CN201672642U - Air guide structure of air conditioner - Google Patents
Air guide structure of air conditioner Download PDFInfo
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- CN201672642U CN201672642U CN201020179000XU CN201020179000U CN201672642U CN 201672642 U CN201672642 U CN 201672642U CN 201020179000X U CN201020179000X U CN 201020179000XU CN 201020179000 U CN201020179000 U CN 201020179000U CN 201672642 U CN201672642 U CN 201672642U
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- 230000007246 mechanism Effects 0.000 claims abstract description 53
- 238000013507 mapping Methods 0.000 claims description 28
- 244000309464 bull Species 0.000 claims description 12
- 238000005057 refrigeration Methods 0.000 abstract description 9
- 238000006243 chemical reaction Methods 0.000 abstract description 3
- 238000004378 air conditioning Methods 0.000 description 13
- 230000009471 action Effects 0.000 description 8
- 238000010438 heat treatment Methods 0.000 description 7
- 238000000034 method Methods 0.000 description 7
- 230000008859 change Effects 0.000 description 4
- 230000007704 transition Effects 0.000 description 4
- 230000008901 benefit Effects 0.000 description 3
- 230000008569 process Effects 0.000 description 2
- 238000010408 sweeping Methods 0.000 description 2
- 230000002411 adverse Effects 0.000 description 1
- WYTGDNHDOZPMIW-RCBQFDQVSA-N alstonine Natural products C1=CC2=C3C=CC=CC3=NC2=C2N1C[C@H]1[C@H](C)OC=C(C(=O)OC)[C@H]1C2 WYTGDNHDOZPMIW-RCBQFDQVSA-N 0.000 description 1
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Abstract
The utility model discloses an air guide structure of air conditioner, including aviation baffle and this aviation baffle wobbling actuating mechanism of drive, this actuating mechanism is opened the mechanism by pivot conversion mechanism and aviation baffle and is constituteed, this pivot conversion mechanism includes the couple, lower couple, the rocking arm, first motor, go up couple position and lower couple position, wherein go up the couple and rotationally install in first pivot and second pivot respectively with the middle part of couple down, the first end of couple and this time couple all has one can hook the hook portion of couple position and lower couple position respectively, the rocking arm can rotate around the rotation axis at its middle part under the drive of first motor, be equipped with slider and spout of mutually supporting between the second end of couple and lower couple on the both ends of this rocking arm. The utility model discloses a pivot position of aviation baffle has two, can satisfy the different demands to wind-guiding control when cold and warm type air conditioner refrigeration, heat according to the different running state automatic switch-over of air conditioner, can improve the travelling comfort when the air conditioner uses greatly.
Description
Technical field
The utility model relates to the air flowing controling part of air-conditioner, especially a kind of air guide structure of air-conditioner.
Background technology
Present air-conditioner wind guiding mechanism generally is made up of a slice that is located at uptake of indoor machine of air conditioner or two wind deflectors and the driving mechanism that drives the swing of this wind deflector, and wind deflector rotates around fixed rotating shaft under the driving of driving mechanism.For single cold air conditioner, because operational mode is single, can find the desired positions that can control air-out direction by adjusting the position of rotating shaft on the wind deflector during design, improve the control of air conditioner, thereby reach the purpose of adjusting the room comfortableness wind direction.But for cold-warm type air-conditioning, this air-conditioning is in two kinds of operational modes, heavier during refrigeration owing to air, wind will upwards blow, and air is low weight when heating, and wind need down blow, two kinds of patterns are just in time opposite to the requirement of air conditioner wind-guiding direction, therefore, when adopting the wind guiding mechanism of fixed rotating shaft, have to select a kind of balance between to wind direction control satisfying refrigeration or heat two kinds of patterns.This selection often brings two kinds of adverse influences: the first, cause refrigeration, wind guiding mechanism all can not be in optimal state to the control of wind direction when heating two kinds of patterns, often can only control the direction that air-conditioning blows out the part of air quantity; The second, because wind deflector rotates around fixed axis, wind deflector can make a part enter in the air channel when rotating, and the size of sweeping air blade is restricted, thereby has limited the control ability of left and right sides wind direction.
Summary of the invention
The purpose of this utility model is to remedy the deficiency that wind deflector structure is controlled wind direction in the prior art, the air guide structure of the air-conditioner that a kind of wind deflector rotating shaft can conversion is provided, with satisfy the cold-warm type air-conditioning device refrigeration, when heating to the different demands of wind-guiding control.
To achieve these goals, the technical solution adopted in the utility model is: a kind of air guide structure of air-conditioner, the driving mechanism that comprises the wind deflector that is located at uptake of indoor machine of air conditioner and drive this wind deflector swing, described driving mechanism is made up of rotating shaft mapping device and wind deflector opening mechanism, this rotating shaft mapping device comprises hook, lower draw-bar; rocking arm; first motor; first rotating shaft and second rotating shaft and be located at the inboard top and the bottom of described wind deflector respectively go up hook position and lower draw-bar position; the middle part of wherein going up hook and lower draw-bar is installed in rotation on respectively in first rotating shaft and second rotating shaft; first end of hook and this lower draw-bar all has one can hook the described hook portion that goes up hook position and described lower draw-bar position respectively this on; described rocking arm can the rotation of the rotation in the middle part of it under described first driven by motor; the two ends of this rocking arm and described on link up with and second end of described lower draw-bar between be provided with slide block and the chute that cooperatively interacts, this slide block can slide in this chute.
During work, rotate by the first driven by motor rocking arm, and then drive slide block and chute relative motion, hook or lower draw-bar rotated on slide block slided in chute and drives, the hook or the hook portion of lower draw-bar are hooked or unclamp hook position or lower draw-bar position, thus the rotating shaft of change wind deflector.Therefore, the utility model makes the rotating shaft position of wind deflector change two that can change into by one by the rotating shaft mapping device, satisfied cold-warm type air-conditioning device refrigeration, when heating to the different demands of the control of wind-guiding.
In technique scheme, described slide block and described chute have three relative positions, and when slide block and chute were positioned at first relative position, the hook portion of last hook and lower draw-bar was hooked hook position and lower draw-bar position respectively, at this moment wind deflector closure fully; When slide block and chute are positioned at second relative position, the hook portion of last hook is hooked the hook position, the hook portion of lower draw-bar is separated with the lower draw-bar position, wind deflector under the driving of wind deflector opening mechanism around on hook hook portion with on the joint (being the rotating shaft of wind deflector) of hook position rotate and open downwards, and can regulate the aperture size arbitrarily; When slide block and chute are positioned at third phase to the position, the hook portion of lower draw-bar is hooked the lower draw-bar position, the hook portion of last hook is separated with last hook position, wind deflector is upwards opened around the hook portion of lower draw-bar and the joint of lower draw-bar position (being the rotating shaft of wind deflector) rotation under the driving of wind deflector opening mechanism, and can regulate the aperture size arbitrarily.
Preferred version as technique scheme, described wind deflector opening mechanism comprises first connecting rod, second connecting rod, second motor and the 3rd rotating shaft, wherein first end of first connecting rod is connected with second motor, second end of first connecting rod and first end of second connecting rod are hinged, and second end of second connecting rod is hinged on the wind deflector of linking up with between position and the lower draw-bar position through the 3rd rotating shaft.This wind deflector opening mechanism is made up of second motor and linkage, has advantage of simple structure.
In the technique scheme, first end of described first connecting rod is connected with the output shaft of second motor directly or indirectly; The middle part of described rocking arm is connected with the output shaft of described first motor directly or indirectly.Perhaps, described wind deflector opening mechanism also comprises the 4th rotating shaft, the middle part of described first connecting rod is installed in rotation in the 4th rotating shaft, is provided with the 3rd tooth at first end of this first connecting rod, is installed on the output shaft of described second motor with the 4th tooth of the 3rd tooth engagement; Be provided with second tooth on described rocking arm, first tooth that meshes with this second tooth is installed on the output shaft of described first motor.First motor and second motor can be arranged in the rear portion of more close indoor set housing by first, second, third and fourth tooth, be convenient to install.
Preferred version as technique scheme, the described hook portion that goes up hook and described lower draw-bar is oppositely arranged, the hook portion of last hook is hooked hook position downwards, and the hook portion of lower draw-bar is upwards hooked the lower draw-bar position, can avoid like this that hook portion comes off in the hook position when wind deflector rotates.
Another preferred version as technique scheme, described rotating shaft mapping device and described wind deflector opening mechanism are two, two rotating shaft mapping devices and two wind deflector opening mechanisms are located at the left and right sides of described air outlet respectively, adopt two rotating shaft mapping devices and wind deflector, it is more steady that wind deflector is rotated.Also can adopt down array structure: going up of described rotating shaft mapping device linked up with, lower draw-bar; rocking arm; go up hook position and lower draw-bar position and be two; wherein go up hook for two; two lower draw-bars and two rocking arms lay respectively at the left and right sides of air outlet; go up the two ends that hook and two lower draw-bar positions lay respectively at described wind deflector for two; described first motor is one; be installed in a wherein side of the air outlet left and right sides; the output shaft of this first motor with link to each other with described rocking arm that this first motor is positioned at air outlet the same side, link to each other through first bull stick with the described rocking arm of air outlet opposite side; The first connecting rod of described wind deflector opening mechanism and second connecting rod are two, two first connecting rods and two second connecting rods lay respectively at the left and right sides of air outlet, described second motor is one, be installed in a wherein side of the air outlet left and right sides, the output shaft of this second motor with link to each other with first end that this second motor is positioned at the described first connecting rod of air outlet the same side, link to each other through second bull stick with first end of the described first connecting rod of air outlet opposite side.This kind structure only needs two motors, has reduced cost.Also can adopt down array structure: the last hook of described rotating shaft mapping device, lower draw-bar, rocking arm, last hook position and lower draw-bar position are two, wherein go up the left and right sides that hook, two lower draw-bars and two rocking arms lay respectively at air outlet for two, go up the two ends that hook position and two lower draw-bar positions lay respectively at described wind deflector for two, described first motor is one, be installed in air outlet laterally middle upside or downside, the output shaft of this first motor links to each other with described two rocking arms through the 3rd bull stick; The first connecting rod of described wind deflector opening mechanism and second connecting rod are two, two first connecting rods and two second connecting rods lay respectively at the left and right sides of air outlet, described second motor is one, be installed in air outlet laterally middle upside or downside, the output shaft of this second motor links to each other with first end of described first connecting rod through the 4th bull stick.This structure can reach the effect that reduces cost equally.
Compared with prior art, the utility model has the advantages that: the rotating shaft position of wind deflector has two, can be according to the different running statuses of air-conditioning, automatically switch, strengthened control to air-conditioning air-out air-flow, the different demands of satisfied cold-warm type air-conditioning device refrigeration, when heating wind-guiding being controlled, the comfortableness in the time of improving the air-conditioning use significantly; And the rotating shaft of wind deflector moves to top or bottom, has avoided wind deflector when rotating around the shaft, and part enters in the air channel, therefore can not limit the size of sweeping air blade, influences the control ability of left and right sides wind direction; In addition, the utility model also has simple in structure, the advantage that reliability is high.
Description of drawings
Fig. 1 is the structural representation (slide block and chute are positioned at first relative position) of the utility model embodiment 1;
Fig. 2 is the structural representation that the utility model embodiment 1 removes the wind deflector opening mechanism;
Fig. 3 is the structural representation that the utility model embodiment 1 removes the rotating shaft mapping device;
Fig. 4 is that the utility model embodiment 1 slide block and chute are positioned at second relative position, the structural representation when the wind deflector opening mechanism shrinks;
Fig. 5 be the utility model embodiment 1 slide block and chute be positioned at second relative position, the structural representation when the wind deflector opening mechanism is opened fully;
Fig. 6 is the utility model embodiment 1 slide block and the chute structural representation when being positioned at third phase position, wind deflector opening mechanism being shunk;
Fig. 7 is that the utility model embodiment 1 slide block and chute are positioned at third phase to position, structural representation when the wind deflector opening mechanism is opened fully;
Fig. 8 is the structural representation that the utility model embodiment 4 removes the wind deflector opening mechanism.
Description of reference numerals:
1-wind deflector, the last hook of 11-position, 12-lower draw-bar position, 13-the 3rd rotating shaft 13, the last hook of 2-, the hook portion of the last hook of 21-, 22-first rotating shaft, 23-slide block, 3-lower draw-bar, the hook portion of 31-lower draw-bar, 32-second rotating shaft, 33-slide block, 4-rocking arm, 41-chute, 42-chute, 43-first tooth, 44-second tooth, 5-first motor, 6-second connecting rod, 7-first connecting rod, 71-the 3rd tooth, 72-the 4th tooth, 8-second motor, 9-air channel, 81-the 4th rotating shaft.
The specific embodiment
Below in conjunction with accompanying drawing embodiment of the present utility model is elaborated:
Referring to Fig. 1~Fig. 3, be applied to the embodiment of split wall hanging machine for the utility model.Wind guiding mechanism is made up of wind deflector 1 that is located at air channel 9 air outlets and the driving mechanism that drives 1 swing of this wind deflector, this driving mechanism is made up of two rotating shaft mapping devices and two wind deflector opening mechanisms, and these two rotating shaft mapping devices and these two wind deflector opening mechanisms are arranged on the left and right sides of air outlet symmetrically.Only the rotating shaft mapping device and the wind deflector opening mechanism of a side are set forth below.
Further referring to Fig. 2, the rotating shaft mapping device mainly by last hook 2, lower draw-bar 3, Rocker arm 4, first motor 5, first rotating shaft 22, second rotating shaft 32 and be located at respectively wind deflector 1 inboard top and the bottom go up hook position 11 and lower draw-bar position 12 constitutes, the middle part of wherein going up hook 2 and lower draw-bar 3 is installed in rotation in first rotating shaft 22 and second rotating shaft 32, and this first rotating shaft 22 is fixedlyed connected with the housing of indoor set with second rotating shaft 32.First end of last hook 2 and lower draw-bar 3 all has the hook portion 31 that can hook the hook portion 21 of hook position 11 respectively and hook lower draw-bar position 12, and the hook portion 21 of last hook 2 and the hook portion 31 of lower draw-bar 3 are oppositely arranged, and second end of hook 2 and this lower draw-bar 3 is equipped with slide block 23,33 on this.The middle part of Rocker arm 4 is contained on the output shaft of first motor 5, and first motor 5 is fixed on the housing (on the figure for drawing), and Rocker arm 4 is driven by first motor 5 and rotates.Be equipped with the serpentine chute 41,42 that matches with slide block 23,33 at the two ends of Rocker arm 4, slide block 23,33 slides in chute 41,42, drives hook 2 and lower draw-bar 3 rotations respectively.Control the rotation of hook 2 and lower draw-bar 3 by the shape of appropriate design two chutes 41,42.
Further referring to Fig. 3, the wind deflector opening mechanism is made up of first connecting rod 7, second connecting rod 6 and second motor 8, wherein second motor 8 is fixed on the housing, the output shaft of second motor 8 is fixedlyed connected with first end of first connecting rod 7, second end of first connecting rod 7 and first end of second connecting rod 6 are hinged, and second end of second connecting rod 6 is hinged on the wind deflector of linking up with between position 11 and the lower draw-bar position 12 1 through the 3rd rotating shaft 13.
Set forth the operation principle of present embodiment below in conjunction with Fig. 1, Fig. 4~Fig. 7:
See Fig. 1, slide block and chute are positioned at first relative position, on link up with 2 hook portion 21 and lower draw-bar 3 hook portion 31 hook hook position 11 and lower draw-bar position 12 respectively, wind deflector 1 is closed fully, air-conditioner is in closed condition.
When air-conditioning is opened heating mode or air supply pattern, the relative position of slide block and chute carries out the transition to second relative position from first relative position, wind deflector 1 carries out the transition to Fig. 4 state from Fig. 1 closed condition, concrete motion process is as follows: at first the rotating shaft mapping device begins action, first motor 5 drives Rocker arm 4 and is rotated counterclockwise, and the rotation of Rocker arm 4 can make slide block 23 and slide block 33 slide in chute 41 and chute 42 respectively.Slide block 23 is free to slide in chute 41, and both do not produce the interaction of power, therefore goes up hook 2 and does not rotate, thereby make the hook portion 21 of hook 2 and last hook position 11 be in locking state.Meanwhile, chute 42 but can apply active force and give slide block 33, because the influence of this active force, lower draw-bar 3 can produce around second rotating shaft 32 and clockwise rotate, thereby the hook portion 31 of lower draw-bar 3 and lower draw-bar position 12 are broken away from, and after both broke away from the precalculated position, the action of rotating shaft mapping device stopped.After the action of rotating shaft mapping device is finished, program begins to start the wind deflector opening mechanism, second motor 8 at first clockwise rotates, drive first connecting rod 7, second connecting rod 6 and wind deflector 1 action, make wind deflector 1 around the hook portion 21 of last hook 2 and the joint rotation (as shown in Figure 5) of last hook position 11, realize opening of wind deflector 1, the angle control that the size of open angle is rotated by second motor 8.
When air-conditioning is transferred to when closing by heating mode or air supply pattern, pre-set programs can at first make the playback of wind deflector opening mechanism, drive first connecting rod 7 by second motor 8 and rotate counterclockwise, turn clockwise, make the wind deflector opening mechanism get back to Fig. 4 position by Fig. 5 illustrated position thereby drive wind deflector 1.After the wind deflector opening mechanism playbacked fully, pre-set programs made first motor 5 drive Rocker arm 4 and turns clockwise.Driving slide block 23 and slide block 33 thus slides along chute 41 and chute 42, last hook 2 can not rotate, lower draw-bar 3 rotates counterclockwise around second rotating shaft 32, makes the hook portion 31 and 12 lockings of the lower draw-bar position on the wind deflector 1 of lower draw-bar 3, and the rotating shaft mapping device is got back to position shown in Figure 1.
When air-conditioning is opened refrigeration mode or dehumidifier pattern, the relative position of slide block and chute carries out the transition to third phase to the position from first relative position, wind deflector 1 carries out the transition to Fig. 6 state from Fig. 1 closed condition, concrete motion process is as follows: at first the rotating shaft mapping device begins action, first motor 5 drives Rocker arm 4s and turns clockwise; the rotation of Rocker arm 4 can make slide block 23 and slide block 33 slide in chute 41 and chute 42 respectively; lower draw-bar 3 does not rotate; can not change thereby make lower draw-bar 3 and lower draw-bar position 12 be in original locking state; meanwhile; on link up with 2 and rotate counterclockwise because of stressed meeting produces around first rotating shaft 22, thereby go up 11 disengagings of hook position on the hook portion 21 that makes hook 2 and the wind deflector 1.After both broke away from the precalculated position, the action of rotating shaft mapping device stopped.After the action of rotating shaft mapping device was finished, program began to start the wind deflector opening mechanism.Second motor 8 at first clockwise rotates, and drives the linkage action that first connecting rod 7, second connecting rod 6 and wind deflector 1 are formed, and makes wind deflector 1 around clockwise rotating (as shown in Figure 7) around the hook portion 31 of lower draw-bar 3 and the joint of lower draw-bar position 13 down.Realize opening of wind deflector 1, the angle control that the size of open angle is rotated by second motor 8.
When air-conditioning is transferred to when closing by refrigeration mode or dehumidifier pattern, pre-set programs can at first make the playback of wind deflector opening mechanism, drive first connecting rod 7 by second motor 8 and rotate counterclockwise, be rotated counterclockwise, make the wind deflector opening mechanism get back to Fig. 6 position by Fig. 7 illustrated position thereby drive wind deflector 1.After the wind deflector opening mechanism playbacked fully, pre-set programs made first motor 5 drive Rocker arm 4 and is rotated counterclockwise, and drove slide block 33 and slide block 33 thus and slided along chute 41 and chute 42, and 33 of chute 42 and slide blocks do not produce active force, and lower draw-bar 3 does not rotate; Can produce active force between chute 41 and the slide block 33, hook 2 clockwise rotates around first rotating shaft 22 drives in, makes going up on hook 2 and the wind deflector 1 link up with 11 and locks, and the rotating shaft mapping device is got back to position shown in Figure 1.
The accompanying drawing of embodiment 2 omits.As different from Example 1, second motor of first motor of rotating shaft mapping device and wind deflector opening mechanism all has only one.First motor is installed in a wherein side of the air outlet left and right sides, the output shaft of this first motor with link to each other with rocking arm that this first motor is positioned at air outlet the same side, link to each other through first bull stick with the rocking arm of air outlet opposite side.Second motor is installed in a wherein side of the air outlet left and right sides, the output shaft of this second motor with link to each other with first end that this second motor is positioned at the first connecting rod of air outlet the same side, link to each other through second bull stick with first end of the first connecting rod of air outlet opposite side.
The accompanying drawing of embodiment 3 omits.As different from Example 2, first motor is installed in air outlet laterally middle upside or downside, and the output shaft of this first motor links to each other with two rocking arms through the 3rd bull stick.Second motor also is installed in air outlet laterally middle upside or downside, and the output shaft of this second motor 8 links to each other with first end of first connecting rod 7 through the 4th bull stick.
See Fig. 8, as different from Example 1, the middle part of first connecting rod 7 is installed in rotation in the 4th rotating shaft 81, is provided with the 3rd tooth 71 at first end of this first connecting rod 7, is installed on the output shaft of second motor (not shown on the figure) with the 4th tooth 72 of the 3rd tooth 71 engagements.Be provided with second tooth 44 on Rocker arm 4, first tooth 43 that meshes with this second tooth 44 is installed on the output shaft of first motor (not shown on the figure).Second motor and first motor can be arranged in the rear portion of more close indoor set housing like this, be convenient to install.
Only be specific embodiment of the utility model below, do not limit protection domain of the present utility model with this; Any replacement and the improvement done on the basis of not violating the utility model design all belong to protection domain of the present utility model.
Claims (9)
1. the air guide structure of an air-conditioner, the driving mechanism that comprises the wind deflector that is located at uptake of indoor machine of air conditioner and drive this wind deflector swing, it is characterized in that: described driving mechanism is made up of rotating shaft mapping device and wind deflector opening mechanism, this rotating shaft mapping device comprises hook, lower draw-bar; rocking arm; first motor; first rotating shaft and second rotating shaft and be located at the inboard top and the bottom of described wind deflector respectively go up hook position and lower draw-bar position; the middle part of wherein going up hook and lower draw-bar is installed in rotation on respectively in first rotating shaft and second rotating shaft; first end of hook and this lower draw-bar all has one can hook the described hook portion that goes up hook position and described lower draw-bar position respectively this on; described rocking arm can the rotation of the rotation in the middle part of it under described first driven by motor; the two ends of this rocking arm and described on link up with and second end of described lower draw-bar between be provided with slide block and the chute that cooperatively interacts, this slide block can slide in this chute.
2. the air guide structure of air-conditioner according to claim 1, it is characterized in that: described slide block and described chute have three relative positions, when slide block and chute are positioned at first relative position, the described hook portion that goes up hook and described lower draw-bar is hooked described hook position and the described lower draw-bar position of going up respectively, when slide block and chute are positioned at second relative position, the described hook portion that goes up hook is hooked the described hook position of going up, the hook portion of described lower draw-bar is separated with described lower draw-bar position, when slide block and chute are positioned at third phase to the position, the hook portion of described lower draw-bar is hooked described lower draw-bar position, and the described hook portion that goes up hook is separated with the described hook position of going up.
3. the air guide structure of air-conditioner according to claim 1, it is characterized in that: described wind deflector opening mechanism comprises first connecting rod, second connecting rod, second motor and the 3rd rotating shaft, wherein first end of first connecting rod is connected with second motor, second end of first connecting rod and first end of second connecting rod are hinged, and second end of second connecting rod is hinged on the described described wind deflector of going up between hook position and the described lower draw-bar position through the 3rd rotating shaft.
4. the air guide structure of air-conditioner according to claim 3, it is characterized in that: first end of described first connecting rod is connected with the output shaft of described second motor directly or indirectly; The middle part of described rocking arm is connected with the output shaft of described first motor directly or indirectly.
5. the air guide structure of air-conditioner according to claim 3, it is characterized in that: described wind deflector opening mechanism also comprises the 4th rotating shaft, the middle part of described first connecting rod is installed in rotation in the 4th rotating shaft, first end at this first connecting rod is provided with the 3rd tooth, and the 4th tooth that meshes with the 3rd tooth is installed on the output shaft of described second motor; Be provided with second tooth on described rocking arm, first tooth that meshes with this second tooth is installed on the output shaft of described first motor.
6. according to the air guide structure of the arbitrary described air-conditioner of claim 1 to 5, it is characterized in that: the described hook portion that goes up hook and described lower draw-bar is oppositely arranged.
7. the air guide structure of air-conditioner according to claim 6, it is characterized in that: described rotating shaft mapping device and described wind deflector opening mechanism are two, and two rotating shaft mapping devices and two wind deflector opening mechanisms are located at the left and right sides of described air outlet respectively.
8. according to the air guide structure of the described air-conditioner of claim 3, it is characterized in that: going up of described rotating shaft mapping device linked up with, lower draw-bar; rocking arm; go up hook position and lower draw-bar position and be two; wherein go up hook for two; two lower draw-bars and two rocking arms lay respectively at the left and right sides of air outlet; go up the two ends that hook and two lower draw-bar positions lay respectively at described wind deflector for two; described first motor is one; be installed in a wherein side of the air outlet left and right sides; the output shaft of this first motor with link to each other with described rocking arm that this first motor is positioned at air outlet the same side, link to each other through first bull stick with the described rocking arm of air outlet opposite side; The first connecting rod of described wind deflector opening mechanism and second connecting rod are two, two first connecting rods and two second connecting rods lay respectively at the left and right sides of air outlet, described second motor is one, be installed in a wherein side of the air outlet left and right sides, the output shaft of this second motor with link to each other with first end that this second motor is positioned at the described first connecting rod of air outlet the same side, link to each other through second bull stick with first end of the described first connecting rod of air outlet opposite side.
9. the air guide structure of air-conditioner according to claim 3, it is characterized in that: the last hook of described rotating shaft mapping device, lower draw-bar, rocking arm, last hook position and lower draw-bar position are two, wherein go up the left and right sides that hook, two lower draw-bars and two rocking arms lay respectively at air outlet for two, go up the two ends that hook position and two lower draw-bar positions lay respectively at described wind deflector for two, described first motor is one, be installed in air outlet laterally middle upside or downside, the output shaft of this first motor links to each other with described two rocking arms through the 3rd bull stick; The first connecting rod of described wind deflector opening mechanism and second connecting rod are two, two first connecting rods and two second connecting rods lay respectively at the left and right sides of air outlet, described second motor is one, be installed in air outlet laterally middle upside or downside, the output shaft of this second motor links to each other with first end of described first connecting rod through the 4th bull stick.
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