CN102141294B - Dehumidifier - Google Patents
Dehumidifier Download PDFInfo
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- CN102141294B CN102141294B CN201010174044.8A CN201010174044A CN102141294B CN 102141294 B CN102141294 B CN 102141294B CN 201010174044 A CN201010174044 A CN 201010174044A CN 102141294 B CN102141294 B CN 102141294B
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- Prior art keywords
- shutter board
- fin
- sensor holder
- blow
- dehumidifier
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F13/00—Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
- F24F13/02—Ducting arrangements
- F24F13/06—Outlets for directing or distributing air into rooms or spaces, e.g. ceiling air diffuser
- F24F13/075—Outlets for directing or distributing air into rooms or spaces, e.g. ceiling air diffuser having parallel rods or lamellae directing the outflow, e.g. the rods or lamellae being individually adjustable
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D53/00—Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases, aerosols
- B01D53/26—Drying gases or vapours
- B01D53/265—Drying gases or vapours by refrigeration (condensation)
Abstract
The present invention provides a dehumidifier wherein the torque of a motor for driving vertical fins is reduced, the size of the motor is reduced, and the vertical fins are turned at a constant speed. A wind direction changing device (15) disposed in an air outlet chamber (3) of a main body case (1) is provided with upper, middle, and lower louvers (16a-16c) which are vertically opposite to one another, and are coupled by coupling plates (17) on the left and right sides; a horizontal shaft (18) which is attached to the coupling plates (17), and is supported by the side walls of the air outlet chamber, so as to rotate in the vertical direction; a louver driving motor (19) for rotating the horizontal shaft; a plurality of vertical fins (25) which are horizontally arranged at intervals between the louvers, and are pivotally supported; an interlocking arm (32) which is rotatably coupled to the back side portion of each vertical fin; a sensor retainer (27) which is rotatably mounted on the lower louver, and contains an infrared sensor (28); a coupling protrusion (37) which is provided in the sensor retainer, and is rotatably coupled to the center portion of the interlocking arm; and a fin driving motor (30) for rotating the sensor retainer.
Description
Technical field
The present invention relates to the dehumidifier that the air that carried out dehumidifying is blown out from blow-off outlet, particularly can change the formation of the wind direction of the dehumidifying wind blowing out from blow-off outlet.
Background technology
For the dehumidifier of prior art, blow-off outlet at the dehumidifying wind that is arranged at housing carries upper and lower shutter board and left and right fin, at the drive motor of the exterior arrangement left and right fin of upper and lower shutter board, the link mechanism that use has cam becomes rectilinear motion rotatablely moving, and makes left and right fin at left and right directions movable (for example, with reference to patent documentation 1).
[patent documentation 1] TOHKEMY 2007-240063 communique (the 1st page, Fig. 7)
Summary of the invention
The dehumidifier of the prior art of describing in above-mentioned patent documentation 1, use link mechanism that rotatablely moving of the drive motor of left and right fin is transformed to rectilinear motion, make left and right fin movable at left and right directions, but, cause action torque to become large by the operating angle of left and right fin, the drive motor of left and right fin need to have large torque, and for the drive motor of left and right fin, having the rotary speed of the left and right fin rotating at left and right directions is not certain problem.
The present invention makes in order to address this problem, its objective is obtain reducing the motor that drives left and right fin torque, to realize the miniaturization of motor and then make in the rotary speed of the left and right fin of left and right directions rotation be certain dehumidifier.
Dehumidifier of the present invention, it dehumidifies to the air that is drawn into body interior from the suction inlet of body box, blow out to body box from the blow-off outlet of body box, it is characterized in that, front face side top at described body box arranges the blow-off outlet chamber with described blow-off outlet, arrange the change of the wind device of the wind direction that can change the dehumidifying wind blowing out from blow-off outlet in this blow-off outlet chamber, described change of the wind device possesses: at least two upper and lower shutter boards, at above-below direction in opposite directions, the left and right sides is linked and is integrated by web described at least two upper and lower shutter boards; Transverse axis, described transverse axis is arranged on respectively the web of the left and right sides that links this upper and lower shutter board, above-below direction rotationally pivot suspension at the left and right of blow-off outlet chamber sidewall; Upper and lower shutter board drive motor, described upper and lower shutter board drive motor makes this transverse axis rotation, and upper and lower shutter board is rotated at above-below direction; Multiple left and right fin, described multiple left and right fin at left and right directions spaced apart and left and right directions rotatably pivot suspension between described upper and lower shutter board; Coupled arm, described coupled arm links with the rear side of this left and right fin rotationally; Sensor holder, described sensor holder is rotatably mounted in the cardinal principle central portion of described lower shutter board; Infrared ray sensor, described infrared ray sensor is disposed in this sensor holder in the mode of the front face side sensor window that faces this sensor holder; Link tab, described link is arranged on the rear side of described sensor holder with tab, link rotationally with the central portion of described coupled arm; And fin drive motor direct or that drive described sensor holder to rotate via Poewr transmission mechanism.
In dehumidifier of the present invention, in the time that fin drive motor rotates, directly or make to be rotatably equipped on the central portion of lower shutter board via Poewr transmission mechanism, the sensor holder rotation of built-in infrared line sensor, the link tab that is arranged at the rear side below of sensor holder moves back and forth the coupled arm linking rotationally with the rear side of multiple left and right fin, the plurality of left and right fin at left and right directions spaced apart and with left and right directions rotatably pivot suspension upper, between lower shutter board, along with the reciprocating motion of coupled arm, multiple left and right fin rotates and swings at left and right directions, so, owing to not being the such link mechanism with cam of prior art, thereby can make the movable range of coupled arm, and the rotation movable range of left and right fin becomes large, and then can reduce the torque of fin drive motor, can make the miniaturization of fin drive motor, and can make the reciprocating speed of coupled arm for certain, the rotary speed therefore with left and right fin also becomes necessarily, form the such effect of smooth and easy rotation.
In addition, by fin drive motor being arranged on to the central portion of upper shutter board, having the such effect in space that can save base side.
And then, because sensor holder is rotatably mounted in the central portion of lower shutter board, so the sensor holder performance function identical with left and right fin cardinal principle.
Accompanying drawing explanation
Fig. 1 is the stereogram that represents the outward appearance of the dehumidifier of embodiment of the present invention 1.
Fig. 2 is the longitudinal section that represents this dehumidifier.
Fig. 3 represents near the blow-off outlet of this dehumidifier, is the stereogram of left and right fin towards positive state.
Fig. 4 is the cutaway view that represents the formation of the change of the wind device of the blow-off outlet of being located at this dehumidifier.
Fig. 5 is the stereogram that represents the formation of the change of the wind device of seeing this dehumidifier from front.
Fig. 6 is the stereogram that represents the formation of the change of the wind device of seeing this dehumidifier from the back side.
Fig. 7 is the stereogram that represents the formation of the shutter board of the change of the wind device of seeing this dehumidifier from the back side.
Fig. 8 represents the left and right fin of change of the wind device of this dehumidifier and the key diagram of the connecting state of coupled arm.
Fig. 9 represents near the blow-off outlet of this dehumidifier, be shutter board towards top, left and right fin is towards the stereogram of positive state.
Figure 10 represents near the blow-off outlet of this dehumidifier, is the stereogram of left and right fin towards the state in left side.
Figure 11 represents near the blow-off outlet of this dehumidifier, is the stereogram of left and right fin towards the state on right side.
Figure 12 is the block diagram that represents the control circuit of this dehumidifier.
Description of reference numerals
1 body box, 2 blow-off outlets, 3 blow-off outlet chambers, 5 shutter board maintenance housings, 5a operating portion supporting station, the upper Boxing shutter cover of 5b portion, 6 suction inlets, 7 air supply paths, 8 heat exchangers, 9 air supply motors, 10 Air Blast fans, 11 operating portions, 15 change of the wind devices, the upper shutter board of 16a, shutter board in 16b, shutter board under 16c, 17 webs, 18 transverse axis, 19 shutter board drive motors, 19a motor drive shaft, 20 shutter board driven wheels, 21 gear support axles, 22 anglec of rotation adjusting gears, 23 transmit gear, 24 shutter board bolsters, 25 left and right fins, the 25a groove of the notch, 26 pivots, 27 sensor holders, 27a sensor window, 28 infrared ray sensors, 29 sector gears, 30 fin drive motors, 30a motor drive shaft, 31 power transmission gears, 32 coupled arms, 32a central portion, 32b left side, 32c right side, 33 elongated circular holes, 34 slotted holes, 35 slotted holes, 36 elongated circular holes, 37 link tabs, 38 rotating shafts, 39 couple axles, 50 control parts.
The specific embodiment
Fig. 1 is the stereogram that represents the outward appearance of the dehumidifier of embodiment of the present invention 1, Fig. 2 is the longitudinal section that represents this dehumidifier, Fig. 3 represents near the blow-off outlet of this dehumidifier, the stereogram of left and right fin towards positive state, Fig. 4 is the cutaway view that represents the formation of the change of the wind device of the blow-off outlet of being located at this dehumidifier, Fig. 5 is the stereogram that represents the formation of the change of the wind device of seeing this dehumidifier from front, Fig. 6 is the stereogram that represents the formation of the change of the wind device of seeing this dehumidifier from the back side, Fig. 7 is the stereogram that represents the formation of the shutter board of the change of the wind device of seeing this dehumidifier from the back side, Fig. 8 represents the left and right fin of change of the wind device of this dehumidifier and the key diagram of the connecting state of coupled arm, Fig. 9 represents near the blow-off outlet of this dehumidifier, that shutter board is towards top, left and right fin is towards the stereogram of positive state, Figure 10 represents near the blow-off outlet of this dehumidifier, the stereogram of left and right fin towards the state in left side, Figure 11 represents near the blow-off outlet of this dehumidifier, the stereogram of left and right fin towards the state on right side.
As shown in Figures 1 and 2, on the front face side top of the body box 1 of the case shape of the lengthwise of the dehumidifier of embodiment of the present invention 1, the shutter board that forms the blow-off outlet chamber 3 with blow-off outlet 2 is set and keeps with housing 5.The back side at body box 1 forms suction inlet 6, the air supply path 7 being communicated with suction inlet 6 and blow-off outlet 2 in the interior setting of body box 1.
In this air supply path 7, in body box rear side, heat exchanger 8 is set, the Air Blast fan 10 being driven by air supply motor 9 in the setting of body box front face side.
In the rear side top of body box 1 setting operation portion 11, in the bottom of body box 1, water storing tank 12 is set.Keep arranging by the rear side of housing 5 the operating portion supporting station 5a of supporting operating portion 11 at shutter board, keep to front face side, the upper plate cover 5b of portion being set with the central portion of housing 5 from shutter board.
In addition, keeping the blow-off outlet chamber 3 forming with housing 5 to arrange change of the wind device 15 by shutter board.
The air that this dehumidifier is sucked the suction inlet 6 from body box 1 by heat exchanger 8 dehumidifies, this air that carried out dehumidifying is blown out from the blow-off outlet 2 of body box 1, changed the wind direction of the dehumidifying wind blowing out from blow-off outlet 2 by the change of the wind device 15 that is disposed in blow-off outlet chamber 3.
As shown in Figures 3 to 8, change of the wind device 15 is configured to and possesses: shutter board 16a, middle shutter board 16b and lower shutter board 16c in opposite directions three of above-below direction; Link respectively the web 17 of the left and right sides of upper shutter board 16a, middle shutter board 16b and lower shutter board 16c; Be arranged on respectively the transverse axis 18 on this web 17; Be arranged on a transverse axis 18, above-below direction rotationally pivot suspension keep the shutter board bolster 24 with housing 5 sidewalls in shutter board; Be arranged on another transverse axis 18, axial region above-below direction rotationally pivot suspension keep the transmission gear 23 with housing 5 sidewalls in shutter board; Make to transmit the shutter board drive motor 19 that gear 23 rotates, makes shutter board 16a, middle shutter board 16b and lower shutter board 16c to rotate at above-below direction.
On this, shutter board 16a has Rack, in laterally-elongated, is formed as from the side circular-arc.In addition, middle shutter board 16b and upper shutter board 16a have Rack in the same manner, laterally-elongated form.And then lower shutter board 16c and middle shutter board 16b have Rack in the same manner, laterally-elongated form.
Therefore, in the time that shutter board drive motor 19 rotates, the shutter board driven wheel 20 being arranged on motor drive shaft 19a rotates, via the anglec of rotation adjusting gear 22 engaging with shutter board driven wheel 20, the transmission gear 23 being arranged on transverse axis 18 rotates, and the upper, middle and lower shutter board 16a~16c with transverse axis 18 rotates and swings at above-below direction.
And then, between the upper shutter board 16a of change of the wind device 15, middle shutter board 16b and lower shutter board 16c, spaced apart and be rotatably mounted multiple left and right fin 25 at left and right directions at the left and right sides of removing central portion of these shutter boards.
The front face side of each left and right fin 25 is formed as circular-arc, the groove of the notch 25a of the past lateral incision of shutter board 16b in central portion is formed for embedding.In addition, pivot 26 is set the rear side of upper shutter board 16a, middle shutter board 16b and lower shutter board 16c is outstanding respectively, on these pivots 26 at rotatably pivot suspension left and right fin 25 of left and right directions.
In addition, can rotate freely at the central portion of lower shutter board 16c the sensor holder 27 that tubular is installed.The central portion of upper shutter board 16a and middle shutter board 16b is formed with the notch 16e of semicircle shape, to arrange sensor holder 27.
In the sensor holder 27 of this tubular, arrange infrared ray sensor 28.In the front face side of this sensor holder 27, sensor window 27a is set, so that infrared ray sensor 28 can detect outside humidity towards front, on the rear side top of this sensor holder 27, sector gear 29 is set.
In addition, keep in sagging mode, fin drive motor 30 being installed with the upper Boxing shutter cover 5b of portion of housing 5 at shutter board.The gear 31 for power transmission engaging with the sector gear 29 of sensor holder 27 is installed on the motor drive shaft 30a of this left and right fin drive motor 30.
And then, link rotationally the central portion of coupled arm 32 in the rear side of sensor holder 27, link rotationally the end, indoor of multiple left and right fin 25 at the left and right sides of this coupled arm 32.
This coupled arm 32 is the resin panels with Rack, central portion 32a bending, and left side 32b and right side 32c are formed as linearity.
In the middle position of the central portion 32a of this coupled arm 32, for the removal stop section that makes rotating shaft described later and couple axle passes through, elongated circular hole 33 and the slotted hole 34 being connected with this elongated circular hole 33 that snap-action is improved are set.
In addition, at the boundary member of the central portion 32a of coupled arm 32 and the boundary member of left side 32b and central portion 32a and right side 32c, the slotted hole 35 of く font that snap-action is improved is set respectively, left side 32b and right side 32c respectively spaced apart two elongated circular holes 36 that snap-action is improved are set.
In addition, arrange in the rear side bottom of sensor holder 27 and link with tab 37, there is the rotating shaft 38 of removal stop section in this link with the front end setting of tab 37.
And then, there is the couple axle 39 of removal stop section in the rear side setting of left and right fin 25.
In addition, the connecting state of the end, indoor of the left and right sides of coupled arm 32 and each left and right fin 25 as shown in Figure 8, the rotating shaft 38 that is arranged on the link tab 37 of sensor holder 27 can rotate and embed and be arranged in the slotted hole 34 of middle position of the central portion 32a that is located at coupled arm 32 with anti-avulsion state slidably, and the couple axle 39 of being located at the rear side of each left and right fin 25 rotatably embeds and is arranged in the slotted hole 35 and elongated circular hole 36 of く font of coupled arm 32 with anti-avulsion state respectively.
In order to make the pendulum angle of left and right fin 25 larger than the pendulum angle of sensor holder 27, form to such an extent that to be compared to the couple axle length of the pivot of left and right fin 25 and the distance of couple axle 39 long as the rotating shaft length of the pivot of sensor holder 27 and the distance of rotating shaft 38.
Therefore, in the time that fin CD-ROM drive motor 30 rotates, the power transmission gear 31 that is installed on motor drive shaft 30a rotates, the sector gear 29 engaging with gear 31 with power transmission rotates, the sensor holder 27 with sector gear 29 is also rotated, along with the rotation of sensor holder 27, the rotating shaft 38 of being located at the link tab 37 of sensor holder 27 is pressed the slotted hole 34 of the central portion 32a of coupled arm 32 in direction of rotation, coupled arm 32 is moved back and forth, the couple axle 39 that embeds the each left and right fin 25 in slotted hole 35 and the elongated circular hole 36 of く font that is arranged on coupled arm 32 is moved back and forth, multiple left and right fin 25 rotates and swings at left and right directions thereupon.
Drive the control part 50 of controlling to be formed by microcomputer to shutter board drive motor 19 and fin drive motor 30, control the upper, middle and lower shutter board 16a of change of the wind device 15 to the angle of rotation of the above-below direction of 16c and the angle of oscillation of left and right fin 25.In addition, on control part 50, be also connected with air supply motor 9.In addition, control part 31 is according to selected operational mode control freeze cycle.
On this control part 50, be connected with operating portion 11 and be disposed in the infrared ray sensor 28 in sensor holder 27.
Be disposed in the distribution 30a of fin drive motor 30 of the rear side central portion of blow-off outlet chamber 3 and the distribution 28a that is disposed in the infrared ray sensor 28 in the sensor holder 27 that rotates freely the left and right directions central portion that is arranged on lower shutter board 16c as shown in Figure 4, divide right and left and be configured.In addition, the distribution 30a of fin drive motor 30 and the distribution 28a of infrared ray sensor 28 respectively the interior of rotating shaft of the upper and lower shutter board 16a of break-through, 16c carry out distribution.Its result, infrared ray sensor 28 is difficult to the impact of the noise that is subject to fin drive motor 30.
As the dehumidifier of this embodiment 1, in the time of the run switch of press operating part 11, control part 50 rotates air supply motor 9, drive Air Blast fan 10, and drive compression machine (omitting diagram), by heat exchanger 8, the air sucking from suction inlet 6 is dehumidified, through the carrying out of air supply path 7 the air of dehumidifying blow out from the blow-off outlet 2 of blow-off outlet chamber 3.
Arrange change of the wind device 15 in this blow-off outlet chamber 3, changed the wind direction of the dehumidifying wind blowing out from blow-off outlet 2 by change of the wind device 15.
Wind direction to change of the wind device 15 is specifically described.
Conventionally,, when the " RUN " button of press operating part 11, while pressing " operation automatically " button, control part 50 is set automatic operational mode for, carries out the removal moisture drying being formed by automatic operational mode.
This automatic operational mode can be carried out the swing of the swing of the above-below direction being formed by upper, middle and lower shutter board 16a~16c as shown in Figure 9 and the left and right directions being formed by multiple left and right fin 25 as shown in Figure 10, Figure 11 continuously, simultaneously by infrared ray sensor 28 test example as the humidity of washings, amplitude of fluctuation is narrowed, concentrate the wet part of washings is dehumidified, the dry air of jetting, so can carry out rapidly uniform removal moisture drying.
In addition, in the time pressing " manually operation " button, control part 50 is set the manual mode of operation detecting without infrared ray sensor 28 for, can carry out more careful setting according to the situation being formed by manual mode of operation.
,, in manual run, can set the pattern of the swing of carrying out the above-below direction being formed by upper, middle and lower shutter board 16a~16c and the pattern of carrying out the swing of the left and right directions being formed by left and right fin 25 for.
Therefore, in the time pressing " swinging up and down " button, become the weave mode swinging up and down, be set as from upper, middle and lower shutter board 16a~16c to blow out dehumidifying wind below above in the situation that, carry out removal moisture drying or footwear etc. dry of bed clothes or floor.In addition, be set as upper, middle and lower shutter board 16a~16c to blow out dehumidifying wind above above in the situation that, carrying out the removal moisture drying on dry, the roof of removal moisture drying, the washings etc. in room.And then, the in the situation that of blowing out dehumidifying wind above being set as from upper, middle and lower shutter board 16a~16c to the back side, carry out the removal moisture drying on dry, the roof of washings etc.
In addition, in the time pressing this and " swing up and down " button, can make the amplitude of fluctuation of above-below direction narrow, or make it to stop.
In addition, under manual mode of operation, in the time pressing " swinging " button, become the weave mode swinging, in the time pressing button, can make the amplitude of fluctuation of left and right directions narrow, or make it to stop.
In the dehumidifier of this embodiment 1, in the time that fin drive motor 30 rotates, the power transmitting gear 31 that is arranged on the motor drive shaft 30a of fin drive motor 30 rotates, there is the sector gear 29 engaging with this power transmitting gear 31, the sensor holder 27 that is rotatably equipped on the central portion of lower shutter board 16c is rotated, the link tab 37 that is arranged on the rear side below of sensor holder 27 moves back and forth the coupled arm 32 linking rotationally with the rear side of multiple left and right fin 25, the plurality of left and right fin 25 at left and right directions spaced apart and left and right directions rotatably pivot suspension upper, in, between lower shutter board 16a~16c, along with the reciprocating motion of coupled arm 32, multiple left and right fin 25 rotates and swings at left and right directions, so, owing to not being the link mechanism that prior art has cam like that, therefore can expand the movable range of coupled arm 32, and can expand the rotatable scope of left and right fin 25, and then can reduce the torque of fin drive motor 30, can make 30 miniaturizations of fin drive motor, and the reciprocating speed of coupled arm 30 is certain, so the rotary speed of left and right fin 25 also becomes necessarily, there is the effect that forms smooth and easy rotation.
In addition, by fin drive motor 30 being arranged on to the central portion of upper shutter board 16a, there is the effect that can save base side space.
And then, because the central portion at lower shutter board 16c rotatably carries sensor holder 27, so the sensor holder 27 performances function same with left and right fin 25 cardinal principles.
In addition, because change of the wind device 15 is assembled into the shutter board maintenance that forms blow-off outlet chamber 3 with in housing 5, so be not not the action that the words of the dehumidifier of commercialization just can not be confirmed change of the wind device 15, can keep carrying out confirming operation with housing 5 to being assembled with the shutter board of change of the wind device 15 individually.
And then, fin drive motor 30 is rotated driving, sensor holder 27 is rotated, the infrared ray sensor 28 being disposed in this sensor holder 27 also rotates, along with the rotation of sensor holder 27, the link tab 37 that is located at the rear side below of sensor holder 27 rotates at left and right directions, by the reciprocating motion of the coupled arm 32 that links with tab 37 with this link rotationally, rear side is driven at left and right directions with multiple left and right fin 25 that coupled arm 32 links rotationally, so, infrared ray sensor 28 and left and right fin 25 identical towards becoming, the washings that can grasp infrared ray sensor 28 blows out dehumidifying wind exactly.
Claims (5)
1. a dehumidifier, described dehumidifier dehumidifies to the air that is drawn into body interior from the suction inlet of body box, blows out to body box from the blow-off outlet of body box, it is characterized in that,
Front face side top at described body box arranges the blow-off outlet chamber with described blow-off outlet, arranges the change of the wind device of the wind direction that can change the dehumidifying wind blowing out from blow-off outlet in this blow-off outlet chamber,
Described change of the wind device possesses:
At least two upper and lower shutter boards, at above-below direction in opposite directions, the left and right sides is linked and is integrated by web described at least two upper and lower shutter boards;
Transverse axis, described transverse axis is arranged on respectively the web of the left and right sides that links this upper and lower shutter board, above-below direction rotationally pivot suspension at the left and right of blow-off outlet chamber sidewall;
Upper and lower shutter board drive motor, described upper and lower shutter board drive motor makes this transverse axis rotation, and upper and lower shutter board is rotated at above-below direction;
Multiple left and right fin, described multiple left and right fin at left and right directions spaced apart and left and right directions rotatably pivot suspension between described upper and lower shutter board;
Coupled arm, described coupled arm links with the rear side of this left and right fin rotationally;
Sensor holder, described sensor holder is rotatably mounted in the cardinal principle central portion of described lower shutter board;
Infrared ray sensor, described infrared ray sensor is disposed in this sensor holder in the mode of the front face side sensor window that faces this sensor holder;
Link tab, described link is arranged on the rear side of described sensor holder with tab, link rotationally with the central portion of described coupled arm; And
Fin drive motor direct or that drive described sensor holder to rotate via Poewr transmission mechanism,
Described fin drive motor is rotated driving, and described sensor holder is rotated,
The infrared ray sensor being disposed in this sensor holder also rotates,
Along with the rotation of this sensor holder, the link tab that is arranged on the rear side below of sensor holder rotates at left and right directions,
By the reciprocating motion of coupled arm linking with tab with this link rotationally, rear side is driven at left and right directions with multiple left and right fin that this coupled arm links rotationally.
2. dehumidifier as claimed in claim 1, is characterized in that, described Poewr transmission mechanism comprises:
Sector gear, described sector gear is arranged on the top of the rear side of described sensor holder, has the pivot consistent with the pivot of sensor holder; And
Power transmission gear, described power transmission is engaged with described sector gear with gear, and pivotal mounting is in fin drive motor.
3. dehumidifier as claimed in claim 1, is characterized in that, described change of the wind device is assembled into the shutter board maintenance housing that forms described blow-off outlet chamber.
4. dehumidifier as claimed in claim 2, is characterized in that, described change of the wind device is assembled into the shutter board maintenance housing that forms described blow-off outlet chamber.
5. the dehumidifier as described in any one in claim 1 to 4, it is characterized in that, divide right and left and configure the distribution being connected with described fin drive motor and the distribution being connected with described infrared ray sensor, the interior of rotating shaft of the upper and lower shutter board of each distribution break-through is carried out distribution.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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JP2010019071A JP5506436B2 (en) | 2010-01-29 | 2010-01-29 | Dehumidifier |
JP2010-019071 | 2010-01-29 |
Publications (2)
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CN102141294A CN102141294A (en) | 2011-08-03 |
CN102141294B true CN102141294B (en) | 2014-06-18 |
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Application Number | Title | Priority Date | Filing Date |
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CN201010174044.8A Expired - Fee Related CN102141294B (en) | 2010-01-29 | 2010-05-06 | Dehumidifier |
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JP (1) | JP5506436B2 (en) |
CN (1) | CN102141294B (en) |
HK (1) | HK1157001A1 (en) |
NZ (1) | NZ601457A (en) |
TW (1) | TWI445911B (en) |
WO (1) | WO2011093010A1 (en) |
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JP6009926B2 (en) * | 2012-12-13 | 2016-10-19 | 株式会社コロナ | Air conditioner louver structure |
JP2014126262A (en) * | 2012-12-26 | 2014-07-07 | Corona Corp | Louver structure of air conditioner |
JP6344213B2 (en) * | 2014-11-21 | 2018-06-20 | 三菱電機株式会社 | Air cleaner |
WO2016143393A1 (en) * | 2015-03-12 | 2016-09-15 | 三菱電機株式会社 | Air purifier |
JP6504934B2 (en) * | 2015-06-23 | 2019-04-24 | シャープ株式会社 | Air blower |
CN105526696A (en) * | 2016-01-14 | 2016-04-27 | 珠海格力电器股份有限公司 | Air-sweeping structure and air conditioner |
TWI769178B (en) * | 2016-09-28 | 2022-07-01 | 日商松下知識產權經營股份有限公司 | Dehumidifier |
CN107702307B (en) * | 2017-09-12 | 2023-07-14 | 珠海格力电器股份有限公司 | Air deflector mechanism and air conditioner with same |
JP7162495B2 (en) * | 2018-10-31 | 2022-10-28 | 三菱電機株式会社 | dehumidifier |
CN111271866B (en) * | 2019-07-17 | 2022-03-01 | 宁波奥克斯电气股份有限公司 | Air conditioner |
DE202019104394U1 (en) * | 2019-08-09 | 2019-08-16 | Illinois Tool Works Inc. | Coupling rod for manipulating in an air vent for vehicles used for use louvers, air vents for a vehicle and Luftausströmersystem |
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2011
- 2011-01-12 NZ NZ601457A patent/NZ601457A/en not_active IP Right Cessation
- 2011-01-12 WO PCT/JP2011/000090 patent/WO2011093010A1/en active Application Filing
- 2011-01-17 TW TW100101592A patent/TWI445911B/en active
- 2011-10-19 HK HK11111176.0A patent/HK1157001A1/en unknown
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Also Published As
Publication number | Publication date |
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NZ601457A (en) | 2013-08-30 |
JP5506436B2 (en) | 2014-05-28 |
WO2011093010A1 (en) | 2011-08-04 |
TWI445911B (en) | 2014-07-21 |
CN102141294A (en) | 2011-08-03 |
TW201202635A (en) | 2012-01-16 |
JP2011158136A (en) | 2011-08-18 |
HK1157001A1 (en) | 2012-06-22 |
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