with the inner ring surface of the driven ring gear；It is described first driving gear axis direction with it is described driven Plane where the rotary motion trace of ring gear is vertical.

4. cabinet air-conditioner as described in claim 1, which is characterized in that the driving device includes moving assembly, the movement Door body assembly described in Component driver and wind guiding component relative movement, with adjust the door body assembly and the wind guiding component it Between relative position.

5. cabinet air-conditioner as claimed in claim 4, which is characterized in that the moving assembly includes the second motor, the second driving Gear, the first rack for driving the door body assembly and the second rack for driving the wind guiding component；Described second Motor driving the second driving gear, the second driving gear are nibbled with first rack and second rack simultaneously It closes.

6. cabinet air-conditioner as claimed in claim 5, which is characterized in that first rack includes engaging section and engaged with described The driving portion of portion's connection, the engaging section are engaged with the second driving gear, and the driving portion is connect with the door body assembly.

7. cabinet air-conditioner as described in claim 1, which is characterized in that the wind guiding component includes air deflector, air guide member and One idler wheel part；The air guide member is installed in the air deflector；The first idler wheel part is installed on the air deflector；So that institute Air deflector is stated to move by the first idler wheel part.

8. cabinet air-conditioner as claimed in claim 7, which is characterized in that the air deflector include first crossbeam, second cross beam and Two first vertical beams；The first idler wheel part includes the first idler wheel and the first mounting bracket, and first idler wheel is installed on described the In one mounting bracket；First mounting bracket deviates from the side of first vertical beam with the first crossbeam or the second cross beam It is fixedly connected.

9. cabinet air-conditioner as claimed in claim 7, which is characterized in that the air guide member includes several lateral wind guide strips, and first Driving motor and vertical connecting rod for all lateral wind guide strips that link；The transverse direction wind guide strip is perpendicular with the air deflector Straight beam is rotatablely connected；First driving motor is flexibly connected by toggle with one end of the vertical beam, so that All transverse direction wind guide strips are swung with the movement of the vertical connecting rod.

10. cabinet air-conditioner as claimed in claim 9, which is characterized in that the rotating direction of the first idler wheel part and the cross Length direction to wind guide strip is vertical.

11. cabinet air-conditioner as described in claim 1, which is characterized in that the door body assembly includes door body, described for installing The support frame of door body and the second idler wheel part；The door body is installed on the support frame；The second idler wheel part is installed on described On support frame, so that the door body is moved with the rolling of the second idler wheel part.

12. cabinet air-conditioner as claimed in claim 11, which is characterized in that the support frame includes third crossbeam, the 4th crossbeam With two second vertical beams；The second idler wheel part includes the second idler wheel and the second mounting bracket, and second idler wheel is installed on described In second mounting bracket；Second mounting bracket deviates from the one of second vertical beam with the third crossbeam or the 4th crossbeam Side is fixedly connected.

13. cabinet air-conditioner as claimed in claim 12, which is characterized in that on the third crossbeam and/or the 4th crossbeam, Length direction along the third crossbeam and/or the 4th crossbeam is set side by side with multiple second idler wheel parts.

14. the cabinet air-conditioner as described in any one of claim 1 to 13, which is characterized in that the cabinet air-conditioner further includes Holder, the holder include for the first guide rail of confession door body assembly movement and for the second of the empty wind guiding component movement Guide rail；The door body assembly is moved along the extending direction of first guide rail, and the wind guiding component prolongs along second guide rail Direction movement is stretched, so that the door body assembly and wind guiding component relative movement.