CN208012036U - Wind guiding component and air conditioner with it - Google Patents
Wind guiding component and air conditioner with it Download PDFInfo
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- CN208012036U CN208012036U CN201820358777.9U CN201820358777U CN208012036U CN 208012036 U CN208012036 U CN 208012036U CN 201820358777 U CN201820358777 U CN 201820358777U CN 208012036 U CN208012036 U CN 208012036U
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- output shaft
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- guiding component
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Abstract
The utility model provides a kind of wind guiding component and the air conditioner with it, including the first driving portion, second driving portion, air dam and swing flap portion, first driving portion is connected with air dam, first driving portion drive air dam rotatably arranged with, swing flap portion is located at the side of air dam, second driving portion is connected with swing flap portion, second driving portion drive swing flap portion rotatably arranged with, wherein, swing flap portion includes swing flap connecting rod, swing flap connecting rod includes rod body part and snap component, rod body part is connected with air dam, snap component is set to the end of rod body part, snap component is mutually clamped with the second driving portion.It is mutually clamped by the way that snap component is arranged on the swing flap connecting rod in swing flap portion, and by snap component and the second driving portion, to realize the separation in swing flap portion and air dam, setting extends the service life of component in this way, the assembly reliability for enhancing wind guiding component, improves production efficiency, reduces the cost of complete machine.
Description
Technical field
The utility model is related to air-conditioner device technical fields, in particular to a kind of wind guiding component and with its
Air conditioner.
Background technology
In the prior art, the swing flap blade of air conditioner and wind deflector use out-of-alignment setting method.Using this side
Method increases the number of parts of complete machine, improves the cost of complete machine, while increasing the assembly process of product, reduces production
Efficiency.Using scheme in the prior art so that the reliability of the assembly method of wind guiding component is not high, in repeatedly dismounting swing flap leaf
After piece, drives the motor shaft of swing flap blade easily there is a phenomenon where being broken, result in the problem of air dam assembly reliability difference.
Utility model content
The main purpose of the utility model is to provide a kind of wind guiding component and with its air conditioner, to solve existing skill
The problem of air dam assembly reliability difference in art.
To achieve the goals above, one side according to the present utility model provides a kind of wind guiding component, including:The
One driving portion;Second driving portion;Air dam, the first driving portion are connected with air dam, and the first driving portion driving air dam can turn
It is arranged dynamicly;Swing flap portion, swing flap portion are located at the side of air dam, and the second driving portion is connected with swing flap portion, and the second driving portion drives
Dynamic swing flap portion rotatably arranged with;Wherein, swing flap portion includes swing flap connecting rod, and swing flap connecting rod includes:Rod body part, rod body part and wind-guiding
Portion is connected;Snap component, snap component are set to the end of rod body part, and snap component is mutually clamped with the second driving portion.
Further, snap component, including the first fastener and the second fastener, the first fastener and the second fastener edge
The circumferential direction of rod body part is symmetrically arranged, and snap component has unlocked position and lock position, when snap component is located at lock position
When, pressing snap component can be such that the first fastener of part and the second partial fastener is moved out along the radial direction of rod body part
It moves to unlocked position.
Further, wind guiding component further includes:Support portion, support portion are connected with air dam, and rod body part passes through support portion
Be connected with air dam, one of in air dam and swing flap portion it is opposite another rotatably arranged with.
Further, there is the first driving portion the first output shaft, the second driving portion to have the second output shaft, the first output shaft
It is coaxially disposed with the second output shaft.
Further, air dam includes:Wind deflector, wind deflector are connect with the first driving portion, and wind deflector is along the first output shaft
Axis direction be extended.
Further, air dam includes wind deflector, and the first driving portion further includes with the first output shaft, support portion:First
Supporting block, the first supporting block are set to the side of close first driving portion of wind deflector, connecting hole are provided in the first supporting block,
First output shaft is arranged in connecting hole, and the peripheral surface of the first output shaft and the hole wall of connecting hole are in mating connection.
Further, the cross section of the radial direction of connecting hole is in cross bath, is arranged on the peripheral surface of the first output shaft
Have and the matched convex ribs of cross bath.
Further, wind guiding component further includes support portion, and support portion includes:Second supporting block, the second supporting block, which is placed in, to be led
Aerofoil close to the second driving portion side, the second supporting block be located at wind deflector towards the side of swing flap connecting rod and relatively set
It sets, the end set of the second supporting block is useful for the barb being connected with installation foundation, and wind deflector installs base by the way that barb is opposite
Plinth rotatably arranged with.
Further, support portion further includes:First supporting block, the first supporting block are set to being driven close to first for wind deflector
The side in portion;Third supporting block, third supporting block are connected with wind deflector, and third supporting block is set to the first supporting block and second
Between supporting block, through-hole is provided in third supporting block, the center of through-hole is overlapped with the second output shaft axis.
Further, swing flap connecting rod is arranged along the length direction of air dam, one end of swing flap connecting rod and the second output shaft phase
Connection, the axis of swing flap connecting rod and the first output shaft and the second output shaft are coaxially disposed.
Further, swing flap portion further includes:Swing flap blade, swing flap blade are multiple, are arranged to multiple swing flap spacing with blades
In on swing flap connecting rod, the second output shaft drives swing flap link rotatable to change the swing flap direction of multiple swing flap blades.
Further, the second driving portion includes with the second output shaft, the first fastener:Cantilever, the first end of cantilever with
Rod body part is connected, and the second end of cantilever extends outwardly setting along the radial direction of rod body part;Handle, the middle part of handle and cantilever
Second end be connected, the first end of handle extends towards the second output shaft and be increasingly towards the axis side bending of rod body part with
Hook portion is formed, the second end of handle is gradually distance from the second output shaft along the axis direction of rod body part and is extended, and presses handle
Second end can make the first end of handle move outwardly to unlocked position along the radial direction of rod body part, and hook portion is for being connected in second
On the outer surface of output shaft, alternatively, hook portion is for being connected in installation foundation.
Further, the structure of the second fastener is identical as the structure of the first fastener, and the second fastener is for being connected in
On the outer surface of second output shaft, alternatively, the second fastener is for being connected in installation foundation.
Further, the second output shaft includes output shaft body, and the axial direction for exporting shaft body is provided with and is used for and bar
The axis hole that body portion is connected is exported and is provided on the peripheral surface of shaft body and matched first defining flange of hook portion, Huo Zhean
It is provided on the basis of dress and matched second defining flange of hook portion.
Further, the cross section of the radial direction of axis hole is hexagonal.
Another aspect according to the present utility model, provides a kind of indoor unit, including wind guiding component, and wind guiding component is above-mentioned
Wind guiding component.
Further, indoor unit includes:Shell, wind guiding component are set on shell, and axle sleeve is provided on shell, and second is defeated
Shaft is arranged in axle sleeve, and the barb of the second supporting block of wind guiding component is set on the outer surface of axle sleeve.
Further, when the snap component of wind guiding component is located at lock position, snap component is mutually clamped with the second output shaft,
Alternatively, when the snap component of wind guiding component is located at lock position, snap component is mutually clamped with axle sleeve.
Another aspect according to the present utility model, provides a kind of air conditioner, including wind guiding component, and wind guiding component is above-mentioned
Wind guiding component.
Using the technical solution of the utility model, by the way that snap component is arranged on the swing flap connecting rod in swing flap portion, and will card
Buckle assembly is mutually clamped with the second driving portion, to realize that the separation in swing flap portion and air dam, in this way setting extend the service life of component,
The assembly reliability for enhancing wind guiding component, improves production efficiency, reduces the cost of complete machine.
Description of the drawings
The accompanying drawings which form a part of this application are used to provide a further understanding of the present invention, this practicality
Novel illustrative embodiments and their description are not constituted improper limits to the present invention for explaining the utility model.
In the accompanying drawings:
Fig. 1 shows the structural schematic diagram of the embodiment of wind guiding component according to the present utility model;
Fig. 2 shows the left side structure schematic diagrams of the embodiment of wind guiding component according to the present utility model;
Fig. 3 shows the right side structure schematic diagram of the embodiment of wind guiding component according to the present utility model;
Fig. 4 shows the buckle combining structure schematic diagram of the embodiment of wind guiding component according to the present utility model;
Fig. 5 shows the enlarged structure schematic diagram at the A in Fig. 4.
Wherein, above-mentioned attached drawing includes the following drawings label:
10, air dam;
11, the first driving portion;111, the first output shaft;112, convex ribs;
12, wind deflector;13, the first supporting block;131, connecting hole;132, cross bath;14, the second supporting block;141, it falls
Hook;15, third supporting block;
20, swing flap portion;
21, the second driving portion;211, the second output shaft;212, axis hole;213, the first defining flange;
22, swing flap blade;23, swing flap connecting rod;231, rod body part;
24, snap component;241, the first fastener;242, the second fastener;243, handle;244, cantilever;245, hook portion;
30, shell;31, axle sleeve;311, the second defining flange.
Specific implementation mode
It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase
Mutually combination.The utility model will be described in detail below with reference to the accompanying drawings and embodiments.
In conjunction with shown in Fig. 1 to Fig. 5, embodiment according to the present utility model provides a kind of wind guiding component.
Specifically, as shown in Figure 1, the wind guiding component includes the first driving portion 11, the second driving portion 21, air dam 10 and sweeps
Wind portion 20, the first driving portion 11 are connected with air dam 10, and the first driving portion 11 drives air dam 10 rotatably arranged with swing flap
Portion 20 is located at the side of air dam 10, and the second driving portion 21 is connected with swing flap portion 20, and the second driving portion 21 drives swing flap portion 20
Rotatably arranged with, wherein swing flap portion 20 includes swing flap connecting rod 23, and swing flap connecting rod 23 includes rod body part 231 and snap component 24,
Rod body part 231 is connected with air dam 10, and snap component 24 is set to the end of rod body part 231, and snap component 24 and second is driven
Dynamic 21 phase of portion clamping.
In the present embodiment, by being arranged snap component on the swing flap connecting rod in swing flap portion, and by snap component and second
Driving portion is mutually clamped, to realize that the separation in swing flap portion and air dam, in this way setting extend the service life of component, enhance wind-guiding group
The assembly reliability of part, improves production efficiency, reduces the cost of complete machine.
Snap component 24 includes the first fastener 241 and the second fastener 242, the first fastener 241 and the second fastener
242 are symmetrically arranged along the circumferential direction of rod body part 231, and snap component 24 has unlocked position and lock position, when snap component 24
When positioned at lock position, pressing snap component 24 can make part the first fastener 241 and the second partial fastener 242 along bar
The radial direction in body portion 231 moves outwardly to unlocked position.
Wherein, wind guiding component further includes support portion, and support portion is connected with air dam 10, and rod body part 231 passes through support portion
Be connected with air dam 10, one of in air dam 10 and swing flap portion 20 it is opposite another rotatably arranged with.It sets in this way
It sets and is convenient for 20 cooperation of air dam 10 and swing flap portion, improve the reliability of body.
In the present embodiment, there is the first driving portion 11 first output shaft 111, the second driving portion 21 to have the second output shaft
211, the first output shaft 111 and the second output shaft 211 are coaxially disposed.Setting is convenient for improving the stability of output shaft in this way, and drops
Low vibration reduces noise.
In addition, air dam 10 includes wind deflector 12, wind deflector is connect with the first driving portion 11, and wind deflector 12 is along the first output
The axis direction of axis 111 is extended.It is arranged in this way and preferably plays the role of wind-guiding convenient for wind deflector 12.
As shown in Fig. 2, air dam 10 includes wind deflector 12, the first driving portion 11 has the first output shaft 111, and support portion is also
Including the first supporting block 13, the first supporting block 13 is set to being supported close to the side of the first driving portion 11, first for wind deflector 12
Connecting hole 131 is provided on block 13, the first output shaft 111 is arranged in connecting hole 131, the peripheral surface of the first output shaft 111 with
The hole wall of connecting hole 131 is in mating connection.Setting preferably connects convenient for drive shaft and the first supporting block in this way, so that the
One driving portion 11 preferably acts on wind deflector 12, and wind deflector 12 is made to change direction.
Further, the cross section of the radial direction of connecting hole 131 is in cross bath 132, the periphery of the first output shaft 111
It is provided on face and the matched convex ribs of cross bath 112.Setting is so that drive shaft connects more with the first supporting block in this way
Closely.
As shown in Figure 2 and Figure 5, wind guiding component further includes support portion, and support portion further includes the second supporting block 14, the second support
Block 14 is placed in the side of close second driving portion 21 of wind deflector 12, and the second supporting block 14 is located at connecting towards swing flap for wind deflector 12
The side of bar 23 is arranged, and the end set of the second supporting block 14 is useful for the barb being connected with installation foundation 141, wind deflector 12
By barb 141 with respect to installation foundation rotatably arranged with.Setting is so that the second supporting block can be played to wind deflector 12 in this way
The supporting role circumferentially rotated, but because the setting of barb 141 is convenient for the dismounting of other component, installation foundation here is the second drive
The motor casing of electric machine assembly in dynamic portion, motor casing play the role of protecting motor, motor casing that can be wholely set with shell 30,
Setting can be individually connect with motor.
As shown in Figure 4 and Figure 5, support portion further includes the first supporting block 13 and third supporting block 15, and the first supporting block 13 is set
It is placed in the side of close first driving portion 11 of wind deflector 12, third supporting block 15 is connected with wind deflector 12, third supporting block
15 are set between the first supporting block 13 and the second supporting block 14, are provided with through-hole in third supporting block 15, the center of through-hole with
Second output shaft, 211 axis overlaps.It is arranged in this way and circumferential supporting role is played to swing flap connecting rod 23 convenient for third supporting block 15.
Such as Fig. 3 and Fig. 4, swing flap connecting rod 23 is connected by support portion with air dam 10, and swing flap connecting rod 23 is along air dam 10
Length direction setting, one end of swing flap connecting rod 23 is connected with the second output shaft 211, the axis of swing flap connecting rod 23 and first defeated
Shaft 111 and the coaxial arrangement of the second output shaft 211 are arranged in this way in order to make the first output shaft 111 and the second output shaft 211 reduce
Vibration and noise.
Further, swing flap portion further includes swing flap blade, and swing flap blade is multiple, and multiple swing flap blades 22 are positioned apart from
In on swing flap connecting rod 23, the second output shaft 211 drives swing flap connecting rod 23 to rotate to change the swing flap direction of multiple swing flap blades 22.
Setting is preferably played the role of changing wind direction convenient for swing flap portion 20 in this way.
As shown in figure 5, it includes cantilever 244 and hand that the second driving portion 21, which has the second output shaft 211, the first fastener 241,
The first end of handle 243, cantilever 244 is connected with rod body part 231, the second end of cantilever 244 along rod body part 231 radial direction to
It is outer to be extended;The middle part of handle 243 is connected with the second end of cantilever 244, first end the second output shaft of direction of handle 243
211 extend and be increasingly towards rod body part 231 axis side bend to form hook portion 245, the second end of handle 243 is along rod body part
231 axis direction is gradually distance from the second output shaft 211 and is extended, and the second end of pressing handle 243 can make the of handle 243
One end moves outwardly to unlocked position along the radial direction of rod body part 231, and hook portion 245 is for being connected in the second output shaft 211
On outer surface, alternatively, hook portion 245 is for being connected in installation foundation.Here installation foundation is that the second driving portion powers on unit
The motor casing of part, motor casing play the role of protecting motor, motor casing that can be wholely set with shell 30, can also be with motor list
Solely connection setting.Setting is clamped convenient for snap component 24 with the outer surface of the second output shaft 211 or installation foundation in this way, excellent
Selection of land, snap component 24 and the outer surface of the second output shaft 211 are clamped, and setting in this way is defeated convenient for snap component 24 and second
Shaft 211 rotates at the same speed, will not send out abnormal sound because generating relative movement.
Further, the structure of the second fastener 242 is identical as the structure of the first fastener 241, and the second fastener 242 is used
In on the outer surface for being connected in the second output shaft 211, alternatively, the second fastener 242 is for being connected in installation foundation.It sets in this way
It sets and keeps symmetrical convenient for snap component 24, preferably play connection function.
In the present embodiment, the second output shaft 211 includes output shaft body, and the axial direction setting for exporting shaft body is useful
In the axis hole 212 being connected with rod body part 231, exports and be provided on the peripheral surface of shaft body and hook portion 245 matched first
Defining flange 213, alternatively, being provided on installation foundation and 245 matched second defining flange 311 of hook portion.It is arranged so just
It is connected on the first defining flange 213, is played to the axial direction of the second output shaft 211 in the hook portion 245 of snap component 24
Position-limiting action, and snap component 24 is rotated along the circumferential direction of the first defining flange 213, alternatively, snap component 24
Hook portion 245 is connected on the second defining flange 311, plays the position-limiting action of the axial direction to the second output shaft 211, and make
Snap component 24 is rotated along the circumferential direction of the second defining flange 311.
Wherein, the cross section of the radial direction of axis hole 212 is hexagonal.Setting passes through convenient for the second output shaft 211 in this way
Axis hole 212 preferably connect cooperation with rod body part 231.
According to Fig. 1 to Fig. 5, the wind guiding component of above-described embodiment can be also used for air-conditioner device technical field, i.e.,
Other side according to the present utility model provides a kind of indoor unit.The indoor unit includes wind guiding component, and wind guiding component is upper
State the wind guiding component in embodiment.
In the present embodiment, indoor unit includes shell 30, and wind guiding component is set on shell 30, and axis is provided on shell 30
Set 31, the second output shaft 211 is arranged in axle sleeve 31, and the barb 141 of the second supporting block 14 of wind guiding component is set in axle sleeve 31
Outer surface on.Setting is convenient for easily removing air dam in this way.
In the present embodiment, when the snap component 24 of wind guiding component is located at lock position, snap component 24 and second exports
211 phase of axis is clamped, alternatively, when the snap component 24 of wind guiding component is located at lock position, snap component 24 is clamped with 31 phase of axle sleeve.
Setting is convenient for easily removing swing flap portion in this way.
In addition, the wind guiding component of above-described embodiment is in air-conditioner device technical field, it is according to the present utility model another
A aspect additionally provides a kind of air conditioner, which includes wind guiding component, and wind guiding component is the wind-guiding group in above-described embodiment
Part.
In the prior art, the reliability of the assembly method of swing flap blade is not high, and after repeatedly dismounting swing flap blade, driving is swept
The motor shaft of air blade is easily there is a phenomenon where being broken, and in order to solve this problem, improves a kind of assembly method in new swing flap portion,
I.e. swing flap connecting rod is clamped by snap component in driving structure, while swing flap portion and air dam coaxial transmission, improves general assembly life
Produce efficiency and machine product reliability.
As shown in Figure 1, in order to reduce complete machine cost, Assembling Production efficiency is improved, improves the reliability of complete machine, this practicality is new
Type provides a kind of new-type assembly method of swing flap blade, as we can see from the figure swing flap blade be by the first supporting block 13,
Second supporting block 14 is mounted on wind deflector.Wherein the first driving portion 11 is for driving the wind deflector, the second driving portion 21 to be
For driving swing flap blade.The first output shaft 111 of driving wind deflector is seen from figure and drives the second defeated of swing flap blade
Shaft 211 is the as Driven by Coaxial on same axis.
As shown in Figures 3 to 5, snap component 24 is designed on the connecting pin of swing flap connecting rod 23, operation principle is:
When assembly or disassembly when swing flap portion, manually actuated handle 243, by the deformation of cantilever 244,245 opening of hook portion can open, when
When release handle, 245 opening of hook portion can reply original place, realize the assembly or disassembly of swing flap blade.In addition, in swing flap leaf connecting rod
Six stupefied rod structures are designed on end, are designed with six stupefied column jacks on the second output shaft in driving structure, it is stupefied that stupefied column is plugged on six
In post holes, the hexagonal kind of drive is realized.Improvement through the above structure, motor driving shaft is broken after avoiding repeatedly dismounting
The problem of, improve the reliability of complete machine.
In addition, there are two schemes for the clamping of swing flap connecting rod:
This snap component of the first scheme, swing flap connecting rod 23 has been stuck on installation foundation, wherein installation foundation can
To be the axle sleeve 31 of motor on electric machine assembly, the second defining flange 311 on axle sleeve 31 in Fig. 5 is exactly to buckle for convenience
Component carries out clamping and does not depart from and design.Wherein, axle sleeve 31 does not move, i.e., snap component and axis on swing flap connecting rod
Have relative motion between set, this structure, which can facilitate, to be dismantled, but existing defects, the snap component on swing flap connecting rod with
It is to have relative motion between the axle sleeve 31 of motor, will produce friction, to generates abnormal sound.
Second scheme, this snap component on swing flap connecting rod is to be connected to the first defining flange of the second output shaft
On 213, the rotation of the second output shaft drives swing flap link rotatable.Snap component on swing flap connecting rod is with the second output shaft
Rotation, is relatively stationary, this design can effectively avoid the generation because of the abnormal sound that friction is brought, and improve user between the two
Use feeling.
The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this
For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model
Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.
Claims (19)
1. a kind of wind guiding component, which is characterized in that including:
First driving portion (11);
Second driving portion (21);
Air dam (10), first driving portion (11) are connected with the air dam (10), and first driving portion (11) is driven
Move the air dam (10) rotatably arranged with;
Swing flap portion (20), the swing flap portion (20) are located at the side of the air dam (10), second driving portion (21) and institute
Swing flap portion (20) is stated to be connected, second driving portion (21) drive the swing flap portion (20) rotatably arranged with;
Wherein, the swing flap portion (20) includes swing flap connecting rod (23), and the swing flap connecting rod (23) includes:
Rod body part (231), the rod body part (231) are connected with the air dam (10);
Snap component (24), the snap component (24) are set to the end of the rod body part (231), the snap component (24)
It is mutually clamped with second driving portion (21).
2. wind guiding component according to claim 1, which is characterized in that the snap component (24) includes the first fastener
(241) and the second fastener (242), first fastener (241) and second fastener (242) are along the rod body part
(231) circumferential direction is symmetrically arranged, and the snap component (24) has unlocked position and lock position, when the snap component
(24) when being located at the lock position, pressing snap component (24) can make first fastener (241) of part and partial
Second fastener (242) moves outwardly to the unlocked position along the radial direction of the rod body part (231).
3. wind guiding component according to claim 1, which is characterized in that the wind guiding component further includes:
Support portion, the support portion are connected with the air dam (10), and the rod body part (231) passes through the support portion and institute
It states air dam (10) to be connected, another is rotatable relatively one of in the air dam (10) and the swing flap portion (20)
Ground is arranged.
4. wind guiding component according to claim 1, which is characterized in that first driving portion (11) has the first output shaft
(111), second driving portion (21) has the second output shaft (211), first output shaft (111) and second output
Axis (211) is coaxially disposed.
5. wind guiding component according to claim 1, which is characterized in that first driving portion (11) has the first output shaft
(111), the air dam (10) includes:
Wind deflector (12), the wind deflector are connect with the first driving portion (11), and the wind deflector (12) is along first output shaft
(111) axis direction is extended.
6. wind guiding component according to claim 3, which is characterized in that the air dam (10) includes wind deflector (12), institute
The first driving portion (11) is stated with the first output shaft (111), the support portion further includes:
First supporting block (13), first supporting block (13) are set to close first driving portion (11) of the wind deflector (12)
Side, be provided with connecting hole (131) on first supporting block (13), first output shaft (111) is arranged in the company
It connects in hole (131), the hole wall of the peripheral surface and the connecting hole (131) of first output shaft (111) is in mating connection.
7. wind guiding component according to claim 6, which is characterized in that the radial direction of the connecting hole (131) it is transversal
Face is in cross bath (132), is provided on the peripheral surface of first output shaft (111) and matches with the cross bath (132)
The convex ribs (112) of conjunction.
8. wind guiding component according to claim 5, which is characterized in that the wind guiding component further includes support portion, the branch
Support part includes:
Second supporting block (14), second supporting block (14) are placed in close second driving portion (21) of the wind deflector (12)
Side, second supporting block (14) are located at the side setting of the direction swing flap connecting rod (23) of the wind deflector (12), institute
The end set for stating the second supporting block (14) is useful for the barb (141) being connected with installation foundation, and the wind deflector (12) is logical
Cross the relatively described installation foundation of the barb (141) rotatably arranged with.
9. wind guiding component according to claim 8, which is characterized in that the support portion further includes:
First supporting block (13), first supporting block (13) are set to close first driving portion (11) of the wind deflector (12)
Side;
Third supporting block (15), the third supporting block (15) are connected with the wind deflector (12), the third supporting block
(15) it is set between first supporting block (13) and second supporting block (14), is arranged on the third supporting block (15)
There are through-hole, the center of the through-hole to be overlapped with the second output shaft (211) axis.
10. wind guiding component according to claim 4, which is characterized in that
The swing flap connecting rod (23) is arranged along the length direction of the air dam (10), one end of the swing flap connecting rod (23) and institute
It states the second output shaft (211) to be connected, the axis of the swing flap connecting rod (23) and first output shaft (111) and described second
Output shaft (211) is coaxially disposed.
11. wind guiding component according to claim 4, which is characterized in that the swing flap portion (20) further includes:
Swing flap blade (22), the swing flap blade are multiple, and multiple swing flap blades (22) are positioned apart from the swing flap
On connecting rod (23), second output shaft (211) drives swing flap connecting rod (23) rotation to change multiple swing flap blades
(22) swing flap direction.
12. wind guiding component according to claim 2, which is characterized in that second driving portion (21) has the second output
Axis (211), first fastener (241) include:
The first end of cantilever (244), the cantilever (244) is connected with the rod body part (231), and the of the cantilever (244)
Two ends extend outwardly setting along the radial direction of the rod body part (231);
The middle part of handle (243), the handle (243) is connected with the second end of the cantilever (244), the handle (243)
First end extend towards second output shaft (211) and be increasingly towards the rod body part (231) axis side bend with
Form hook portion (245), the second end of the handle (243) is gradually distance from described the along the axis direction of the rod body part (231)
Two output shafts (211) are extended, and pressing the second end of the handle (243) can make the first end of the handle (243) along institute
The radial direction for stating rod body part (231) moves outwardly to the unlocked position, and the hook portion (245) is for being connected in described second
On the outer surface of output shaft (211), alternatively, the hook portion (245) is for being connected in installation foundation.
13. wind guiding component according to claim 12, which is characterized in that the structure of second fastener (242) and institute
The structure for stating the first fastener (241) is identical, and second fastener (242) is for being connected in second output shaft (211)
Outer surface on, alternatively, second fastener (242) is for being connected in the installation foundation.
14. wind guiding component according to claim 12, which is characterized in that
Second output shaft (211) include output shaft body, it is described output shaft body axial direction be provided with for institute
The axis hole (212) that rod body part (231) is connected is stated, is provided with and the hook portion (245) on the peripheral surface of the output shaft body
Matched first defining flange (213), or
It is provided on the installation foundation and matched second defining flange (311) of the hook portion (245).
15. wind guiding component according to claim 14, which is characterized in that the radial direction of the axis hole (212) it is transversal
Face is hexagonal.
16. a kind of indoor unit, including wind guiding component, which is characterized in that the wind guiding component is in any one of claim 1 to 15
The wind guiding component.
17. indoor unit according to claim 16, which is characterized in that the indoor unit includes:
Shell (30), the wind guiding component are set on the shell (30), and axle sleeve (31) is provided on the shell (30), the
Two output shafts (211) are arranged in the axle sleeve (31), and the barb (141) of the second supporting block (14) of the wind guiding component is arranged
On the outer surface of the axle sleeve (31).
18. indoor unit according to claim 17, which is characterized in that the snap component (24) of the wind guiding component is located at lock
When stop bit is set, the snap component (24) is mutually clamped with second output shaft (211), alternatively, the buckle of the wind guiding component
When component (24) is located at lock position, the snap component (24) is mutually clamped with the axle sleeve (31).
19. a kind of air conditioner, including wind guiding component, which is characterized in that the wind guiding component is in any one of claim 1 to 15
The wind guiding component.
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CN110274378A (en) * | 2019-07-18 | 2019-09-24 | 格力电器(武汉)有限公司 | Dismountable swing flap blading and air outlet device |
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CN110274378A (en) * | 2019-07-18 | 2019-09-24 | 格力电器(武汉)有限公司 | Dismountable swing flap blading and air outlet device |
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