CN205448225U - Air -out subassembly and axial compressor cabinet -type air conditioner - Google Patents

Air -out subassembly and axial compressor cabinet -type air conditioner Download PDF

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Publication number
CN205448225U
CN205448225U CN201620022118.9U CN201620022118U CN205448225U CN 205448225 U CN205448225 U CN 205448225U CN 201620022118 U CN201620022118 U CN 201620022118U CN 205448225 U CN205448225 U CN 205448225U
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China
Prior art keywords
air
gripper shoe
out component
wind
guide vane
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CN201620022118.9U
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Chinese (zh)
Inventor
钟志尧
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Midea Group Co Ltd
GD Midea Air Conditioning Equipment Co Ltd
Original Assignee
Midea Group Co Ltd
Guangdong Midea Refrigeration Equipment Co Ltd
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Priority to CN201620022118.9U priority Critical patent/CN205448225U/en
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Publication of CN205448225U publication Critical patent/CN205448225U/en
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Abstract

The utility model discloses an air -out subassembly and axial compressor cabinet -type air conditioner, wherein, the air -out subassembly includes air -out frame, wind -guiding leaf and bracing piece, the air -out frame includes the backup pad, the backup pad corresponds the air outlet of axial compressor cabinet -type air conditioner and had seted up the wind gap, the bracing piece is installed cross the one side in wind gap, the length direction of bracing piece with the direction of height of backup pad is the same, the wind -guiding leaf includes wind -guiding portion and sets up the rotary column at wind -guiding portion both ends, the rotary column of wind -guiding leaf one end with the bracing piece rotate to be connected, the other end with the backup pad orientation the internal face of backshell rotates to be connected. The utility model discloses a be connected two rotary columns of wind -guiding leaf with backup pad and bracing piece rotation respectively for the swing of wind -guiding leaf can guide the air current that passed through the wind gap, so that the air current after the heat transfer can send to to the appointed region of user, in order to satisfy the demand of user to axial compressor cabinet -type air conditioner wind -guiding.

Description

Air-out component and axial flow cabinet-type air conditioner
Technical field
This utility model relates to air-conditioning technical field, particularly to a kind of air-out component and axial flow cabinet-type air conditioner.
Background technology
Along with the raising of people's living standard, people are more and more higher to the requirement of axial flow cabinet-type air conditioner, the change to axial flow cabinet structure, need the air-out designing new air exhausting structure to realize axial flow cabinet-type air conditioner accordingly.
Utility model content
Main purpose of the present utility model is to provide a kind of air-out component, it is intended to improve a kind of new air-out component to be suitable for new axial flow cabinet structure.
For achieving the above object, the air-out component that the utility model proposes, including outlet frame, wind guide vane and support bar;
Described outlet frame includes that gripper shoe, the air outlet of described gripper shoe correspondence axial flow cabinet-type air conditioner offered air port, and described support bar is arranged on the described side crossing air port;The length direction of described support bar is identical with the short transverse of described gripper shoe;
Described wind guide vane includes air dam and is arranged on the rotary column at described air dam two ends, and the rotary column of described wind guide vane one end is rotationally connected with described support bar, and the other end is rotationally connected towards the internal face of described back cover with described gripper shoe.
Preferably, on the internal face of described gripper shoe and described support bar on, corresponding described wind guide vane all offers and turns hole, the rotary column at described wind guide vane two ends be respectively arranged in described in turn in hole.
Preferably, described air-out component also includes stator motor, and described rotary column is arranged along the length direction of described air dam, and described rotary column offers guide vane shaft holes of both away from one end of described air dam, and the stator rotating shaft for described stator motor is inserted;Offering the stator motor installation position installed for described stator motor in the outside wall surface of described gripper shoe, described stator motor is installed in described stator motor installation position.
Preferably, institute's air-out component also includes that connecting rod, the quantity of described wind guide vane are multiple;Described connecting rod is flexibly connected with multiple described wind guide vanes respectively, so that the linkage of multiple described wind guide vane, the straight line at described rotary column place is avoided in the position that described connecting rod is connected with described wind guide vane.
Preferably, on the edge of described air dam length direction, it is provided with universal driving shaft;It is provided with some universal driving shaft installation positions on described connecting rod along its length, rotates for described universal driving shaft and install;The diameter being smaller in size than described universal driving shaft of described universal driving shaft installation position opening part.
Preferably, the curved setting in plate face of described air dam, the cancave cambered surface of described air dam is arranged down.
Preferably, described air-out component also includes that frid, described frid are connected with the top of described gripper shoe;Described outlet frame also includes that guide-rail plate, described guide-rail plate are arranged on the bottom of described gripper shoe;One end of described support bar is connected with described frid, and the other end is connected with described guide-rail plate.
This utility model is it is further proposed that a kind of axial flow cabinet-type air conditioner, this axial flow cabinet-type air conditioner includes air-out component and housing, described housing is formed with upper chamber, lower chambers, runs through the upper air duct of described upper chamber and run through the lower air duct of described lower chambers, and described air-out component is installed in described upper chamber;
Described housing includes fore shell and the back cover being connected with described fore shell, and the air outlet of described upper air duct is opened in the position of the outlet frame of the corresponding described air-out component of described fore shell, and the air inlet of described lower air duct is opened in the position of the corresponding described heat exchanger assembly of described back cover;
Described outlet frame and described back cover surround described upper air duct.
Preferably, described axial flow cabinet-type air conditioner also includes that ventilation case, described ventilation case have diversion air duct, and described diversion air duct connects described upper air duct and described lower air duct;Described ventilation case is provided with sealing flanging near one end of described outlet frame, and described sealing flanging is fitted with described guide-rail plate.
Preferably, the shape of cross section of described fore shell and described back cover is circular arc and the two surrounds full circle;The gripper shoe of described outlet frame is arc, and the curvature of described arc is identical with the curvature of described fore shell;The guide-rail plate of described outlet frame is arranged ringwise, the internal face laminating of the periphery wall of described guide-rail plate and described fore shell and described back cover;
Being provided with the installation position installing described gripper shoe on the internal face of described fore shell, the first side of described gripper shoe is connected with described gripper shoe installation position, and the second side relative with described first side of institute's gripper shoe snaps connection with the internal face of described fore shell.
This utility model is by being rotationally connected two rotary columns of wind guide vane with gripper shoe and support bar respectively, make wind guide vane swings the bootable air-flow passing through air port, so that the air-flow after heat exchange can send to the region specified to user, to meet user's demand to axial flow cabinet-type air conditioner wind-guiding.
Accompanying drawing explanation
In order to be illustrated more clearly that this utility model embodiment or technical scheme of the prior art, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in describing below is only embodiments more of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to the structure shown in these accompanying drawings.
Fig. 1 is the structural representation of this utility model axial flow cabinet-type air conditioner one embodiment;
Fig. 2 is the structural representation of this utility model axial flow another embodiment of cabinet-type air conditioner;
Fig. 3 is the structural representation of this utility model air-out component one embodiment;
Fig. 4 is the structural representation of an embodiment of the gripper shoe of this utility model air-out component;
Fig. 5 is the structural representation of an embodiment of the wind guide vane of this utility model air-out component;
Fig. 6 is the structural representation of another embodiment of the wind guide vane of this utility model air-out component;
Fig. 7 is the structural representation of this utility model another embodiment of air-out component;
Fig. 8 is the partial enlarged drawing in Fig. 7 at A.
Drawing reference numeral illustrates:
Label Title Label Title
100 Housing 110 Air outlet
120 Upper chamber 130 Lower chambers
140 Air inlet 150 Back cover
160 Fore shell 200 Ventilation case
300 Heat exchanger 400 Air-out component
410 Guide-rail plate 420 Gripper shoe
421 Cross air port 430 Turn hole
450 Frid 460 Connecting rod
461 Universal driving shaft installation position 470 Wind guide vane
471 Rotary column 472 Air dam
473 Universal driving shaft 480 Support bar
490 Stator motor
The realization of this utility model purpose, functional characteristics and advantage will in conjunction with the embodiments, are described further referring to the drawings.
Detailed description of the invention
Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present utility model rather than whole embodiments.Based on the embodiment in this utility model, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of this utility model protection.
Need explanation, in this utility model embodiment, directional instruction (such as up, down, left, right, before and after ...) is only used for explanation relative position relation under a certain particular pose (as shown in drawings) between each parts, motion conditions etc., if this particular pose changes, then directionality instruction changes the most therewith.
It addition, the description relating to " first ", " second " etc. in this utility model is only used for describing purpose, and it is not intended that indicate or imply its relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include at least one this feature.Additionally; technical scheme between each embodiment can be combined with each other; but must be based on those of ordinary skill in the art are capable of; when technical scheme combination occur conflicting maybe cannot realize time will be understood that the combination of this technical scheme does not exists, the most not this utility model require protection domain within.
The utility model proposes a kind of axial flow cabinet-type air conditioner.
Seeing figures.1.and.2, Fig. 1 is the structural representation of this utility model axial flow cabinet-type air conditioner one embodiment;Fig. 2 is the structural representation of this utility model axial flow another embodiment of cabinet-type air conditioner.
Axial flow cabinet-type air conditioner includes wind guiding component and housing 100, and described wind guiding component is installed in described housing 100.Described housing is formed with upper chamber 120, lower chambers 130, runs through the upper air duct of described upper chamber 120 and run through the lower air duct of described lower chambers 130.Described wind guiding component is arranged between described upper chamber 120 and described lower chambers 130, and described wind guiding component includes movable vane 500, stator blade 600 and ventilation case 200.Ventilation case 200 has the described upper air duct of connection and the diversion air duct 280 of described lower air duct, described stator blade 600 is one end of close described upper air duct in being installed on described diversion air duct 280, and described movable vane 500 is one end of close described lower air duct in being installed on described diversion air duct 280.Outdoor wind enters lower air duct after air inlet 140 with heat exchanger 300 heat exchange, under the driving of movable vane 500 and the wind-guiding effect of stator blade 600, enters upper air duct, is blown to, from air outlet 110, the region that user specifies under the effect of air-out component 400.
The utility model proposes a kind of air-out component 400.
Referring to figs. 1 through the structural representation that Fig. 6, Fig. 3 are this utility model air-out component one embodiment;Fig. 4 is the structural representation of an embodiment of the gripper shoe of this utility model air-out component;Fig. 5 is the structural representation of an embodiment of the wind guide vane of this utility model air-out component;Fig. 6 is the structural representation of another embodiment of the wind guide vane of this utility model air-out component.
In this utility model embodiment, this air-out component includes outlet frame 410, wind guide vane 470 and support bar 480.Described outlet frame 410 includes gripper shoe 420, and the air outlet 110 of the corresponding axial flow cabinet-type air conditioner of described gripper shoe 420 offered air port 421, and described support bar 480 is arranged on the described side crossing air port 421.The length direction of described support bar 480 is identical with the short transverse of described gripper shoe 420.Described wind guide vane 470 includes air dam 472 and is arranged on the rotary column 471 at described air dam 472 two ends, the rotary column 471 of described wind guide vane 470 one end is rotationally connected with described support bar 480, and the other end is rotationally connected towards the internal face of described back cover 150 with described gripper shoe 420.
Specifically, in the present embodiment, the curved setting of gripper shoe 420, its radian is identical with the radian of axial flow cabinet-type air conditioner housing 100.Gripper shoe 420 is arranged in the housing 100 of axial flow cabinet-type air conditioner, cross air port 421 to be opened on the plate face of gripper shoe 420, the shape crossing air port 421 is identical with the shape of the air outlet 110 being opened on fore shell 160, and the size crossing air port 421 is more than or equal to the size of air outlet 110, to ensure the air-out area of air outlet 110.The length direction of support bar 480 is identical with the length direction of gripper shoe 420, and support bar 480 is fixed with the internal face of gripper shoe 420 and is connected.The mode that support bar 480 is connected with gripper shoe 420 has a lot, if snapping connection, threaded etc..The mode that rotary column 471 and gripper shoe 420, support bar 480 are rotationally connected has a lot.In the present embodiment, on the internal face of described gripper shoe 420 and described support bar 480 on, corresponding described wind guide vane 470 all offers and turns hole 430, the rotary column 471 at described wind guide vane 470 two ends be respectively arranged in described in turn in hole 430.What i.e. steady arm deviated from that the side of gripper shoe 420 is provided with that the rotary column 471 for wind guide vane 470 inserts turns hole 430.Offer rotary column 471 insertion for wind guide vane 470 on the internal face with support bar 480 opposite side of gripper shoe 420 turns hole 430.Turning in gripper shoe 420 turns hole 430 one_to_one corresponding on hole 430 and support bar 480.The length direction of air dam 472 is parallel with the width crossing air port 421.
In the present embodiment, by two rotary columns 471 of wind guide vane 470 are rotationally connected with gripper shoe 420 and support bar 480 respectively, the installation and removal making wind guide vane 470 are easier, make wind guide vane 470 swings the bootable air-flow passing through air port 421, so that the air-flow after heat exchange can send to the region specified to user, to meet user's demand to axial flow cabinet-type air conditioner wind-guiding.
Further, with reference to Fig. 3 to Fig. 6, described air-out component 400 also includes stator motor 490.Described rotary column 471 is arranged along the length direction of described air dam 472, and described rotary column 471 offers guide vane shaft holes of both away from one end of described air dam 472, and the stator rotating shaft for described stator motor 490 is inserted.Offering stator motor 490 installation position installed for described stator motor 490 in the outside wall surface of described gripper shoe 420, described stator motor 490 is installed in described stator motor 490 installation position.
Specifically, in the present embodiment, the installation position of stator motor 490 is that cuboid receiving space is arranged, and the sidewall of receiving space turns hole 430 in corresponding gripper shoe 420, and the rotary column 471 of wind guide vane 470 extends in installation position through turning hole 430.The rotating shaft of stator motor 490 is inserted in the guide vane shaft holes of both being opened in rotary column 471 end.Wind guide vane 470 swings, so that the swing of air dam 472 is controlled by stator motor 490 along with the rotation of stator motor 490.Stator motor 490 electrically connects with the control device of axial flow cabinet-type air conditioner.
In the present embodiment, by the installation position of stator motor 490 being arranged on the lateral wall of gripper shoe 420, the mounting structure making stator motor 490 is compact, space limited in reasonably make use of upper chamber 120, is conducive to improving the utilization rate in axial flow cabinet-type air conditioner upper chamber 120 space.
Further, with reference to the structural representation that Fig. 7 and Fig. 8, Fig. 7 are another embodiment of this utility model air-out component 400;Fig. 8 is the partial enlarged drawing in Fig. 7 at A.Institute's air-out component 400 also includes that connecting rod 460, the quantity of described wind guide vane 470 are multiple.Described connecting rod 460 is flexibly connected with multiple described wind guide vanes 470 respectively, so that multiple described wind guide vane 470 links, the straight line at described rotary column 471 place is avoided in the position that described connecting rod 460 is connected with described wind guide vane 470.
Specifically, in the present embodiment, multiple wind guide vanes 470 be arranged in parallel along the short transverse of gripper shoe 420, and in gripper shoe 420 and support bar 480, the rotary column 471 of corresponding wind guide vane 470 is provided with and multiple turns hole 430.Connecting rod 460 is rotationally connected with each wind guide vane 470 respectively, when wherein arbitrarily wind guide vane 470 swings, other wind guide vane 470 under the driving of connecting rod 460 also with swing.Wherein, what deserves to be explained is, connecting rod 460 is not parallel with rotary column 471, and otherwise connecting rod 460 can not drive wind guide vane 470 to swing to the moment of wind guide vane 470.
Name the example that a connecting rod 460 is rotationally connected with wind guide vane 470.On the edge of described air dam 472 length direction, it is provided with universal driving shaft 473.It is provided with some universal driving shaft installation positions 461 on described connecting rod 460 along its length, rotates for described universal driving shaft 473 and install.The diameter being smaller in size than universal driving shaft 473 of described universal driving shaft installation position 461 opening part.The material of installation position has elasticity so that universal driving shaft 473 enters after being installed as and is difficult to depart from so that connecting rod 460 is more reliable and more stable with the connection of wind guide vane 470.
Wherein, the curved setting in plate face of described air dam 472, the cancave cambered surface of described air dam 472 is arranged down.The plate-shaped setting of air dam 472, by being arranged on the bottom of air dam 472 by the cancave cambered surface of air dam 472 so that wind flows along cancave cambered surface when air dam 472.By the setting of cancave cambered surface, air-flow is along the curved flowing in plate face of air dam 472 so that the flowing of air-flow more meets the curve law of fluid flowing.
In the present embodiment, by the setting of connecting rod 460 so that a stator motor 490 can drive multiple wind guide vane 470, be conducive to improving the utilization rate of stator motor 490.
Further, described air-out component 400 also includes that frid 450, described frid 450 are connected with the top of described gripper shoe 420.Described outlet frame also includes that guide-rail plate 410, described guide-rail plate 410 are arranged on the bottom of described gripper shoe 420.One end of described support bar 480 is connected with described frid 450, and the other end is connected with described guide-rail plate 410.The gap for axial flow cabinet-type air conditioner door body process is left between described support bar 480 and described gripper shoe 420.
Specifically, in the present embodiment, frid 450 is circular slab, is arranged on the top of axial flow cabinet-type air conditioner housing 100, and the diameter of frid 450 is suitable with the diameter of housing 100, and in certain embodiments, frid 450 is as the top board of axial flow cabinet-type air conditioner.The bottom of frid 450 offers the slide rail moved for door body top, and the corresponding position crossing air port 421 offers the distance distance more than slide rail with fixed plate of the socket for support bar 480 grafting, socket and fixed plate.Guide-rail plate 410 is annular plate, and guide-rail plate 410 offers the interface for support bar 480 grafting on the plate face of support bar 480, and on this plate face, the slide rail on corresponding frid 450 offers the guide rail for door body basal sliding, and guide rail and slide rail be arranged in parallel.The distance of interface and fixed plate is more than the distance of guide rail with fixed plate.Certainly, support bar 480 is not limited only to grafting with the connection of frid 450 and guide-rail plate 410, it is also possible to be threaded, snap connection etc. and to connect.
In the present embodiment, by frid 450 and the setting of guide-rail plate 410, the installation making support bar 480 is reliable and stable, simultaneously, make between support bar 480 and fixed plate, to leave the gap for axial flow cabinet-type air conditioner door body process, be conducive to door body and wind guiding component collaborative work, reasonably make use of the space of axial flow cabinet-type air conditioner upper chamber 120.
This utility model also proposes a kind of axial flow cabinet-type air conditioner, this axial flow cabinet-type air conditioner includes housing 100 and air-out component 400, the concrete structure of this air-out component 400 is with reference to above-described embodiment, owing to this axial flow cabinet-type air conditioner have employed whole technical schemes of above-mentioned all embodiments, the most at least having all beneficial effects that the technical scheme of above-described embodiment is brought, this is no longer going to repeat them.Wherein, described housing 100 is formed with upper chamber 120, lower chambers 130, runs through the upper air duct of described upper chamber 120 and run through the lower air duct of described lower chambers 130, and described air-out component 400 is installed in described upper chamber 120.Described housing 100 includes fore shell 160 and the back cover 150 being connected with described fore shell 160, the air outlet 110 of described upper air duct is opened in the position of the outlet frame of the corresponding described air-out component 400 of described fore shell 160, and the air inlet 140 of described lower air duct is opened in the position of corresponding described heat exchanger 300 assembly of described back cover 150.Described outlet frame and described back cover 150 surround described upper air duct.
Further, described axial flow cabinet-type air conditioner also includes that ventilation case 200, described ventilation case 200 have diversion air duct, and described diversion air duct connects described upper air duct and described lower air duct.Described ventilation case 200 is provided with sealing flanging near one end of described outlet frame, and described sealing flanging is fitted with described guide-rail plate 410.
Specifically, in the present embodiment, the ventilation case 200 of this axial flow cabinet-type air conditioner includes afflux portion, installation portion and diversion division.Described afflux portion and described diversion division are all arranged in tubular, and the diameter in described afflux portion is more than the diameter of described diversion division.Described afflux portion connects to form diversion air duct with described diversion division, the air inlet 140 of described diversion air duct is formed at one end away from described diversion division, described afflux portion, and the air outlet 110 of described diversion air duct is formed at described diversion division one end away from described afflux portion.Described installation portion is arranged on the lateral wall of described afflux portion and/or diversion division, is installed on axial flow cabinet-type air conditioner for by this ventilation case 200.The bottom of outlet frame has and seals the guide-rail plate 410 that flanging is correspondingly arranged, and seals the plate face laminating of flanging and guide-rail plate 410.Guide-rail plate 410 is identical with the shape sealing flanging, arranges the most ringwise, and the centre of annular is air channel.In certain embodiments, seal flanging and guide-rail plate 410 can connect by the modes such as screw, buckle or viscose glue are fixing.By sealing the setting of flanging so that the upper end of the ventilation case 200 of axial flow cabinet-type air conditioner is more preferable with the connection sealing effectiveness of outlet frame, it is to avoid leak out.
Further, the shape of cross section of described fore shell 160 and described back cover 150 is circular arc and the two surrounds full circle.The gripper shoe 420 of described outlet frame is arc, and the curvature of described arc is identical with the curvature of described fore shell 160.The guide-rail plate 410 of described outlet frame is arranged ringwise, the internal face laminating of the periphery wall of described guide-rail plate 410 and described fore shell 160 and described back cover 150.Being provided with the installation position installing described gripper shoe 420 on the internal face of described fore shell 160, the first side of described gripper shoe 420 is connected with described gripper shoe 420 installation position.The second side relative with described first side of institute's gripper shoe 420 snaps connection with the internal face of described fore shell 160.
Specifically, in the present embodiment, the form of installation position has a lot, as being and the groove etc. of first side shape adaptation.It is provided with button bit on the internal face of fore shell 160, second side is provided with buckle, buckle and button bit and coordinates.Certainly, in other embodiments, gripper shoe 420 can also fixing with back cover 150 be connected.
In the present embodiment, by the first side of gripper shoe 420 is connected with installation position, second side snaps connection with the internal face of housing 100, the installation making gripper shoe 420 is stable, reliable, simultaneously, make the connection between gripper shoe 420 and housing 100 compact, reasonably make use of the space of upper chamber 120, be conducive to improving the stability of axial flow cabinet-type air conditioner.
The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every under inventive concept of the present utility model; utilize the equivalent structure transformation that this utility model description and accompanying drawing content are made, or directly/be indirectly used in other relevant technical fields and be included in scope of patent protection of the present utility model.

Claims (10)

1. an air-out component, it is characterised in that include outlet frame, wind guide vane and support bar;
Described outlet frame includes that gripper shoe, the air outlet of described gripper shoe correspondence axial flow cabinet-type air conditioner offered air port, and described support bar is arranged on the described side crossing air port;The length direction of described support bar is identical with the short transverse of described gripper shoe;
Described wind guide vane includes air dam and is arranged on the rotary column at described air dam two ends, and the rotary column of described wind guide vane one end is rotationally connected with described support bar, and the other end is rotationally connected towards the internal face of back cover with described gripper shoe.
2. air-out component as claimed in claim 1, it is characterised in that on the internal face of described gripper shoe and on described support bar, corresponding described wind guide vane all offers and turns hole, the rotary column at described wind guide vane two ends be respectively arranged in described in turn in hole.
3. air-out component as claimed in claim 1, it is characterized in that, described air-out component also includes stator motor, and described rotary column is arranged along the length direction of described air dam, described rotary column offers guide vane shaft holes of both away from one end of described air dam, and the stator rotating shaft for described stator motor is inserted;Offering the stator motor installation position installed for described stator motor in the outside wall surface of described gripper shoe, described stator motor is installed in described stator motor installation position.
4. air-out component as claimed in claim 3, it is characterised in that institute's air-out component also includes that connecting rod, the quantity of described wind guide vane are multiple;Described connecting rod is flexibly connected with multiple described wind guide vanes respectively, so that the linkage of multiple described wind guide vane, the straight line at described rotary column place is avoided in the position that described connecting rod is connected with described wind guide vane.
5. air-out component as claimed in claim 4, it is characterised in that on the edge of described air dam length direction, be provided with universal driving shaft;It is provided with some universal driving shaft installation positions on described connecting rod along its length, rotates for described universal driving shaft and install;The diameter being smaller in size than described universal driving shaft of described universal driving shaft installation position opening part.
6. air-out component as claimed in claim 1, it is characterised in that the curved setting in plate face of described air dam, the cancave cambered surface of described air dam is arranged down.
7. the air-out component as described in any one in claim 1 to 6, it is characterised in that described air-out component also includes that frid, described frid are connected with the top of described gripper shoe;Described outlet frame also includes that guide-rail plate, described guide-rail plate are arranged on the bottom of described gripper shoe;One end of described support bar is connected with described frid, and the other end is connected with described guide-rail plate.
8. an axial flow cabinet-type air conditioner, it is characterized in that, including air-out component as described in any one in claim 1 to 7 and housing, described housing is formed with upper chamber, lower chambers, runs through the upper air duct of described upper chamber and run through the lower air duct of described lower chambers, and described air-out component is installed in described upper chamber;
Described housing includes fore shell and the back cover being connected with described fore shell, and the air outlet of described upper air duct is opened in the position of the outlet frame of the corresponding described air-out component of described fore shell, and the air inlet of described lower air duct is opened in the position of described back cover correspondence heat exchanger assembly;
Described outlet frame and described back cover surround described upper air duct.
9. axial flow cabinet-type air conditioner as claimed in claim 8, it is characterised in that described axial flow cabinet-type air conditioner also includes that ventilation case, described ventilation case have diversion air duct, and described diversion air duct connects described upper air duct and described lower air duct;Described ventilation case is provided with the guide-rail plate laminating of sealing flanging, described sealing flanging and described outlet frame near one end of described outlet frame.
10. axial flow cabinet-type air conditioner as claimed in claim 8, it is characterised in that the shape of cross section of described fore shell and described back cover is circular arc and the two surrounds full circle;The gripper shoe of described outlet frame is arc, and the curvature of described arc is identical with the curvature of described fore shell;The guide-rail plate of described outlet frame is arranged ringwise, the internal face laminating of the periphery wall of described guide-rail plate and described fore shell and described back cover;
Being provided with the installation position installing described gripper shoe on the internal face of described fore shell, the first side of described gripper shoe is connected with described gripper shoe installation position, and the second side relative with described first side of institute's gripper shoe snaps connection with the internal face of described fore shell.
CN201620022118.9U 2016-01-08 2016-01-08 Air -out subassembly and axial compressor cabinet -type air conditioner Active CN205448225U (en)

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Application Number Priority Date Filing Date Title
CN201620022118.9U CN205448225U (en) 2016-01-08 2016-01-08 Air -out subassembly and axial compressor cabinet -type air conditioner

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Application Number Priority Date Filing Date Title
CN201620022118.9U CN205448225U (en) 2016-01-08 2016-01-08 Air -out subassembly and axial compressor cabinet -type air conditioner

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