CN209026953U - Air guide mechanism and air conditioner indoor unit with same - Google Patents
Air guide mechanism and air conditioner indoor unit with same Download PDFInfo
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- CN209026953U CN209026953U CN201821834578.7U CN201821834578U CN209026953U CN 209026953 U CN209026953 U CN 209026953U CN 201821834578 U CN201821834578 U CN 201821834578U CN 209026953 U CN209026953 U CN 209026953U
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- 230000000712 assembly Effects 0.000 claims abstract description 8
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- 238000004378 air conditioning Methods 0.000 abstract description 3
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Abstract
The utility model provides a machine in air conditioning that air guide mechanism and have it, air guide mechanism includes: the air guide components are arranged at intervals, the air guide components and the air channel assemblies are arranged in a one-to-one correspondence mode, and each air guide component is arranged on the outer side of the corresponding air channel assembly; wherein, wind-guiding part includes: the air guide plate is provided with a first position for covering the air outlet of the air channel assembly and a second position for avoiding the air outlet of the air channel assembly and guiding air to the air outlet, and the air guide plate is movably arranged between the first position and the second position; the transmission assembly is in transmission connection with the air deflector so as to enable the air deflector to move under the action of the transmission assembly; and the rotating assembly is connected with the transmission assembly and is in transmission connection with the air deflector so as to drive the air deflector to rotate when the air deflector is at the second position. The problem of among the prior art air guide mechanism wind-guiding effect relatively poor is solved.
Description
Technical field
The utility model relates to household appliance technical fields, in particular to a kind of wind guiding mechanism and with its air conditioning chamber
Interior machine.
Background technique
Currently, traditional cabinet-type air conditioner be mostly by using rotary drum open air port or gate panel sliding opening air port mode come into
Row wind-guiding.
However, the wind-guiding angle and wind effect of above-mentioned wind-guiding mode are poor.
Utility model content
It is existing to solve the main purpose of the utility model is to provide a kind of wind guiding mechanism and with its air conditioner indoor unit
The problem for having the wind guiding mechanism wind effect in technology poor.
To achieve the goals above, one aspect according to the present utility model provides a kind of wind guiding mechanism, for more
The air outlet of a ducting assembly carries out wind-guiding, and wind guiding mechanism includes: multiple wind guide components, multiple wind guide component interval settings, more
A wind guide component is arranged correspondingly with multiple ducting assemblies, and the outer of corresponding ducting assembly is arranged in each wind guide component
Side;Wherein, wind guide component includes: wind deflector, and wind deflector has first position and the use for covering the air outlet for setting ducting assembly
The second position of wind-guiding is carried out in the air outlet for avoiding ducting assembly and to the air outlet, wind deflector is in first position and second
It is movably disposed between setting;Transmission component, transmission component and wind deflector are sequentially connected, so that work of the wind deflector in transmission component
With lower movement;Rotary components, rotary components are connect with transmission component, and rotary components and wind deflector are sequentially connected, in wind deflector
Rotary components drive wind deflector rotation when in the second position, so that wind deflector is to the air outlet outflow by corresponding ducting assembly
Gas carry out wind-guiding.
Further, ducting assembly is two, and wind guide component is two, two wind guide component interval settings, two wind-guidings
Component is arranged correspondingly with two ducting assemblies, and the outside of corresponding ducting assembly is arranged in each wind guide component.
Further, driving rack includes main part and wheel teeth portion, and main part is at least partially provided with wheel teeth portion, wheel
Teeth portion is arc-shaped rack.
Further, transmission component further include: support portion, support portion are arranged in the indoor unit casing of air conditioner indoor unit
Side, the first transmission gear are fixed on support portion, and driving rack is movably disposed with respect to support portion.
Further, driving rack has guide channel, transmission component further include: first bearing, first bearing setting exist
On support portion, guide channel matches with first bearing, and first bearing is plugged in guide channel and the outer peripheral surface of first bearing
It is in contact with the inner wall of guide channel, so that the first transmission gear moves under guide channel and the guiding role of first bearing.
Further, transmission component further include: second bearing, second bearing are arranged on support portion, second bearing and biography
The side of carry-over bar is in contact to be supported to driving rack.
Further, second bearing is multiple, and multiple second bearings are arranged along preset direction interval to form tracks,
So that driving rack is moved along tracks.
Further, rotary components include transmission gear, and transmission gear is rotatably arranged, and wind deflector and transmission gear connect
It connects, so that wind deflector rotates under the action of transmission gear.
Further, rotary components include the first driving section and the second driving section, and the first driving section and the second driving section pass
Dynamic connection, so that the second driving section rotates under the action of the first driving section;Second driving section is connect with wind deflector, so that wind-guiding
Plate rotates under the action of the second driving section.
Further, the first driving section is the second driving gear, and the second driving section is the second driven gear, the second driving tooth
Wheel and the second driven gear engaged transmission, wind deflector is fixedly connected with the second driven gear, so that wind deflector is in the second driving tooth
It takes turns and is rotated under the action of the second driven gear.
Further, rotary components further include: the second driving motor, the second driving motor and the driving of the second driving gear connect
It connects, so that the second driving gear rotates under the driving effect of the second driving motor.
Further, rotary components further include: support, support are connect with transmission component, and the second driving motor, second are actively
Gear and the second driven gear are arranged in support.
Further, wind deflector has interconnecting piece, and the inside of wind deflector is arranged in interconnecting piece, and interconnecting piece has card apertured;
Clamping part is provided on second driving section, clamping part matches with card apertured, and clamping part is fastened in card apertured, so that wind deflector
It is fixed with the second driving section.
Further, wind guide component includes multiple transmission components and multiple rotary components, transmission component and rotary components at
To setting, the multipair transmission component being arranged in pairs and rotary components are arranged along the extending direction interval of wind deflector, and wind deflector has
Multiple interconnecting pieces, multiple interconnecting pieces are arranged at intervals along the extending direction of wind deflector;Multiple interconnecting pieces and multiple rotary components
It is arranged correspondingly, so that each interconnecting piece is connected with corresponding rotary components.
Another aspect according to the present utility model provides a kind of air conditioner indoor unit, including wind guiding mechanism, wherein wind-guiding
Mechanism is above-mentioned wind guiding mechanism.
The wind guiding mechanism of the utility model includes multiple wind guide components, and wind guide component include wind deflector, transmission component and
Rotary components, wind deflector move between the first position and the second position under the action of transmission component, and release in wind deflector
When being in the second position afterwards, its rotation is driven by rotary components, wind deflector is made to carry out wind-guiding to air outlet, which uses
Wind-guiding mode after wind deflector is released considerably increases wind-guiding so that wind-guiding span of slab is big and realizes the left and right swing flap of wind deflector
Angle strengthens wind effect.
Detailed description of the invention
The accompanying drawings constituting a part of this application is used to provide a further understanding of the present invention, this is practical
Novel illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model.
In the accompanying drawings:
The structural schematic diagram of air conditioner indoor unit when the wind guiding mechanism that Fig. 1 shows the utility model is in first position;
The structural schematic diagram of air conditioner indoor unit when being in the second position Fig. 2 shows the wind guiding mechanism of the utility model;
Fig. 3 shows the cross-sectional view of the air conditioner indoor unit in Fig. 1;
Fig. 4 shows the cross-sectional view of the air conditioner indoor unit in Fig. 2;
Fig. 5 shows the structural schematic diagram of the embodiment of wind guiding mechanism according to the present utility model;
Fig. 6 shows the transmission component of wind guiding mechanism according to the present utility model and the structural schematic diagram of rotary components;With
And
Fig. 7 shows the partial enlarged view of wind guiding mechanism according to the present utility model.
Wherein, the above drawings include the following reference numerals:
10, wind guide component;11, wind deflector;111, interconnecting piece;12, transmission component;121, the first transmission gear;122, it passes
Carry-over bar;1221, main part;1222, teeth portion is taken turns;1223, guide channel;123, support portion;124, first bearing;125, second
Bearing;126, rotary components;1261, the first driving section;1262, the second driving section;1263, the second driving motor;1264, it props up
Seat;1265, clamping part;20, indoor unit casing.
Specific embodiment
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.
The utility model provides a kind of wind guiding mechanism, please refers to Fig. 1 to Fig. 7, for the outlet air to multiple ducting assemblies
Mouth carries out wind-guiding, and wind guiding mechanism includes: multiple wind guide components 10, the setting of multiple intervals of wind guide components 10, multiple wind guide components 10
It is arranged correspondingly with multiple ducting assemblies, the outside of corresponding ducting assembly is arranged in each wind guide component 10;Wherein, it leads
Wind part 10 includes: wind deflector 11, and wind deflector 11 has for covering the first position for the air outlet for setting ducting assembly and for keeping away
Allow ducting assembly air outlet and to the air outlet carry out wind-guiding the second position, wind deflector 11 is in first position and the second position
Between be movably disposed;Transmission component 12, transmission component 12 and wind deflector 11 are sequentially connected, so that wind deflector 11 is in transmission group
It is moved under the action of part 12;Rotary components 126, rotary components 126 are connect with transmission component 12, rotary components 126 and wind deflector
11 transmission connections, with the drive of rotary components 126 rotation of wind deflector 11 when wind deflector 11 is in the second position, so that wind deflector 11
Wind-guiding is carried out to the gas of the air outlet outflow by corresponding ducting assembly.
The wind guiding mechanism of the utility model includes multiple wind guide components 10, and wind guide component 10 includes wind deflector 11, transmission
Component 12 and rotary components 126, wind deflector 11 move between the first position and the second position under the action of transmission component 12,
And wind deflector 11 release after be in the second position when, by rotary components 126 drive its rotation, make wind deflector 11 to air outlet into
Row wind-guiding, wind-guiding mode after which is released using wind deflector 11, so that 11 span of wind deflector is big and realizes wind deflector
11 left and right swing flap, considerably increases wind-guiding angle, strengthens wind effect.
When it is implemented, as shown in Figure 1, when wind deflector 11 is located at first position, the room of wind deflector 11 and air conditioner indoor unit
Interior machine side plate is concordant.
In the present embodiment, as shown in Figures 1 to 4, ducting assembly is two, and wind guide component 10 is two, two wind-guidings
The setting of the interval of component 10, two wind guide components 10 are arranged correspondingly with two ducting assemblies, and each wind guide component 10 is arranged
In the outside of corresponding ducting assembly.Such setting the outlet air to two ducting assemblies can carry out wind-guiding respectively.
In order to realize the release of wind deflector 11, wind guide component 10 further includes transmission component 12, one end position of transmission component 12
In in the indoor unit casing 20 of air conditioner indoor unit, the other end of transmission component 12 is connect with wind deflector 11, and transmission component 12 is extremely
Small part is movably disposed to drive wind deflector 11 to move to first position or the second position.
When it is implemented, transmission component 12 includes the first transmission gear 121 and the biography matched with the first transmission gear 121
Carry-over bar 122, driving rack 122 are connect with wind deflector 11, so that wind deflector 11 is in the first transmission gear 121 and driving rack
It is moved under the action of 122;Wherein, the first transmission gear 121 is arranged on support portion 123.The reliability of the drive mechanism is higher.
In order to drive the first transmission gear 121 rotate, transmission component 12 include the first driving motor, the first driving motor with
First transmission gear 121 is drivingly connected, so that the first transmission gear 121 rotates.
When it is implemented, as shown in fig. 6, driving rack 122 includes main part 1221 and wheel teeth portion 1222, main part 1221
Be at least partially provided with wheel teeth portion 1222, wheel teeth portion 1222 be arc-shaped rack.
When it is implemented, driving rack 122 is arc-shaped setting.
In the present embodiment, as shown in fig. 6, transmission component 12 further includes support portion 123, support portion 123 is arranged in air-conditioning
The inside of the indoor unit casing 20 of indoor unit, the first transmission gear 121 are fixed on support portion 123,122 phase of driving rack
Support portion 123 is movably disposed.Such setting plays the support to the first transmission gear 121 and driving rack 122
Effect.Wherein, support portion 123 is connected and fixed with other components inside air conditioner indoor unit and connect.
When it is implemented, as shown in Figure 5 and Figure 6, support portion 123 has recessed portion, the first transmission gear 121 and driving cog
Item 122 is arranged in recessed portion.Such setting plays the role of avoiding other components inside air conditioner indoor unit.
When it is implemented, as shown in Figure 5 and Figure 6, multiple mounting posts, multiple installation intercolumniations are additionally provided on support portion 123
Every setting in recessed portion.
In the present embodiment, as shown in fig. 6, driving rack 122 has guide channel 1223, transmission component 12 further includes the
One bearing 124, first bearing 124 are arranged on support portion 123, and guide channel 1223 matches with first bearing 124, first axle
It holds 124 to be plugged in guide channel 1223 and the outer peripheral surface of first bearing 124 is in contact with the inner wall of guide channel, so that first
Transmission gear 121 moves under guide channel 1223 and the guiding role of first bearing 124.Such setting can be driven
Rack gear is moved along the extension track of guide channel 1223, plays the role of supporting driving rack 122 and being oriented to.
When it is implemented, guide channel 1223 is curved channel.
In the present embodiment, as shown in fig. 6, transmission component 12 further includes second bearing 125, the setting of second bearing 125 exists
On support portion 123, second bearing 125 is in contact to be supported to driving rack 122 with the side of driving rack 122.
When it is implemented, as shown in fig. 6, second bearing 125 be it is multiple, multiple second bearings 125 are along preset direction interval
It is arranged to form tracks, so that driving rack 122 is moved along tracks.
When it is implemented, multiple second bearings 125 form two groups of second bearing groups, each second bearing group include one or
Multiple second bearings 125, two groups of second bearing groups are arranged at intervals on the two sides of driving rack, between two groups of second bearing groups between
Gap forms tracks, so that driving rack 122 is moved along tracks.
In the present embodiment, rotary components 126 include transmission gear, and transmission gear is rotatably arranged, wind deflector 11 with
Transmission gear connection, so that wind deflector 11 rotates under the action of transmission gear.
In order to realize the rotation of wind deflector 11, rotary components 126 include the first driving section 1261 and the second driving section 1262,
First driving section 1261 and the second driving section 1262 are sequentially connected, so that work of second driving section 1262 in the first driving section 1261
With lower rotation;Second driving section 1262 is connect with wind deflector 11, so that wind deflector 11 revolves under the action of the second driving section 1262
Turn.
When it is implemented, the first driving section 1261 is the second driving gear, the second driving section 1262 is the second driven gear,
Second driving gear and the second driven gear engaged transmission, wind deflector 11 is fixedly connected with the second driven gear, so that wind deflector
11 rotate under the action of the second driving gear is with the second driven gear.The reliability of the drive mechanism is higher.
In order to drive the second driving gear to rotate, as shown in fig. 7, rotary components 126 further include the second driving motor 1263,
Second driving motor 1263 and the second driving gear are drivingly connected, so that drive of second driving gear in the second driving motor 1263
Act lower rotation.
In order to support the second driving motor 1263, the second driving gear and the second driven gear, rotary components 126 further include
Support 1264, as shown in fig. 7, support 1264 is connect with transmission component 12, the second driving motor 1263, the second driving gear and
Two driven gears are arranged in support 1264.
In order to realize the connection of wind deflector 11 Yu rotary components 126, as shown in figure 5, wind deflector 11 has interconnecting piece 111,
The inside of wind deflector 11 is arranged in interconnecting piece 111, and interconnecting piece 111 has card apertured;Card is provided on second driving section 1262 to set
Portion 1265, clamping part 1265 match with card apertured, and clamping part 1265 is fastened in card apertured, so that wind deflector 11 and second passes
Dynamic portion 1262 is fixed.
In the present embodiment, wind guide component 10 includes multiple transmission components 12 and multiple rotary components 126, transmission component 12
It is arranged in pairs with rotary components 126, the multipair transmission component 12 being arranged in pairs and rotary components 126 are along the extension side of wind deflector 11
To interval be arranged, wind deflector 11 have multiple interconnecting pieces 111, multiple interconnecting pieces 111 along wind deflector 11 extending direction separately
Ground setting;Multiple interconnecting pieces 111 are arranged correspondingly with multiple rotary components 126 so that each interconnecting piece 111 with it is corresponding
Rotary components 126 connect.Such setting is so that the release of wind deflector 11 moves and the better reliability of rotary motion, more surely
It is fixed.
In the present embodiment, multiple wind deflectors 11 can independent control, can according to user demand control wind deflector 11 rotation
Gyration, and then realize the purpose of control wind direction.
In the present embodiment, wind deflector 11 is released along the arching trajectory of setting, and wind deflector 11 is needed by user can be around
Wind-guiding board shaft rotation, to realize various angle wind-guidings, wherein two wind deflectors 11 can be with independent control.
When it is implemented, rotary components 126 are provided on the main part 1221 of the first transmission gear 121, for driving
Wind deflector 11 is pivoted.Rotary components 126 include support 1264, the second driving motor 1263, the second driving gear, second from
Moving gear, wherein twisting structure (i.e. clamping part 1265) is provided on the second driven gear, can with wind deflector 11 carry out twisting and
Reach synchronous rotary.
When it is implemented, a transmission component 12 is respectively arranged in 11 upper and lower ends of wind deflector, for releasing wind deflector 11.Transmission
If component 12 includes the first driving motor, the first transmission gear 121, driving rack 122 and dry bearing.Wherein driving rack
It is provided with wheel teeth portion 1222 on 122, is engaged with above-mentioned first transmission gear 121 and generates circular motion, above-mentioned driving rack 122
The upper synchronous above-mentioned rotary components 126 of setting.
The utility model additionally provides a kind of air conditioner indoor unit, including wind guiding mechanism, wherein wind guiding mechanism is above-mentioned leads
Blower structure.
Wherein, air conditioner indoor unit is vertical cabinet-type air conditioner.
In the present embodiment, air conditioner indoor unit further includes swing flap blade, is carried out up and down for the air outlet to ducting assembly
Swing flap, swing flap blade are arranged between ducting assembly and wind guiding mechanism.The wind deflector of the wind guiding mechanism just rotates after stretching out, so that
The setting of swing flap blade does not have to lengthen to its resigning, and then increases vertical swing flap effect.
The utility model has the beneficial effects that
(1), it changes traditional cabinet-type air conditioner rotary drum and opens air port, gate panel sliding opening air port mode, form distinct product
Differentiation;
(2), wind-guiding mode after being released using wind deflector, wind-guiding span of slab is big, and wind effect is good, and wind deflector increases individually
Rotating mechanism greatly increases wind-guiding angle;
(3), vertical swing flap lengthened vanes increase swing flap effect;
(4), wind deflector is smaller than original gate panel, and cost is advantageously.
It can be seen from the above description that the above embodiments of the utility model achieve the following technical effects:
The wind guiding mechanism of the utility model includes multiple wind guide components 10, and wind guide component 10 includes wind deflector 11, transmission
Component 12 and rotary components 126, wind deflector 11 move between the first position and the second position under the action of transmission component 12,
And wind deflector 11 release after be in the second position when, by rotary components 126 drive its rotation, make wind deflector 11 to air outlet into
Row wind-guiding, wind-guiding mode after which is released using wind deflector 11, so that 11 span of wind deflector is big and realizes wind deflector
11 left and right swing flap, considerably increases wind-guiding angle, strengthens wind effect.
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 (16)
1. a kind of wind guiding mechanism carries out wind-guiding for the air outlet to multiple ducting assemblies, which is characterized in that the wind guiding mechanism
Include:
Multiple wind guide components (10), the setting of the multiple wind guide components (10) intervals, multiple wind guide components (10) with it is multiple
The ducting assembly is arranged correspondingly, and the outer of the corresponding ducting assembly is arranged in each wind guide component (10)
Side;
Wherein, the wind guide component (10) includes:
Wind deflector (11), the wind deflector (11) have the first position for being used for covering the air outlet for setting the ducting assembly and are used for
It avoids the air outlet of the ducting assembly and carries out the second position of wind-guiding to the air outlet, the wind deflector (11) is described the
It is movably disposed between one position and the second position;
Transmission component (12), the transmission component (12) and the wind deflector (11) are sequentially connected, so that the wind deflector (11)
It is moved under the action of the transmission component (12);
Rotary components (126), the rotary components (126) connect with the transmission component (12), the rotary components (126) with
Wind deflector (11) transmission connection, with the rotary components (126) described when the wind deflector (11) is in second position drive
Wind deflector (11) rotation, so that gas of the wind deflector (11) to the air outlet outflow by the corresponding ducting assembly
Carry out wind-guiding.
2. wind guiding mechanism according to claim 1, which is characterized in that the ducting assembly is two, the wind guide component
It (10) is two, two wind guide component (10) intervals are arranged, two wind guide components (10) and two air duct groups
Part is arranged correspondingly, and the outside of the corresponding ducting assembly is arranged in each wind guide component (10).
3. wind guiding mechanism according to claim 1, which is characterized in that the transmission component (12) includes:
First transmission gear (121) and the driving rack (122) matched with first transmission gear (121), the transmission
Rack gear (122) is connect with the wind deflector (11) so that the wind deflector (11) first transmission gear (121) with it is described
Driving rack moves under the action of (122).
4. wind guiding mechanism according to claim 3, which is characterized in that the driving rack (122) includes main part
(1221) and wheel teeth portion (1222), the main part (1221) are at least partially provided with wheel teeth portion (1222), the gear teeth
Portion (1222) is arc-shaped rack.
5. wind guiding mechanism according to claim 3, which is characterized in that the transmission component (12) further include:
Support portion (123), the support portion (123) are arranged in the inside of the indoor unit casing (20) of air conditioner indoor unit, and described
One transmission gear (121) is fixed on the support portion (123), the relatively described support portion of driving rack (122)
(123) it is movably disposed.
6. wind guiding mechanism according to claim 5, which is characterized in that the driving rack (122) has guide channel
(1223), the transmission component (12) further include:
First bearing (124), the first bearing (124) are arranged on the support portion (123), the guide channel (1223)
It matches with the first bearing (124), the first bearing (124) is plugged in the guide channel (1223) and described the
The outer peripheral surface of one bearing (124) is in contact with the inner wall of the guide channel, so that first transmission gear (121) is described
It is moved under guide channel (1223) and the guiding role of the first bearing (124).
7. wind guiding mechanism according to claim 5, which is characterized in that the transmission component (12) further include:
Second bearing (125), the second bearing (125) are arranged on the support portion (123), the second bearing (125)
It is in contact with the side of the driving rack (122) to be supported to the driving rack (122).
8. wind guiding mechanism according to claim 7, which is characterized in that the second bearing (125) be it is multiple, it is multiple described
Second bearing (125) is arranged along preset direction interval to form tracks, so that the driving rack (122) is moved along described
Track is mobile.
9. wind guiding mechanism according to claim 1, which is characterized in that the rotary components (126) include transmission gear, institute
It states transmission gear to be rotatably arranged, the wind deflector (11) connect with the transmission gear, so that the wind deflector (11) exists
It is rotated under the action of the transmission gear.
10. wind guiding mechanism according to claim 1, which is characterized in that the rotary components (126) include the first driving section
(1261) it is sequentially connected with the second driving section (1262), first driving section (1261) and second driving section (1262),
So that second driving section (1262) rotates under the action of the first driving section (1261);Second driving section
(1262) it is connect with the wind deflector (11), so that the wind deflector (11) revolves under the action of the second driving section (1262)
Turn.
11. wind guiding mechanism according to claim 10, which is characterized in that first driving section (1261) is the second active
Gear, second driving section (1262) are the second driven gear, and second driving gear is nibbled with second driven gear
Transmission is closed, the wind deflector (11) is fixedly connected with second driven gear, so that the wind deflector (11) is described second
It is rotated under the action of driving gear and second driven gear.
12. wind guiding mechanism according to claim 11, which is characterized in that the rotary components (126) further include:
Second driving motor (1263), second driving motor (1263) and second driving gear are drivingly connected, so that
Second driving gear rotates under the driving effect of second driving motor (1263).
13. wind guiding mechanism according to claim 12, which is characterized in that the rotary components (126) further include:
Support (1264), the support (1264) connect with the transmission component (12), second driving motor (1263), institute
It states the second driving gear and second driven gear is arranged in the support (1264).
14. wind guiding mechanism according to claim 10, which is characterized in that the wind deflector (11) has interconnecting piece (111),
In the inside of the wind deflector (11), the interconnecting piece (111) has card apertured for interconnecting piece (111) setting;Described second
It is provided on driving section (1262) clamping part (1265), the clamping part (1265) matches with the card apertured, and the card is set
Portion (1265) is fastened in the card apertured, so that the wind deflector (11) and second driving section (1262) are fixed.
15. wind guiding mechanism according to claim 1, which is characterized in that the wind guide component (10) includes multiple transmission groups
Part (12) and multiple rotary components (126), the transmission component (12) and the rotary components (126) are arranged in pairs, it is multipair at
The transmission component (12) and the rotary components (126) to setting are set along the extending direction interval of the wind deflector (11)
It sets, the wind deflector (11) has multiple interconnecting pieces (111), multiple interconnecting piece (111) prolonging along the wind deflector (11)
Direction is stretched to be arranged at intervals;Multiple interconnecting pieces (111) are arranged correspondingly with multiple rotary components (126),
So that each interconnecting piece (111) connects with the corresponding rotary components (126).
16. a kind of air conditioner indoor unit, including wind guiding mechanism, which is characterized in that the wind guiding mechanism is to appoint in claim 1 to 15
Wind guiding mechanism described in one.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821834578.7U CN209026953U (en) | 2018-11-07 | 2018-11-07 | Air guide mechanism and air conditioner indoor unit with same |
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CN201821834578.7U CN209026953U (en) | 2018-11-07 | 2018-11-07 | Air guide mechanism and air conditioner indoor unit with same |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111156597A (en) * | 2018-11-07 | 2020-05-15 | 珠海格力电器股份有限公司 | Air guide mechanism and air conditioner indoor unit with same |
CN113847729A (en) * | 2021-09-07 | 2021-12-28 | 珠海格力电器股份有限公司 | Flow guide structure and air conditioner with same |
-
2018
- 2018-11-07 CN CN201821834578.7U patent/CN209026953U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111156597A (en) * | 2018-11-07 | 2020-05-15 | 珠海格力电器股份有限公司 | Air guide mechanism and air conditioner indoor unit with same |
CN113847729A (en) * | 2021-09-07 | 2021-12-28 | 珠海格力电器股份有限公司 | Flow guide structure and air conditioner with same |
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