CN105674411A - Cabinet air conditioner - Google Patents

Abstract

The invention discloses a cabinet air conditioner. The cabinet air conditioner comprises a door body assembly, an air guide assembly and a drive device, wherein the drive device comprises a rotating assembly, and the rotating assembly drives the door body assembly and the air guide assembly to rotate so as to adjust relative positions of the door body assembly and the air guide assembly. The rotating assembly drives the door body assembly and the air guide assembly to rotate so as to adjust the relative positions of the door body assembly and the air guide assembly and to meet the working requirement of the cabinet air conditioner; and meanwhile, the clamping phenomenon of a door body during opening and closing processes is avoided, so that the cabinet air conditioner can be stably and reliably used by a user.

Description

Cabinet air-conditioner

Technical field

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

Background technology

Owing to the internal space of cabinet air-conditioner housing is limited, distance adjustment underaction between the door body of traditional cabinet air-conditioner and wind guiding component, make a body in the process opened and closed, often occur the phenomenons such as stuck being unfavorable for the using air-condition cabinet-type air conditioner that user is reliable and stable.

Summary of the invention

The main purpose of the present invention is to provide a kind of cabinet air-conditioner, it is intended to increase the handiness of the adjustment of the spacing between door body and air-condition assembly, to improve the stability that cabinet air-conditioner runs.

For achieving the above object, the cabinet air-conditioner that the present invention proposes, comprises a body assembly, wind guiding component and drive unit; Described drive unit comprises rotary components, and described rotary components drives described door body assembly and described wind guiding component to rotate, with the relative position adjusted between described door body assembly and described wind guiding component.

Preferably, described drive unit is arranged at the bottom of described door body assembly and described wind guiding component, and the air port that goes out of the corresponding cabinet air-conditioner of the door body of described door body assembly is arranged.

Preferably, described rotary components comprises the first motor, the first driving gear, driven ring gear and is the rotation dish of door body assembly and wind guiding component offer installation position; Described first motor drives described first driving gear, and described first driving gear and the engagement of described driven ring gear, described driven ring gear is fixedly connected with described rotation dish.

Preferably, the tooth of described driven ring gear is arranged on inner ring surface, and described first driving gear engages with the inner ring surface of described driven ring gear; The plane orthogonal at the axis direction of described first driving gear and the rotary motion trace place of described driven ring gear.

Preferably, described drive unit comprises moving assembly, and described moving assembly drives described door body assembly and described wind guiding component relative movement, with the relative position adjusted between described door body assembly and described wind guiding component.

Preferably, described moving assembly comprise the 2nd motor, the 2nd driving gear, for driving the first tooth bar of described door body assembly and the 2nd tooth bar for driving described wind guiding component; Described 2nd motor drives described 2nd driving gear, and described 2nd driving gear engages with described first tooth bar and described 2nd tooth bar simultaneously.

Preferably, the driving part that described first tooth bar comprises engagement portion and is connected with described engagement portion, described engagement portion engages with described 2nd driving gear, and described driving part is connected with described door body assembly.

Preferably, described wind guiding component comprises and leads wind frame, air guide member and the first roller part; Described air guide member is led in wind frame described in being installed on; Described first roller part is led on wind frame described in being installed on; So that described in lead wind frame and moved by described first roller part.

Preferably, lead wind frame described in and comprise first crossbeam, second cross beam and two first vertical beams; Described first roller part comprises the first roller and the first erecting frame, and described first roller is installed in described first erecting frame; The side that described first erecting frame deviates from described first vertical beam with described first crossbeam or described second cross beam is fixedly connected with.

Preferably, described air guide member comprises some horizontal air-guiding strips, the first drive-motor and the vertical connecting rod for all described horizontal air-guiding strips that links; Described horizontal air-guiding strip and the described vertical beam leading wind frame are rotationally connected; Described first drive-motor is flexibly connected by one end of toggle with described vertical beam, so that all horizontal air-guiding strips swing with the movement of described vertical connecting rod.

Preferably, the rotating direction of described first roller part is vertical with the length direction of described horizontal air-guiding strip.

Preferably, described door body assembly comprise a body, for installing support frame and a second wheel part of described door body; Described door body is installed in a described support frame; Described second wheel part is installed in a described support frame, so that described door body is mobile with the rolling of described second wheel part.

Preferably, described support frame comprises the 3rd crossbeam, the 4th crossbeam and two the 2nd vertical beams; Described second wheel part comprises second wheel and the 2nd erecting frame, and described second wheel is installed in described 2nd erecting frame; The side that described 2nd erecting frame deviates from described perpendicular 2nd straight beam with described 3rd crossbeam or described 4th crossbeam is fixedly connected with.

Preferably, on described 3rd crossbeam and/or described 4th crossbeam, it is set side by side with multiple second wheel part along the length direction of described 3rd crossbeam and/or described 4th crossbeam.

Preferably, described cabinet air-conditioner also comprises support, the 2nd guide rail that described support comprises the first guide rail for moving for described door body assembly and moves for empty described wind guiding component; Described door body assembly moves along the bearing of trend of described first guide rail, and described wind guiding component moves along the bearing of trend of described 2nd guide rail, so that described door body assembly and described wind guiding component relative movement.

The present invention drives door body assembly and wind guiding component to rotate by rotary components, to adjust the relative position between body assembly and wind guiding component, to meet the needs of cabinet air-conditioner work; Meanwhile, avoid in the opening and closing process of door body, stuck phenomenon occurring, the using air-condition cabinet-type air conditioner being conducive to user reliable and stable.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, it is briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, it is also possible to the structure according to these accompanying drawings obtains other accompanying drawing.

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

Fig. 2 is the blast structural representation of cabinet air-conditioner upper air duct internal structure of the present invention;

Fig. 3 is the structural representation of cabinet air-conditioner drive unit of the present invention;

Fig. 4 is the partial enlargement figure at A place in Fig. 3;

Fig. 5 is the blast structural representation of cabinet air-conditioner drive unit of the present invention;

Fig. 6 is the structural representation of the rotary components of cabinet air-conditioner drive unit of the present invention;

Fig. 7 is the structural representation of the moving assembly of cabinet air-conditioner drive unit of the present invention;

Fig. 8 is the blast structural representation of the wind guiding component of cabinet air-conditioner of the present invention;

Fig. 9 is the partial enlargement figure at B place in Fig. 8;

Figure 10 is the structural representation leading wind frame of the wind guiding component of cabinet air-conditioner of the present invention;

Figure 11 is the blast structural representation of the door body assembly of cabinet air-conditioner of the present invention;

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

Figure 13 is the structural representation of support one embodiment of cabinet air-conditioner of the present invention;

Figure 14 is the structural representation of another embodiment of support of cabinet air-conditioner of the present invention;

Figure 15 is the structural representation of the support embodiment again of cabinet air-conditioner of the present invention;

Figure 16 is the structural representation of the support another embodiment of cabinet air-conditioner of the present invention;

Figure 17 is the structural representation of the support also embodiment of cabinet air-conditioner of the present invention;

Figure 18 is the structural representation of the support of cabinet air-conditioner of the present invention.

Drawing reference numeral illustrates:

Label	Title	Label	Title
				100	Housing	110	Go out air port
120	Upper chamber	130	Lower chambers
				140	Blast inlet	150	Air channel shell
200	Ventilation case	300	Interchanger
				400	Wind guiding component	500	Door body assembly
600	Support	700	Drive unit
				710	Rotary components	711	First motor
712	First driving gear	713	Driven ring gear
				720	Rotation dish	730	Moving assembly
731	2nd motor	732	2nd driving gear
				733	First tooth bar	7331	Engagement portion
7332	Driving part	734	2nd tooth bar
				410	Lead wind frame	411	First crossbeam
412	Second cross beam	413	First vertical beam
				420	First roller part	421	First erecting frame
422	First roller	430	First stiffener
				440	Horizontal air-guiding strip	450	First drive-motor
455	Crank connecting rod	460	Vertical connecting rod
				461	Chute	470	Longitudinal air-guiding strip
480	Horizontal connecting rod	490	2nd drive-motor
				510	Prop up support frame	511	3rd crossbeam
512	4th crossbeam	513	2nd vertical beam
				520	Second wheel part	521	2nd erecting frame
522	Second wheel	530	Men Ti
				540	2nd stiffener	550	Platform is installed
610	First guide rail	620	2nd guide rail
				630	Pillar stiffener	640	Beam is installed

The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, instead of whole embodiments. Based on the embodiment in the present invention, those of ordinary skill in the art, not making other embodiments all obtained under creative work prerequisite, belong to the scope of protection of the invention.

Need explanation, all directivity instruction (such as up, down, left, right, before and after in the embodiment of the present invention ...) only for explaining relative position relation between each parts, motion conditions etc. under a certain particular pose (as shown in drawings), if when this particular pose changes, then directionality instruction also correspondingly changes thereupon.

In addition, the description relating to " first ", " the 2nd " etc. in the present invention is only for describing object, and can not be interpreted as instruction or imply its relative importance or the implicit quantity indicating indicated technology feature. Thus, be limited with " first ", the feature of " the 2nd " can express or implicit comprise at least one this feature. In addition; technical scheme between each embodiment can be combined with each other; but must be can be embodied as basis with those of ordinary skill in the art; when technical scheme combination occur conflicting maybe cannot realize time will be understood that the combination of this kind of technical scheme does not exist, also not the present invention require protection domain within.

With reference to the structural representation that Fig. 1 and Fig. 2, Fig. 1 are cabinet air-conditioner one embodiment of the present invention; Fig. 2 is the structural representation of cabinet air-conditioner upper air duct inside of the present invention. Cabinet air-conditioner is for axial flow cabinet-type air conditioner, and axial flow cabinet-type air conditioner comprises water conservancy diversion assembly and housing 100, and described water conservancy diversion assembly is installed in described housing 100. Described housing 100 is formed with upper chamber 120, lower chambers 130, the upper air duct running through described upper chamber 120 and runs through the lower air duct of described lower chambers 130. Described water conservancy diversion assembly is arranged between described upper chamber 120 and described lower chambers 130, and described water conservancy diversion assembly comprises dynamic leaf, quiet leaf and ventilation case 200. Ventilation case 200 has the diversion air duct being connected described upper air duct and described lower air duct, one end that described quiet leaf is installed in described diversion air duct near described upper air duct, one end that described dynamic leaf is installed in described diversion air duct near described lower air duct. Outdoor wind enters lower air duct after blast inlet 140 with interchanger 300 heat exchange, dynamic leaf drive and quiet leaf lead wind effect under, enter upper air duct, blow to the region that user specifies from going out air port 110 under the effect of wind guiding component 400. Wherein, wind guiding component 400 and door body assembly 500 are all positioned at upper air duct, and are arranged on support 600, under the effect of drive unit 700, wind guiding component 400 and door body assembly 500 relative movement, and coordinate with air channel shell 150, to be suitable for the various working ordeies of cabinet air-conditioner.

Introduce the concrete structure of cabinet air-conditioner below.

With reference to the structural representation that Fig. 3 to Fig. 6, Fig. 3 are cabinet air-conditioner drive unit of the present invention; Fig. 4 is the partial enlargement figure at A place in Fig. 3; Fig. 5 is the blast structural representation of cabinet air-conditioner drive unit of the present invention; Fig. 6 is the structural representation of the rotary components of cabinet air-conditioner drive unit of the present invention.

In embodiments of the present invention, this cabinet air-conditioner comprises a body assembly 500, wind guiding component 400 and drive unit 700; Described drive unit 700 comprises rotary components 710, and described rotary components 710 drives described door body assembly 500 and described wind guiding component 400 to rotate, with the relative position adjusted between described door body assembly 500 and described wind guiding component 400.

Specifically, in the present embodiment, door body assembly 500 and wind guiding component 400 are installed in the air channel of cabinet air-conditioner, and rotary components 710 orders about a body assembly 500, wind guiding component 400 or drives door body assembly 500 and wind guiding component 400 to rotate simultaneously, to adjust spacing therebetween. Certainly, in certain embodiments, door body assembly 500 and wind guiding component 400 are disposed on same rotation dish 720, wheelwork drives rotation dish 720 to rotate, so that door body assembly 500 and wind guiding component 400 do not do relative motion while completing respective function, thus avoid the appearance that stuck phenomenon occurs. In order to reasonably utilize cabinet air-conditioner internal space, drive unit 700 is arranged at the bottom of described door body assembly 500 and described wind guiding component 400, goes out air port 110 described in door body 530 correspondence of described door body assembly 500 and arrange.

In the present embodiment, door body assembly 500 and wind guiding component 400 is driven to rotate by rotary components 710, to adjust the relative position between body assembly 500 and wind guiding component 400, to meet the needs of cabinet air-conditioner work; Meanwhile, avoid in the opening and closing process of door body 530, stuck phenomenon occurring, the using air-condition cabinet-type air conditioner being conducive to user reliable and stable.

Further, Fig. 3 to Fig. 6, described rotary components 710 comprises the first motor 711, first driving gear 712, driven ring gear 713 and provides the rotation dish 720 of installation position for door body assembly 500 and wind guiding component 400;Described first motor 711 drives described first driving gear 712, and described first driving gear 712 and described driven ring gear 713 engage, and described driven ring gear 713 is fixedly connected with described rotation dish 720.

Specifically, in the present embodiment, the drive shaft of the first motor 711 coordinates with the centre hole of the first driving gear 712, and the first driving gear 712 rotates along with the rotation of the drive shaft of the first motor 711. Driven ring gear 713 is arranged in the form of a ring, is formed with the teeth portion of the tooth adaptation with the first driving gear 712 on the inwall of ring, outer wall, top or bottom, and the first driving gear 712 engages with the teeth portion of driven ring gear 713. Driven ring gear 713 drives the rotation dish 720 being fixedly connected with it, and rotation dish 720 rotates along with the rotation of driven ring gear 713. Wind guiding component 400 and door body assembly 500 are arranged on rotation dish 720, and between wind guiding component 400 and door body assembly 500, the angle at less angle is greater than 0 °, is less than or equal to 180 °. For the angle of the two as 180 °, namely wind guiding component 400 and door body assembly 500 are oppositely arranged. When opening cabinet air-conditioner, need to beat opening door body 530, the air-flow sending cabinet air-conditioner is carried out water conservancy diversion simultaneously, now the first motor 711 is by driving gear, driven ring gear 713 and rotation dish 720, the position that door body assembly 500 goes out air port 110 from correspondence is moved out, wind guiding component 400 is delivered to the position corresponding with going out air port 110 simultaneously. Certainly, in certain embodiments, it is possible to complete above-mentioned operation by multiple drive-motor and multiple transmission system.

In the present embodiment, the first driving gear 712 is driven by the first motor 711, first driving gear 712 drives rotation dish 720 by driven ring gear 713, is adjusted the position of door body assembly 500 and wind guiding component 400 by rotation dish 720, to meet the needs of cabinet air-conditioner work; By door body assembly 500 and wind guiding component 400 interval are arranged, and in door body assembly 500 and wind guiding component 400 working process, the two does not do cross motion, avoids stuck phenomenon occur in the opening and closing process of door body 530, the using air-condition cabinet-type air conditioner being conducive to user reliable and stable; In addition, by cooperatively interacting of a motor, a gear, a ring gear and a rotation dish 720, drive the position of wind guiding component 400 and door body assembly 500 to move simultaneously, reasonably make use of the relation that cooperatively interacts between each parts, making drive unit 700 rational in infrastructure, working stability is reliable.

Further, with reference to Fig. 4 to Fig. 6, the tooth of described driven ring gear 713 is arranged on inner ring surface, and described first driving gear 712 engages with the inner ring surface of described driven ring gear 713; The plane orthogonal at the axis direction of described first driving gear 712 and the rotary motion trace place of described driven ring gear 713.

Specifically, in the present embodiment, the tooth of driven ring gear 713 is arranged along the inner-wall surface 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, and the first driving gear 712 external teeth engages with the tooth of driven ring gear 713. In the present embodiment, by on the inner-wall surface that tooth is arranged on driven ring gear 713, the first driving gear 712 and the first motor 711 is made all to be arranged in the region that driven ring gear 713 surrounds, make the connection of driven ring gear 713, first driving gear 712 and the first motor 711 compacter, reasonably make use of the space of cabinet air-conditioner.

Specifically, in the present embodiment, driven ring gear 713 is along fixing pivot axis, and the track that driven ring gear 713 rotates can be the shape such as circular, oval.The rotation axis of the first driving gear 712 and the rotation axis line parallel of driven ring gear 713 are arranged. The rotation axis of the first driving gear 712 is vertical with the face at the rotary motion trace place of driven ring gear 713. So arrange so that the first driving gear 712 is more reliable and more stable with engaging of driven ring gear 713 so that the first driving gear 712 is compacter with the fit structure of driven ring gear 713.

Certainly, in certain embodiments, the tooth of driven ring gear 713 can be arranged in curved surface, the plane non-vertical at the rotary motion trace place of driving gear axis direction and described driven ring gear 713, all should be included in this scheme but as long as the scheme that the first driving toothed gear drives driven ring gear 713 to rotate according to desired guiding trajectory can be realized.

Further, the interior sidewall surface of described rotation dish 720 being formed with the annular mounting groove of the external annulus adaptation with described driven ring gear 713, described driven ring gear 713 is installed in described annular mounting groove.

In the present embodiment, on the inwall of rotation dish 720, corresponding driven ring gear 713 is formed with the installation groove that ring-type is arranged, and certainly, installs groove and can be opened on wall face, it is also possible to is formed by some spacing structures and install groove. The notch of installation groove is suitable with the height of driven ring gear 713 so that groove carries out wringing fit to driven ring gear 713 with installing. So arrange so that driven ring gear 713 with groove stable connection is installed while, be also conducive to the loading of driven ring gear 713. In certain embodiments, certainly, the connection of driven ring gear 713 and rotation dish 720, it is possible to buckled by card, screw, viscose etc. connect.

Further, reference Fig. 3 to Fig. 7, Fig. 7 is the structural representation of the moving assembly of cabinet air-conditioner drive unit of the present invention. Described drive unit 700 also comprises moving assembly 730, and described moving assembly 730 is for driving described door body assembly 500 and described wind guiding component 400 relative movement. Moving assembly 730 can be multiple motor, multiple gear, lever or tooth bar etc., its main purpose with drive moving assembly 730 and drive the relative movement of assembly, namely the two do near or away from relative movement.

Below for one specifically embodiment illustrate. Described moving assembly 730 comprises the 2nd motor 731, the 2nd driving gear 732, the first tooth bar 733 and the 2nd tooth bar 734 for being fixedly connected with described wind guiding component 400 for being fixedly connected with described door body assembly 500. Described 2nd motor 731 drives described 2nd driving gear 732, and described 2nd driving gear 732 engages with described first tooth bar 733 and described 2nd tooth bar 734 simultaneously.

Specifically, in the present embodiment, the drive shaft of the 2nd motor 731 coordinates with the rotational axis hole of the 2nd driving gear 732, drives the 2nd driving gear 732 to rotate. 2nd driving gear 732 engages with the first tooth bar and the 2nd tooth bar simultaneously, to drive the first tooth bar and the 2nd tooth bar simultaneously, thus drives wind guiding component 400 and door body assembly 500 simultaneously. Wherein, the first tooth bar 733 can parallel be arranged with the 2nd tooth bar 734, it is also possible to arranges in angle. First tooth bar 733 has a lot with the mode of connection of door body assembly 500, as card buckle, dismountable mode of connection such as screw. With reason, the 2nd tooth bar 734 has a lot with the mode of connection of wind guiding component 400, as card buckle, dismountable mode of connection such as screw.

In the present embodiment, drive wind guiding component 400 and door body assembly 500 by the 2nd motor 731, the 2nd driving gear 732, first tooth bar 733 and the 2nd tooth bar 734 simultaneously, a body assembly 500 and wind guiding component 400 are done relative motion, is being conducive between adjustment doors body assembly 500 and wind guiding component 400 while spacing;Limited component are used to achieve the relative movement of a body assembly 500 and wind guiding component 400 so that the compact construction of moving assembly 730, reasonably make use of space.

Further, with reference to Fig. 7, the driving part 7332 that described first tooth bar 733 comprises engagement portion 7331 and is connected with described engagement portion 7331, described engagement portion 7331 engages with described 2nd driving gear 732, and described driving part 7332 is connected with described door body assembly 500.

Specifically, in the present embodiment, the first L-shaped setting of tooth bar 733, engagement portion 7331 is arranged in angle with driving part 7332, and its angle is greater than 0 °, and is less than 180 °. In certain embodiments, certainly, described engagement portion 7331 and the vertical setting mutually of described driving part 7332. Driving part 7332 is perpendicular to the plane at the motion track place in engagement portion 7331. With reason, the 2nd tooth bar 734 also comprises engagement portion 7331 and driving part 7332. First tooth bar 733 and the 2nd separate setting of tooth bar 734 so that relative position relation therebetween has a variety of, does not limit at this.

The first tooth bar 733 and the relative position relation of the 2nd tooth bar 734 is introduced below with an embodiment. The setting parallel with the engagement portion 7331 of described 2nd tooth bar 734 of described first tooth bar 733, the setting parallel with the driving part 7332 of described 2nd tooth bar 734 of described first tooth bar 733. By being set to parallel by the engagement portion 7331 of the first tooth bar 733 with the 2nd tooth bar 734 so that the 2nd driving gear 732 is more reliable and more stable with two engagements engaging portion 7331, be conducive to improving the stability driving the first tooth bar 733 and the 2nd tooth bar 734; By the driving part 7332 of the first tooth bar 733 with the 2nd tooth bar 734 is set to parallel so that the relative movement between door body assembly 500 and wind guiding component 400 is more stable, smooth and easy.

In the present embodiment, by being set to the first tooth bar 733 connect to form by engagement portion 7331 and driving part 7332, make the movement of the travel direction of tooth bar and driven object can be more diversified, to meet the demand of various motion, so that the suitability of tooth bar is improved so that the suitability of moving assembly 730 is improved.

Further, with reference to Fig. 4, described 2nd driving gear 732, described first tooth bar 733 and described 2nd tooth bar 734 are all positioned at described rotation dish 720, and are all positioned at the inner side of described driven ring gear 713.

Specifically, in the present embodiment, the 2nd motor 731, the 2nd driving gear 732, first tooth bar 733 and the 2nd tooth bar 734 are all positioned at the regional extent that driven ring gear 713 surrounds, namely also all in rotation dish 720. 2nd motor 731 and the 2nd driving gear 732 are central corresponding with rotation dish 720, the drive shaft of the 2nd motor 731 and the rotation axis collinear of rotation dish 720.

In the present embodiment, by the 2nd driving gear 732, first tooth bar 733 and the 2nd tooth bar 734 are all set in rotation dish 720 so that the structure of drive unit 700 is compacter, arrangement is more reasonable.

Further, reference Fig. 8 to Figure 10, Fig. 8 is the blast structural representation of the wind guiding component of cabinet air-conditioner of the present invention; Fig. 9 is the partial enlargement figure at B place in Fig. 8; Figure 10 is the structural representation leading wind frame of the wind guiding component of cabinet air-conditioner of the present invention.

Described wind guiding component 400 comprises leads wind frame 410, air guide member and the first roller part 420; Described air guide member is led in wind frame 410 described in being installed on; Described first roller part 420 is led on wind frame 410 described in being installed on;So that described in lead wind frame 410 and moved by described first roller part 420.

Specifically, in the present embodiment, so that this wind guiding component 400 is used in cabinet air-conditioner. Lead wind frame 410 for rectangle frame, the length direction leading wind frame 410 is identical with the height direction of cabinet air-conditioner, the framework leading wind frame 410 one end is provided with the first roller part 420, first roller part 420 has the first roller 422 that can roll, and moves so that leading wind frame 410 along with the rolling of the first roller part 420. In certain embodiments, certainly, the first roller part 420 can also be other parts that can roll. By the setting of the first roller part 420 so that the movement leading wind frame 410 is very flexible. Air guide member is for guiding the flow direction of wind, and air guide member is arranged on leads in wind frame 410, and leads wind frame 410 and is rotationally connected.

In the present embodiment, by the setting of the first roller part 420, improve the handiness led wind frame 410 and move, make to lead wind frame 410 very flexible relative to the movement of door body 530, so that it is very convenient to lead the adjustment of the spacing between wind frame 410 and door body 530, avoid a body 530 to be occurred by the phenomenon that wind guiding component 400 is stuck in opening and closing process, the using air-condition cabinet-type air conditioner being conducive to user more reliable and more stable.

Further, with reference to Fig. 8 to Figure 10, described in lead wind frame 410 and comprise first crossbeam 411, second cross beam 412 and two first vertical beams 413; Described first roller part 420 comprises the first roller 422 and the first erecting frame 421, and described first roller 422 is installed in described first erecting frame 421. Described first crossbeam 411 and/or described second cross beam 412 are provided with the first roller part 420. The side that described first erecting frame 421 deviates from described first vertical beam 413 with described first crossbeam 411 or described second cross beam 412 is fixedly connected with.

Specifically, in the present embodiment, the installation portion that described first erecting frame 421 comprises connection section and is connected with described connection section. The side that described connection section deviates from described first vertical beam 413 with described first crossbeam 411 or described second cross beam 412 is fixedly connected with. Described installation portion has for the installation position that described first roller part 420 is installed. Installation portion is that strip row is arranged, and two first roller 422 installation positions are arranged along the length direction in installation portion so that the direction that two after installation first roller 422 rolls is consistent. Connection section is connecting arm, and the side that one end of connecting arm deviates from installation position with installation portion is connected, and the other end is connected with first crossbeam 411 or second cross beam 412. Certainly, in certain embodiments, connection section can also breach for being opened in installation portion, first crossbeam 411 or second cross beam 412 block in this breach, to realize installation portion and the connection of first crossbeam 411 or second cross beam 412. In certain embodiments, certainly, first crossbeam 411 and second cross beam 412 all can be provided with the first roller part 420.

In the present embodiment, it is fixedly connected with by the first erecting frame 421 and described first crossbeam 411 or described second cross beam 412 being deviated from the side of described first vertical beam 413, the first roller 422 being arranged on the first erecting frame 421 can freely be rolled, thus be conducive to leading moving freely of wind frame 410, be conducive to adjusting the distance led between wind frame 410 and door body 530.

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

In the present embodiment, leading wind frame 410 assembly and comprise multiple first roller part 420, in certain embodiments, first crossbeam 411 is set side by side with multiple first roller part 420, the length direction in the installation portion of multiple first roller part 420 is identical; In certain embodiments, second cross beam 412 being set side by side with multiple first roller part 420, the length direction in the installation portion of multiple first roller part 420 is identical; In certain embodiments, being all set side by side with multiple first roller part 420 on first crossbeam 411 and second cross beam 412, the length direction in the installation portion of multiple first roller part 420 is identical.

In certain embodiments, certainly, described first crossbeam 411 and/or described second cross beam 412 are provided with the first stiffener 430 between first erecting frame 421 described in adjacent two. By arranging the first stiffener 430 between the first adjacent erecting frame 421 so that the adjacent connection between two first erecting frames 421 is more reliable and more stable so that the connection between wind guiding component 400 is more reliable and more stable.

In the present embodiment, by first crossbeam 411 and/or second cross beam 412 are set up in parallel multiple first roller part 420, make to lead wind frame 410 and obtain multi-point support and multiple rolling point, add the stability that wind guiding component 400 is arranged so that the stability leading wind frame 410 rolling is effectively improved.

Further, with reference to Fig. 8 to Figure 10, described air guide member comprises some horizontal air-guiding strip 440, first drive-motor 450 and the vertical connecting rod 460 for all described horizontal air-guiding strips 440 that links; Described horizontal air-guiding strip 440 is rotationally connected with described the first vertical beam 413 leading wind frame 410; Described first drive-motor 450 is flexibly connected with one end of described first vertical beam 413 by crank connecting rod 455 mechanism, so that all horizontal air-guiding strips 440 swing with the movement of described vertical connecting rod 460.

Specifically, in the present embodiment, some horizontal parallel settings of air-guiding strip 440, the two ends of horizontal air-guiding strip 440 are provided with rotation axis, and two first vertical beams 413 are the corresponding rotation hole being provided with the rotation axis for horizontal air-guiding strip 440 and installing on the sidewall in frame. The rotation axis at horizontal air-guiding strip 440 two ends is separately positioned in the rotation hole of two first vertical beams 413, so that some horizontal air-guiding strips 440 can be all that axle rotates by respective rotation axis. The horizontal curved setting of air-guiding strip 440, it is provided with at the middle part of the recess side of air-guiding strip and the rotating shaft that vertical connecting rod 460 is rotationally connected, on vertical connecting rod 460, groove has been offered in corresponding rotating shaft, rotating shaft is arranged in groove so that horizontal air-guiding strip 440 moving up and down and swing along with vertical connecting rod 460.

The chute 461 being perpendicular to connecting rod length direction it is formed with in one end of vertical connecting rod 460. Crank mechanism comprises matrix and sliding bar, and one end of sliding bar is perpendicular to matrix and arranges. Matrix deviates from the side of sliding bar, offers the open holes that the rotation axis for the first drive-motor 450 is installed, the axis of open holes and connecting rod not conllinear. When the first drive-motor 450 drives matrix to rotate, connecting rod and the first drive-motor 450 do centrifugal rotation, first connecting rod moves in chute 461 away from one end of matrix, and drive vertical connecting rod 460 to move up and down, so that some horizontal air-guiding strip 440 synchronous hunting being connected with vertical connecting rod 460.

In certain embodiments, the rotating direction of described first roller part 420 is vertical with the length direction of described horizontal air-guiding strip 440.Namely when horizontal air-guiding strip 440 is horizontally disposed with, the travel direction leading wind frame 410 is identical with air-out direction, and when horizontal air-guiding strip 440 swings, air-out direction and travel direction are that acute angle is arranged. So arrange so that lead wind position and change along with the movement of the first roller part 420, namely can by regulating the position of wind guiding component 400 to regulate air-supply region.

In the present embodiment, by the setting of crank connecting rod 455 mechanism and chute 461, vertical connecting rod 460 is moved up and down under the driving of the 2nd drive-motor 490, thus drives some horizontal air-guiding strips 440 to swing reliably simultaneously so that the transverse direction of wind guiding component 400 to lead wind even.

Further, described air guide member comprises some longitudinal air-guiding strips 470, the 2nd drive-motor 490 and the horizontal connecting rod 480 for all described longitudinal air-guiding strips 470 that links. The two ends of described longitudinal air-guiding strip 470 are rotationally connected with the described crossbeam leading wind frame 410 respectively. One end of the drive shaft of described 2nd drive-motor 490 air-guiding strip 470 longitudinal with wherein is connected, described in driving, wherein a longitudinal air-guiding strip 470 swings, so that a described wherein longitudinal air-guiding strip 470 drives all longitudinal air-guiding strips 470 by described horizontal connecting rod 480.

Specifically, in the present embodiment, some parallel settings of longitudinal air-guiding strip 470, the two ends of longitudinal air-guiding strip 470 are provided with rotation axis, and first crossbeam 411 and second cross beam 412 be the corresponding rotation hole being provided with the rotation axis for longitudinal air-guiding strip 470 and installing on the sidewall in frame. The rotation axis at longitudinal air-guiding strip 470 two ends is separately positioned in the rotation hole of first crossbeam 411 or second cross beam 412, so that some longitudinal air-guiding strips 470 all can rotate by axle of respective rotation axis. Longitudinal air-guiding strip 470 is arranged in vertical plate, in the rotating shaft that one end of the side of longitudinal air-guiding strip 470 is provided with horizontal connecting rod 480 is rotationally connected, on horizontal connecting rod 480, groove has been offered in corresponding rotating shaft, rotating shaft is arranged in groove so that longitudinal air-guiding strip 470 moving left and right and swing along with horizontal connecting rod 480. The rotating shaft of the 2nd drive-motor 490 is connected with the rotating shaft of longitudinal air-guiding strip 470 arbitrarily, when the 2nd drive-motor 490 works, the longitudinal air-guiding strip 470 being connected with the 2nd drive-motor 490 rotates, and by the effect of horizontal connecting rod 480, drives other longitudinal air-guiding strip 470 synchronous hunting.

In certain embodiments, the rotating direction of described first roller part 420 is vertical with the length direction of described longitudinal air-guiding strip 470. Namely when longitudinal air-guiding strip 470 is vertically arranged, the travel direction leading wind frame 410 is identical with air-out direction, and when longitudinal air-guiding strip 470 swings, air-out direction and travel direction are that acute angle is arranged. So arrange so that lead wind position and change along with the movement of the first roller part 420, namely can by regulating the position of wind guiding component 400 to regulate air-supply region. In certain embodiments, certainly, the rotating direction of roller part is simultaneously vertical with the first vertical beam 413 with crossbeam.

In the present embodiment, the setting of the 2nd drive-motor 490 and horizontal connecting rod 480, horizontal connecting rod 480 is moved left and right in the driving of the 2nd drive-motor 490, thus drives some longitudinal air-guiding strips 470 to swing reliably simultaneously, so that the perpendicular guide wind of wind guiding component 400 is even.

Further, reference Figure 11 and Figure 12, Figure 11 is the blast structural representation of the door body assembly of cabinet air-conditioner of the present invention; Figure 12 is the structural representation of door body another angle of assembly of cabinet air-conditioner of the present invention.

Described door body assembly 500 comprises a body 530, for installing support frame 510 and a second wheel part 520 of described door body 530;Described door body 530 is installed in a described support frame 510; Described second wheel part 520 is installed in a described support frame 510, so that described door body 530 is mobile with the rolling of described second wheel part 520.

Specifically, in the present embodiment, so that this body assembly 500 is used in cabinet air-conditioner. Propping up support frame 510 is rectangle frame, the length direction propping up support frame 510 is identical with the height direction of cabinet air-conditioner, the framework of support frame 510 one end is provided with second wheel part 520, second wheel part 520 has the second wheel 522 that can roll, so that outlet frame moves along with the rolling of second wheel part 520. In certain embodiments, certainly, second wheel part 520 can also be other parts that can roll. By the setting of second wheel part 520 so that the movement of outlet frame is very flexible. The door curved setting of body 530, the plate face that door body 530 caves in removably connects with a support frame 510.

In the present embodiment, by the setting of second wheel part 520, improve the handiness that a support frame 510 moves, make to support wind frame very flexible relative to the movement of wind guiding component 400, so that it is very convenient to prop up the adjustment of the spacing between support frame 510 frame and wind guiding component 400, avoid a body 530 to be occurred by the phenomenon that wind guiding component 400 is stuck in opening and closing process, the using air-condition cabinet-type air conditioner being conducive to user more reliable and more stable.

Further, with reference to Figure 11 and Figure 12, described support frame 510 comprises the 3rd crossbeam 511, the 4th crossbeam 512 and two the 2nd vertical beams 513; Described second wheel part 520 comprises second wheel 522 and the 2nd erecting frame 521, and described second wheel 522 is installed in described 2nd erecting frame 521; The side that described 2nd erecting frame 521 deviates from described 2nd vertical beam 513 with described 3rd crossbeam 511 or described 4th crossbeam 512 is fixedly connected with.

Specifically, in the present embodiment, the installation portion that described 2nd erecting frame 521 comprises connection section and is connected with described connection section. The side that described connection section deviates from described 2nd vertical beam 513 with described 3rd crossbeam 511 or described 4th crossbeam 512 is fixedly connected with. Described installation portion has for the installation position that described second wheel part 520 is installed. Installation portion is that strip row is arranged, and two second wheel 522 installation positions are arranged along the length direction in installation portion so that the direction that two second wheels 522 after installation roll is consistent. Connection section is connecting arm, and the side that one end of connecting arm deviates from installation position with installation portion is connected, and the other end is connected with the 3rd crossbeam 511 or the 4th crossbeam 512. Certainly, in certain embodiments, connection section can also breach for being opened in installation portion, the 3rd crossbeam 511 or the 4th crossbeam 512 block in this breach, to realize installation portion and the connection of the 3rd crossbeam 511 or the 4th crossbeam 512. In certain embodiments, certainly, the 3rd crossbeam 511 and the 4th crossbeam 512 all can be provided with second wheel part 520.

In the present embodiment, by the side that the 2nd erecting frame 521 and described 3rd crossbeam 511 or described 4th crossbeam 512 deviate from described 2nd vertical beam 513 is fixedly connected with, the second wheel 522 being arranged on the 2nd erecting frame 521 can freely be rolled, thus be conducive to moving freely of a support frame 510, be conducive to adjusting the distance propped up between support frame 510 and wind guiding component 400.

Further, on reference Figure 11 and Figure 12, described 3rd crossbeam 511 and/or described 4th crossbeam 512, the length direction along described crossbeam is set side by side with multiple second wheel part 520.

In the present embodiment, door body 530 frame assembly comprises multiple second wheel part 520, in certain embodiments, the 3rd crossbeam 511 is set side by side with multiple second wheel part 520, and the length direction in the installation portion of multiple second wheel part 520 is identical; In certain embodiments, the 4th crossbeam 512 being set side by side with multiple second wheel part 520, the length direction in the installation portion of multiple second wheel part 520 is identical; In certain embodiments, being all set side by side with multiple second wheel part 520 on the 3rd crossbeam 511 and the 4th crossbeam 512, the length direction in the installation portion of multiple second wheel part 520 is identical.

In certain embodiments, certainly, described 3rd crossbeam 511 and/or described 4th crossbeam 512 are provided with the 2nd stiffener 540 between the 2nd erecting frame 521 described in adjacent two. By arranging the 2nd stiffener 540 between the 2nd adjacent erecting frame 521 so that the connection between adjacent two the 2nd erecting frame 521 is more reliable and more stable so that the connection between door body assembly 500 is more reliable and more stable.

In the present embodiment, by the 3rd crossbeam 511 and/or the 4th crossbeam 512 are set up in parallel multiple second wheel part 520, make a support frame 510 obtain multi-point support and multiple rolling point, add the stability that a body assembly 500 is arranged so that the stability that a support frame 510 is rolled is effectively improved.

Further, described support frame 510 comprises by the installation platform 550 of described support frame 510 to described the outside projection in support frame 510 side, and a plate face of described door body 530 is fixedly connected with described installation platform 550.

Specifically, in the present embodiment, installing platform 550 and comprise support platform and connecting arm, one end of connecting arm is connected with the 3rd crossbeam 511, the 4th crossbeam 512 or the 2nd vertical beam 513, and the other end is connected with support platform. The removablies such as door body 530 is buckled by card with installation platform 550, screw are connected. Certainly, in order to make installation platform 550 more reliable and more stable with the connection of a support frame 510, the quantity of connecting arm can be multiple, is connected with the 3rd crossbeam 511, the 4th crossbeam 512 or the 2nd vertical beam 513 respectively.

In the present embodiment, by installing the setting of platform 550 so that the installation position of door body 530 is more flexible, more reliable and more stable with the connection of a support frame 510, be conducive to improving the stability of door body assembly 500 connection.

Further, the rotating direction of described second wheel part 520 is vertical with the length direction of described 4th crossbeam 512 with described horizontal 3rd crossbeam 511. The rotating direction of described second wheel part 520 is vertical with the length direction of described 2nd vertical beam 513.

Specifically, in the present embodiment, the 3rd crossbeam 511, the 4th crossbeam 512 and two the 2nd vertical beams 513 surround a rectangular area, and the travel direction of second wheel part 520 is vertical with this rectangular area. Wherein, door body 530 is arranged in this rectangular area so that the travel direction of door body 530 is vertical with this rectangular area. In certain embodiments, certainly, the travel direction of second wheel part 520 can only be perpendicular to the 2nd vertical beam 513, it is also possible to is only perpendicular to the 3rd crossbeam 511 and the 4th crossbeam 512. When some are more general, the travel direction of second wheel part 520 and rectangular area are that angle is arranged.

In the present embodiment, by the travel direction of second wheel part 520 is vertical with the 4th crossbeam 512, the 2nd vertical beam 513 or rectangular area with the 3rd crossbeam 511, a body 530 is fixed the movement of track under the effect of second wheel part 520, the movement of a body 530 is made to be more prone to realize with convenient, so that door body assembly 500 moves more reliable and more stable.

Further, reference Figure 13 to Figure 18, Figure 13 is the structural representation of support one embodiment of cabinet air-conditioner of the present invention; Figure 14 is the structural representation of another embodiment of support of cabinet air-conditioner of the present invention; Figure 15 is the structural representation of the support embodiment again of cabinet air-conditioner of the present invention; Figure 16 is the structural representation of the support another embodiment of cabinet air-conditioner of the present invention; Figure 17 is the structural representation of the support also embodiment of cabinet air-conditioner of the present invention; Figure 18 is the structural representation of the support of cabinet air-conditioner of the present invention.

Described cabinet air-conditioner also comprises support 600, the 2nd guide rail 620 that described support 600 comprises the first guide rail 610 for moving for described door body assembly 500 and moves for empty described wind guiding component 400; Described door body assembly 500 moves along the bearing of trend of described first guide rail 610, and described wind guiding component 400 moves along the bearing of trend of described 2nd guide rail 620, so that described door body assembly 500 and described wind guiding component 400 relative movement.

Specifically, in the present embodiment, the first guide rail 610 and all elongated setting of the 2nd guide rail 620, door body assembly 500 and the first guide rail 610 are slidably connected, and wind guiding component 400 and the 2nd guide rail 620 are slidably connected. First guide rail 610 can with the 2nd parallel setting of guide rail 620, it is also possible to arrange in angle with the 2nd guide rail 620; First guide rail 610 and the 2nd guide rail 620 can be positioned at the same face, it is also possible to be positioned at different faces. In certain embodiments, certainly, in order to the needs of satisfied design or reality, it is possible to just the first guide rail 610 and the 2nd guide rail 620 are set to arc-shaped guide rail.

In the present embodiment, door body assembly 500 slides along the first guide rail 610, wind guiding component 400 slides along the 2nd guide rail 620, make the motion of a body assembly 500 and wind guiding component 400 more flexible, motion track is more stable, thus avoids and stuck phenomenon occur in the opening and closing process of door body 530.

With reference to Figure 11 to Figure 18, about quantity and the relative position relation of the first guide rail 610 and the 2nd guide rail 620, it is possible to the mode realizing door body assembly 500 and wind guiding component 400 relative movement has a lot, introduces several concrete form below. Door body assembly 500 and wind guiding component 400 can in opposite directions or opposing movement, it is also possible to angularly relative movement.

When described first guide rail 610 is parallel with described 2nd guide rail 620 arrange time, door body assembly 500 and wind guiding component 400 move in opposite directions under the effect of drive unit 700, or opposing movement. Described support 600 also comprises pillar stiffener 630 and installs beam 640, and one end of described pillar stiffener 630 is connected with the rotation dish 720 of cabinet air-conditioner, and the other end is provided with described installation beam 640. Now parallel comprises the first guide rail 610 and the 2nd guide rail 620 is all arranged on rotation dish 720, also comprises the first guide rail 610 and is arranged on rotation dish 720, and the 2nd guide rail 620 is arranged on the installation beam 640 above rotation dish 720. In certain embodiments, certainly, described first guide rail 610 and described 2nd guide rail 620 can also be located along the same line.

When the quantity of described first guide rail 610 is two, when the quantity of described 2nd guide rail 620 is two articles, the first parallel setting of guide rail 610 described in two, the 2nd parallel setting of guide rail 620 described in two. Now the top of door body assembly 500 and bottom are connected with two the first guide rails 610 respectively, and the top of wind guiding component 400 and bottom are connected with two the 2nd guide rails 620 respectively. Make the installation of wind guiding component 400 and door body assembly 500 and move more stable.Now, the two ends of described installation beam 640 are respectively arranged with the first guide rail 610 and the 2nd guide rail 620, and namely door body assembly 500 is arranged between two first guide rails 610, and wind guiding component 400 is arranged between two the 2nd guide rails 620.

When the quantity of described first guide rail 610 is four, four described first guide rails 610 are arranged in parallel, and wherein two described first guide rails 610 are arranged on described installation beam 640, and two described first guide rails 610 are arranged on described rotation dish 720. The quantity of described 2nd guide rail 620 is four articles, and four articles of described 2nd guide rails 620 are arranged in parallel, and wherein two articles of described 2nd guide rails 620 are arranged on described installation beam 640, and two articles of described 2nd guide rails 620 are arranged on described rotation dish 720. In certain embodiments, certainly, being located along the same line with the 2nd guide rail 620 of the first guide rail 610 correspondence, to form a root length rail. By arranging four articles of first guide rails 610 being parallel to each other and four articles of the 2nd guide rails 620 being parallel to each other, make the installation of a body assembly 500 and wind guiding component 400 and move more reliable and more stable, be conducive to the stability improving door body assembly 500 and wind guiding component 400 work.

The foregoing is only the preferred embodiments of the present invention; not thereby the patent scope of the present invention is limited; under every invention in the present invention is conceived; utilize the equivalent structure conversion that specification sheets of the present invention and accompanying drawing content do, or directly/be indirectly used in other relevant technical fields and include in the scope of patent protection of the present invention.

Claims (15)

1. a cabinet air-conditioner, it is characterised in that, comprise a body assembly, wind guiding component and drive unit; Described drive unit comprises rotary components, and described rotary components drives described door body assembly and described wind guiding component to rotate, with the relative position adjusted between described door body assembly and described wind guiding component.

2. cabinet air-conditioner as described in claim 1, it is characterised in that, described drive unit is arranged at the bottom of described door body assembly and described wind guiding component, and the air port that goes out of the corresponding cabinet air-conditioner of the door body of described door body assembly is arranged.

3. cabinet air-conditioner as claimed in claim 1, it is characterised in that, described rotary components comprises the first motor, the first driving gear, driven ring gear and is the rotation dish of door body assembly and wind guiding component offer installation position; Described first motor drives described first driving gear, and described first driving gear and the engagement of described driven ring gear, described driven ring gear is fixedly connected with described rotation dish.

4. cabinet air-conditioner as claimed in claim 3, it is characterised in that, the tooth of described driven ring gear is arranged on inner ring surface, and described first driving gear engages with the inner ring surface of described driven ring gear; The plane orthogonal at the axis direction of described first driving gear and the rotary motion trace place of described driven ring gear.

5. cabinet air-conditioner as claimed in claim 1, it is characterized in that, described drive unit comprises moving assembly, and described moving assembly drives described door body assembly and described wind guiding component relative movement, with the relative position adjusted between described door body assembly and described wind guiding component.

6. cabinet air-conditioner as claimed in claim 5, it is characterised in that, described moving assembly comprise the 2nd motor, the 2nd driving gear, for driving the first tooth bar of described door body assembly and the 2nd tooth bar for driving described wind guiding component; Described 2nd motor drives described 2nd driving gear, and described 2nd driving gear engages with described first tooth bar and described 2nd tooth bar simultaneously.

7. cabinet air-conditioner as claimed in claim 6, it is characterised in that, the driving part that described first tooth bar comprises engagement portion and is connected with described engagement portion, described engagement portion engages with described 2nd driving gear, and described driving part is connected with described door body assembly.

8. cabinet air-conditioner as claimed in claim 1, it is characterised in that, described wind guiding component comprises leads wind frame, air guide member and the first roller part; Described air guide member is led in wind frame described in being installed on; Described first roller part is led on wind frame described in being installed on; So that described in lead wind frame and moved by described first roller part.

9. cabinet air-conditioner as claimed in claim 8, it is characterised in that, described in lead wind frame and comprise first crossbeam, second cross beam and two first vertical beams; Described first roller part comprises the first roller and the first erecting frame, and described first roller is installed in described first erecting frame; The side that described first erecting frame deviates from described first vertical beam with described first crossbeam or described second cross beam is fixedly connected with.

10. cabinet air-conditioner as claimed in claim 8, it is characterised in that, described air guide member comprises some horizontal air-guiding strips, the first drive-motor and the vertical connecting rod for all described horizontal air-guiding strips that links; Described horizontal air-guiding strip and the described vertical beam leading wind frame are rotationally connected; Described first drive-motor is flexibly connected by one end of toggle with described vertical beam, so that all horizontal air-guiding strips swing with the movement of described vertical connecting rod.

11. cabinet air-conditioners as claimed in claim 10, it is characterised in that, the rotating direction of described first roller part is vertical with the length direction of described horizontal air-guiding strip.

12. cabinet air-conditioners as claimed in claim 1, it is characterised in that, described door body assembly comprises a body, for installing support frame and a second wheel part of described door body; Described door body is installed in a described support frame; Described second wheel part is installed in a described support frame, so that described door body is mobile with the rolling of described second wheel part.

13. cabinet air-conditioners as claimed in claim 12, it is characterised in that, described support frame comprises the 3rd crossbeam, the 4th crossbeam and two the 2nd vertical beams; Described second wheel part comprises second wheel and the 2nd erecting frame, and described second wheel is installed in described 2nd erecting frame; The side that described 2nd erecting frame deviates from described perpendicular 2nd straight beam with described 3rd crossbeam or described 4th crossbeam is fixedly connected with.

14. cabinet air-conditioners as claimed in claim 13, it is characterised in that, on described 3rd crossbeam and/or described 4th crossbeam, it is set side by side with multiple second wheel part along the length direction of described 3rd crossbeam and/or described 4th crossbeam.

15. such as cabinet air-conditioner as described in any one in claim 1 to 14, it is characterised in that, described cabinet air-conditioner also comprises support, the 2nd guide rail that described support comprises the first guide rail for moving for described door body assembly and moves for empty described wind guiding component; Described door body assembly moves along the bearing of trend of described first guide rail, and described wind guiding component moves along the bearing of trend of described 2nd guide rail, so that described door body assembly and described wind guiding component relative movement.