JP2018141591A - Dehumidifier - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a dehumidifier according to the present invention that further improves the speed of drying clothing having been washed.SOLUTION: A controller 34 controls a first rotary part 18 and a second rotary part so as to let them move differently. A first wind direction changing part 16 and a second wind direction changing part 17 are aligned in the long side direction of an air blowing port 3. The first wind direction changing part 16 is disposed on one short-side side of the air blowing port 3 and the second wind direction changing part 17 is disposed on the other short-side side of the air blowing port 3. A rotary shaft of the first wind direction changing part 16 and a rotary shaft of the second wind direction changing part 17 extend in the long side direction of the air blowing port 3. The first wind direction changing part 16 is provided with a first other rectifying plate 35 extending downward from the end part on the other short-side side of the first wind direction changing part 16 on the air blowing port 3 and extending in the direction of the short side of the air blowing port.SELECTED DRAWING: Figure 6

Description

The present invention relates to a dehumidifying device used for drying clothes, for example.

  Conventionally, this type of dehumidifier includes a main body case having an air blowing port at the top, a dehumidifying part and an air blowing part provided in the main body case, and a wind direction changing part provided in the air blowing port. It was. A dehumidifying device provided with a dehumidifying part in the main body case has a high dehumidifying capacity and is actively used for drying clothes.

  That is, the room air is used as dry air in the dehumidifying section, and the dry air is blown toward the clothes after washing to improve the drying efficiency. When the laundry is difficult to dry, it is very useful. (In addition, there exists the following patent document 1 as a prior literature relevant to this)

JP 2006-102578 A

  The problem in the above conventional example is to further improve the drying rate of the clothes after washing.

  In other words, in a conventional product, room air is sucked into the main body case by the blower, the indoor air is dehumidified by the dehumidifying part provided in the main body case, and the dehumidified air is dried after washing by the blower. The air is directed toward the clothing. Here, when the clothes after washing are dried, the drying speed is determined by the degree of drying of the blown air, the amount of blown air, and the surface area of the clothes to be blown. Particularly, since the drying speed is very slow in a portion where the air blow does not occur, it is important to apply the air flow to the clothing as much as possible to increase the surface area of the clothing to which the air blows. As a means of increasing the surface area of the air blow applied to clothing, there is a conventional method of increasing the air blown from the air blowing port by using a wind direction changing unit that automatically moves, but the wind direction changing unit has a constant rhythm of wind direction change and wind speed. There is a limit to the expansion of the surface area of the air blow applied to clothing because it only affects the action of change.

  SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to further improve the drying rate of clothes after washing.

  In order to achieve this object, the present invention provides a main body case having a suction port and a horizontally long outlet opening upward, a dehumidifying part provided in the main body case, and air sucked from the suction port. A blower that blows air to the air outlet through the dehumidifying part, a first air direction changer and a second air direction changer that are provided above the air outlet so as to be rotatable in the vertical direction, A first rotating unit that rotates the first wind direction changing unit, a second rotating unit that rotates the second wind direction changing unit, and a control unit that controls the rotating unit; The control unit controls the first rotating unit and the second rotating unit so that their operations are different, and the first wind direction changing unit and the second wind direction changing unit Arranged in the long side direction of the outlet, the first wind direction changing portion is provided on one short side of the outlet, and the second wind direction The changing portion is provided on the other short side of the air outlet, and the rotation axis of the first air direction changing portion and the second air direction changing portion extends in the long side direction of the air outlet, 1 wind direction change part provided the 1st other baffle plate extended from the edge part by the side of the other short side in the blower outlet of the 1st wind direction change part to the short side direction in the blower outlet. Yes, and this achieves the intended purpose.

  According to the present invention, a main body case having a suction port and a horizontally long outlet opening upward, a dehumidifying part provided in the main body case, and the air sucked from the suction port through the dehumidifying part An air blower that blows air to the air outlet, a first air direction changing unit and a second air direction changing unit that are rotatably provided in the vertical direction above the air outlet, and the first air direction changing unit are rotated. A first rotation unit to be moved, a second rotation unit to rotate the second wind direction changing unit, and a control unit to control the rotation unit, wherein the control unit includes the first rotation unit And the second rotation unit are controlled so as to be different in operation, and the first wind direction change unit and the second wind direction change unit are arranged in the long side direction of the air outlet, The first wind direction changing unit is provided on one short side of the air outlet, and the second wind direction changing unit is provided at the air outlet. The rotation axis of the first wind direction changing unit and the second wind direction changing unit is provided on the other short side, and extends in the long side direction of the air outlet. The first wind direction changing unit is By adopting a configuration in which the first other current plate extending from the end portion on the other short side of the first air direction changing portion to the short side direction of the air outlet is provided, On the other hand, the flow of the blown air blown from the other short side of the air outlet is inhibited by suppressing the blown air blown from the short side from flowing into the second wind direction changing unit. By preventing the blown air blown from the other short side of the blowout outlet from flowing into the first wind direction changing portion, the blown air blown from the short side of the blowout outlet is reduced. Can prevent the flow from being obstructed, Since the blown air blown out from the outlet is efficiently blown out through the first wind direction changing portion and the second wind direction changing portion, the surface area of the blown air hitting the clothing is increased, and drying unevenness is reduced. By reducing, the clothes drying speed can be improved.

1 is an external perspective view of a dehumidifier according to Embodiment 1 of the present invention. Cross section of the dehumidifier External perspective view of the vicinity of the outlet of the dehumidifier External perspective view of the vicinity of the wind direction changing part excluding the side case of the dehumidifier External perspective view of the vicinity of the air outlet excluding the side case of the dehumidifier External perspective view of the vicinity of the outlet of the dehumidifier Cross-sectional perspective view of the air blowing part of the dehumidifier

  Embodiments of the present invention will be described below with reference to the drawings.

(Embodiment 1)
FIG. 1 is an external perspective view of a dehumidifying device according to Embodiment 1 of the present invention. FIG. 2 is a cross-sectional view of the dehumidifying device according to Embodiment 1 of the present invention.

  As shown in FIGS. 1 and 2, the main body case 1 has a box shape, and suction ports 2 are arranged on the left and right sides of the main body case 1, and an air outlet 3 is arranged on the upper side. The blower outlet 3 has a horizontally long rectangular shape and opens upward.

  In the main body case 1, a refrigeration cycle in which a compressor 4, a radiator 5, an expander 6, and a heat absorber 7 are sequentially connected in an annular manner to circulate the refrigerant is installed, and indoor air is passed from the inlet 2 to the outlet 3. A blowing unit 8 for blowing air is installed. Furthermore, the dehumidification rotor 11 which has the moisture absorption part 9 which adsorb | sucks a water | moisture content from air, and the moisture release part 10 which discharge | releases a water | moisture content to air is provided, the air supplied to the moisture release part 10, and the heating which heats the moisture release part 10 Part 12 is provided.

  And in the main body case 1, the dehumidification rotor 11, the heat absorber 7, the heat radiator 5, and the ventilation part 8 are arranged in order in order. The upper ends of the heat absorber 7 and the radiator 5 are arranged so as to have the same height. The dehumidification rotor 11 is formed in a disk shape, is erected so as to be rotatable so that the central axis is in the horizontal direction, and is rotated by the drive unit 13. Further, a heating unit 12 is installed on the windward side of the moisture releasing unit 10 of the dehumidifying rotor 11. The moisture release part 10 and the heat absorber 7 are arrange | positioned so that it may oppose.

  In the main body case 1, a funnel-shaped water collecting portion 14 is provided below the heat absorber 7, and a water collecting tank 15 is detachably attached to the main body case 1 below the water collecting portion 14. Is arranged. That is, dew condensation is caused at the heat absorber 7, and the condensed water is collected by the funnel-shaped water collecting part 14 and flows into the water collecting tank 15.

  The main body case 1 includes a first air passage 1A, a second air passage 1B, and a third air passage 1C.

  The first air passage 1 </ b> A is an air passage that sucks air from the suction port 2 by the air blower 8, supplies the air to the moisture absorber 9, and discharges it to the air outlet 3 through the air blower 8. In the first air passage 1 </ b> A, the indoor air sucked from the suction port 2 is supplied to the moisture absorbing portion 9 of the dehumidifying rotor 11. At this time, moisture in the air is adsorbed by the hygroscopic section 9 and becomes dry air. Furthermore, since heat of adsorption is generated when moisture is adsorbed, the indoor air is sucked into the blower 8 mainly through the radiator 5 and the heat absorber 7 while the humidity is reduced and the temperature is increased. The air is blown into the room from the air outlet 3.

  The 2nd ventilation path 1B attracts | sucks air from the suction inlet 2 by the ventilation part 8, supplies in order of the heating part 12, the moisture release part 10, the heat absorber 7, and the heat radiator 5, and discharges | emits from an outlet through the ventilation part 8 It is a wind path. In the 2nd ventilation path 1B, the indoor air warmed by the heating part 12 is supplied to the moisture release part 10 of the dehumidification rotor 11. FIG. In the moisture releasing part 10, the moisture adsorbed by the moisture absorbing part 9 moves to the moisture releasing part 10 by the rotational drive of the dehumidifying rotor 11, and is released to the air supplied by the heating of the heating part 12. This high-humidity air is supplied to the heat absorber 7 and is condensed by being cooled, and moisture is taken out as water droplets. Thereafter, the cooled air is supplied to the radiator 5 to cool the radiator 5. And the heat which took heat from the heat radiator 5 and the temperature rose will be attracted | sucked by the ventilation part 8. FIG. As the refrigeration cycle, effectively cooling the radiator 5 increases the cooling efficiency when the heat absorber 7 is cooled.

  The first air passage 1 </ b> C is an air passage that sucks air from the suction port 2 by the air blower 8, supplies the air to the radiator 5, and discharges the air from the air outlet 3 through the air blower 8. In the 3rd ventilation path 1C, the indoor air suck | inhaled from the suction inlet 2 was supplied to the heat radiator 5 mainly through the lower part of the heating part 12, the dehumidification rotor 11, and the heat absorber 7, and the heat radiator 5 was cooled. After that, the air is sucked into the blowing unit 8.

  For cooling condensation in the heat absorber 7, there is an optimum air volume depending on the surface area, the operating heat amount of the refrigeration cycle, and the like. On the other hand, in the refrigeration cycle, effective cooling of the radiator 5 increases the cooling efficiency when the heat absorber 7 is cooled. By disposing the third air passage 1C as described above, a large amount of air can be supplied to the radiator 5, so that the cooling efficiency of the refrigeration cycle can be improved and the dehumidification efficiency of the dehumidifier is improved. It is something that can be done. The refrigeration cycle, the dehumidifying rotor 11, the heating unit 12, and the driving unit 13 are dehumidifying units.

  FIG. 3 is an external perspective view of the vicinity of the air outlet of the dehumidifier according to Embodiment 1 of the present invention. FIG. 4 is an external perspective view of the vicinity of the wind direction changing unit excluding the side case of the dehumidifying apparatus according to Embodiment 1 of the present invention.

As shown in FIGS. 3 and 4, a first wind direction changing unit 16 and a second wind direction changing unit 17 are rotatably provided above the air outlet 3 that opens upward. The first wind direction changing unit 16 moves so as to rotate in the vertical direction by the first rotating unit 18, and the second wind direction changing unit 17 is moved up and down by the second rotating unit (not shown). Move to rotate in the direction. )
As shown in FIGS. 3 and 4, a first wind direction changing unit 16 and a second wind direction changing unit 17 are rotatably provided above the air outlet 3 that opens upward. The 1st wind direction change part 16 and the 2nd wind direction change part 17 are arrange | positioned in the orthogonal | vertical direction with respect to the direction to rotate. Specifically, the 1st wind direction change part 16 and the 2nd wind direction change part 17 are located in a line with the long side direction of the blower outlet 3, and are on the right side (one short side side in the blower outlet 3) in the blower outlet 3. The first wind direction changing unit 16 is provided, and the second wind direction changing unit 17 is provided on the left side of the air outlet 3 (the other short side of the air outlet). The rotation axes of the first wind direction changing unit 16 and the second wind direction changing unit 17 extend in the long side direction of the air outlet 3.

  The first wind direction changing unit 16 includes a substantially flat plate-shaped first wind direction plate 20 and two first shaft portions 21 extending in the horizontal direction from the left and right end portions of the first wind direction plate 20. Yes. The blower outlet 3 is provided with two first support portions 22 that support two shaft portions. A first gear 23 is fixed to one side of the first shaft portion 21.

  The first rotation unit 18 includes a first motor 24 and a first motor gear 25 fixed to the rotation shaft of the first motor 24. The first motor gear 25 meshes with the first gear 23, and when the first motor 24 is driven, the first motor gear 25 is rotated and the first gear 23 and the first shaft portion 21 are interposed. The first wind direction plate 20 rotates.

  The second wind direction changing unit 17 includes a horizontally elongated second plate 26 having a substantially flat plate shape, and two second shaft portions extending outward from the short sides of the second wind direction plate 26 in the horizontal direction. (Not shown). The blower outlet 3 is provided with two second support portions 28 that support the two shaft portions. A second gear (not shown) is fixed to one side of the second shaft portion.

  The second rotating unit (not shown) includes a second motor (not shown) and a second motor gear (not shown) fixed to the rotation shaft of the second motor. The second motor gear meshes with the second gear, and when the second motor is driven, the second motor gear rotates, and the second wind direction plate 26 passes through the second gear and the second shaft portion. Rotate.

  The 1st wind direction change part 16, the 1st rotation part 18, the 2nd wind direction change part 17, and the 2nd rotation part are the right-and-left symmetrical structures in the center of the main body right and left.

  The 1st wind direction change part 16 and the 2nd wind direction change part 17 are located in a line with the orthogonal | vertical direction with respect to the direction to rotate. A first air direction changing unit 16 is provided on the right side of the air outlet 3, and a second air direction changing unit 17 is provided on the left side of the air outlet 3. The first shaft portion 21 of the first wind direction plate 20 that is the first wind direction changing portion 16 and the second shaft portion of the second wind direction plate 26 that is the second wind direction changing portion 17 are coaxial. The main body case 1 extends in the left-right direction.

  A first side case 32a is provided at the right end of the air outlet 3, and a first motor 24, a first motor gear 25, and a first gear 23 are provided in the first side case 32a. It has. A first support portion 22 that supports the first shaft portion 21 on one side of the first wind direction plate 20 is provided on the left side of the first side case 32a.

  A second side case 32b is provided at the left end of the air outlet 3, and a second motor, a second motor gear, and a second gear are provided in the second side case 32b. Yes. On the right side of the second side case 32 b, a second support portion 28 that supports the second shaft portion on one side of the second wind direction plate 26 is provided.

  Between the 1st side case 32a and the 2nd side case 32b, the 3rd side case 32c which protruded upwards from the blower outlet 3 is provided. The right side of the third side case 32c includes a first support portion 22 that supports the first shaft portion 21 on the other side of the first wind direction plate 20, and the left side of the third side case 32c includes A second support portion 28 that supports the second shaft portion on the other side of the second wind direction plate 26 is provided.

  FIG. 5 is an external perspective view of the vicinity of the air outlet excluding the side case of the dehumidifying apparatus according to Embodiment 1 of the present invention.

  As shown in FIG. 5, an operation unit 33 and a control unit 34 are provided on the upper portion of the main body case 1. When the operation mode is set by the operation unit 33, the control unit 34 controls the operations of the first motor 24 and the second motor. By this control unit 34, the first wind direction changing unit 16 and the second wind direction changing unit 17 perform the operation of repeating the reciprocating rotation at an angle of about 90 degrees.

  FIG. 6 is an external perspective view of the vicinity of the air outlet of the dehumidifier according to Embodiment 1 of the present invention.

  As shown in FIG. 6, the feature of the present embodiment is that the first wind direction changing portion 16 is provided on one short side of the air outlet 3 (on the right side when viewed from the rear surface side of the main body case 1). The portion 17 is provided on the other short side of the air outlet 3 (left side as viewed from the rear side of the main body case 1). The first wind direction changing unit 16 extends downward from the end of the other short side (the left side when viewed from the front side of the main body case) of the first wind direction changing unit 16 and in the short side direction of the air outlet 3. That is, the first other rectifying plate 35 having an elongated horizontally long plate shape is provided.

  According to such a configuration, if the first wind direction changing unit 16 is opened from the second wind direction changing unit 17, the first other rectifying plate 35 is on the short side (the main body case) of the outlet 3. The air blown from the right side as viewed from the rear surface side is prevented from leaking from the other side (second wind direction changing unit side) of the first wind direction changing unit 16, and the first wind direction changing unit 16 is suppressed. The wind can be sent to the tip side. Further, if the first wind direction changing unit 16 is closed from the second wind direction changing unit 17 and if the positions of the first wind direction changing unit 16 and the second wind direction changing unit 17 are aligned, the first On the other hand, the rectifying plate 35 leaks the blown air blown from one short side of the outlet 3 from the other side (second wind direction changing unit side) of the first wind direction changing unit 16 to the second wind direction changing unit 17 side. The air flow is suppressed and the wind is sent to the front end side of the first air direction changing unit 16 and the inflow to the second air direction changing unit 17 is suppressed, and the other short side of the air outlet 3 (the rear side of the main body case) It is possible to prevent the flow of the blown air blown out from the left side as viewed from the side.

  Thereby, since the blowing air blown out from the blower outlet 3 is efficiently blown through the first wind direction changing unit 16 and the second wind direction changing unit 17, a reduction in the air volume is suppressed, and the blowing air hitting the clothing is suppressed. By increasing the surface area and reducing unevenness in drying, the drying rate of clothes can be improved.

  In addition, the second wind direction changing unit 17 is configured so that the second wind direction changing unit 17 extends downward from the end of one short side (right side when viewed from the rear side of the main body case) of the second air direction changing unit 17 and the short side of the outlet 3. A second elongated current plate 36 extending in the direction may be provided.

  According to such a configuration, if the second wind direction changing unit 17 is opened from the first wind direction changing unit 16, the blown air from which the second one rectifying plate 36 is blown out from the other outlet 3. Can be prevented from leaking from one side (first wind direction changing unit side) of the second wind direction changing unit 17, and the wind can be sent to the tip side of the second wind direction changing unit 17. Further, if the second wind direction changing unit 17 is closed from the first wind direction changing unit 16 and if the positions of the second wind direction changing unit 17 and the first wind direction changing unit 16 are aligned, the second The one air flow straightening plate 36 is blown from the other short side of the air outlet 3 (left side as viewed from the rear surface side of the main body case 1), and the one side of the second air direction changing unit 17 (first air direction change) The air flow is suppressed from leaking from the portion 16 side) to the first wind direction changing portion 16 side, the wind is sent to the tip side of the second wind direction changing portion 17, and the inflow to the first wind direction changing portion 16 is suppressed. It is possible to prevent obstructing the flow of the blown air blown from one short side of the air outlet 3.

  Thereby, since the blowing air blown out from the blower outlet 3 is efficiently blown out through the first wind direction changing unit 16 and the second wind direction changing unit 17, a reduction in the air volume is suppressed, and the blowing air hitting the clothing is suppressed. By increasing the surface area and reducing unevenness in drying, the drying rate of clothes can be improved.

  In addition, the first wind direction changing unit 16 is a horizontally long plate-shaped first extending from the end on one short side of the air outlet 3 of the first air direction changing unit 16 downward and in the short side direction of the air outlet 3. On the other hand, a current plate 37 may be provided.

  According to such a structure, the 1st one baffle plate 37 changes the 1st wind direction from the blowing air blown from the one short side side (right side seeing from the rear surface side of the main body case 1) in the blower outlet 3. It is possible to suppress leakage from one side (first side case side) of the part 16 and to send wind to the front end side of the first wind direction changing part 16, and the blown air blown out from the outlet 3 is Since it blows efficiently through the 1st wind direction change part 16, the surface area of the ventilation which hits clothing becomes large, and clothing drying speed can be improved by reducing drying unevenness.

  In addition, the second wind direction changing unit 17 is a horizontally elongated second plate shape extending from the other short side end of the air outlet 3 of the second air direction changing unit 17 downward and in the short side direction of the air outlet 3. On the other hand, a current plate 38 may be provided.

  According to such a configuration, the second other rectifying plate 38 changes the second air direction from the blown air blown from the other short side (left side as viewed from the rear surface side of the main body case 1) of the air outlet 3. It is possible to suppress leakage from the other side (second side case side) of the portion 17 and to send wind to the tip side of the first wind direction changing portion 16, and the blown air blown out from the blowout port 3 Since the air is blown efficiently through the second wind direction changing unit 17, the surface area of the air blown against the clothing is increased, and the drying speed of the clothing can be improved by reducing drying unevenness.

  FIG. 7 is a cross-sectional perspective view of the air blowing unit of the dehumidifying apparatus according to Embodiment 1 of the present invention.

  As shown in FIG. 7, the air blower 8 has a scroll-shaped casing 8a, a motor 8b fixed to the casing 8a, and a fan 8c fixed to the rotating shaft of the motor 8b. The rotation shaft of the motor 8b extends in the short side direction of the air outlet 3 (front-rear direction in the main body case 1), and the casing 8a has a tongue on the other short side of the air outlet 3 (left side when viewed from the rear surface side of the main body case). It is good also as a structure which provided the part 8d. Specifically, as shown in the figure, the casing 8a includes a suction surface 8e that fixes the motor 8b and has a suction port, a suction facing surface 8f that faces the suction surface 8e, a suction surface 8e, and a suction facing surface 8f. And a scroll surface 8g sandwiched therebetween. The tongue portion 8d is arranged on one short side (right side as viewed from the rear surface side of the main body case) or the other short side (left side as viewed from the rear surface side of the main body case) of the air outlet 3 on the scroll surface 8g.

  Thereby, since the rotation axis direction of the fan 8c is the front-rear direction in the main body case 1, the horizontal cross section of the main body case 1 can be formed into a horizontally long rectangular shape, and the long side direction of the horizontally long rectangular shape of the outlet 3; Since it can arrange | position in the same direction as the long side direction of the horizontal cross section of the main body case 1, the main body case 1 can be reduced in size.

  As an example, a configuration in which the tongue portion 8d is disposed on the other short side of the air outlet 3 on the scroll surface 8g (left side when viewed from the rear surface side of the main body case) will be described. According to such a configuration, if the first wind direction changing unit 16 is opened from the second wind direction changing unit 17 with respect to the air flow biased toward the tongue 8d side, the first other rectification is performed. The air blown out from one short side (right side as viewed from the rear side of the main body case) of the air outlet 3 by the plate 35 is sent to the other side of the first wind direction changing unit 16 (second wind direction changing unit side). Leakage from the air can be suppressed, and the wind can be sent to the front end side of the first wind direction changing unit 16. Moreover, the 2nd one baffle plate 36 suppresses the inflow to the 2nd wind direction change part 17, and the blowing air blown off from the other short side side (left side seeing from the rear surface side of a main body case) in the blower outlet 3 is shown. It is possible to prevent the flow from being obstructed. Further, the second other rectifying plate 38 leaks the blown air blown from the other short side (the left side when viewed from the rear side of the main body case) of the blowout port 3 from the other side of the second wind direction changing unit 17. This can be suppressed and the wind can be sent to the distal end side of the second wind direction changing unit 17.

  Further, if the first wind direction changing unit 16 is closed from the second wind direction changing unit 17, the first other rectifying plate 35 is connected to one short side of the outlet 3 (viewed from the rear side of the main body case). The right side) of the blown air is prevented from leaking from the other side (second wind direction changing unit side) of the first wind direction changing unit 16, and the air is blown toward the tip side of the first wind direction changing unit 16. And the flow into the second wind direction changing portion 17 is suppressed, and the flow of the blown air blown out from the other short side (the left side when viewed from the rear side of the main body case 1) of the air outlet 3 is inhibited. Can be prevented. Further, the second other rectifying plate causes the blown air blown from the other short side (left side as viewed from the rear surface side of the main body case 1) of the air outlet 3 to the other side (second side) of the second wind direction changing unit 17. It is possible to suppress the leakage from the side case side) and to send the wind to the front end side of the second wind direction changing portion 17.

  Thereby, since the blowing air blown out from the blower outlet 3 is efficiently blown out through the first wind direction changing unit 16 and the second wind direction changing unit 17, the surface area of the blown air hitting the clothing is increased, and the dry unevenness It is possible to improve clothing drying speed by reducing.

  Since the dehumidifying apparatus according to the present invention can improve the drying speed of clothes by reducing drying unevenness, it is useful as a dehumidifying apparatus used for drying clothes.

DESCRIPTION OF SYMBOLS 1 Main body case 1A 1st ventilation path 1B 2nd ventilation path 1C 3rd ventilation path 2 Intake port 3 Outlet 4 Compressor 5 Radiator 6 Inflator 7 Heat absorber 8 Blower part 8a Casing 8b Motor 8c Fan 8d Tongue part 8e Suction Surface 8f Suction facing surface 8g Scroll surface 9 Moisture absorbing portion 10 Moisture releasing portion 11 Dehumidifying rotor 12 Heating portion 13 Driving portion 14 Water collecting portion 15 Water collecting tank 16 First air direction changing portion 17 Second air direction changing portion 18 First Rotating unit 20 First wind direction plate 21 First shaft portion 22 First support portion 23 First gear 24 First motor 25 First motor gear 26 Second wind direction plate 28 Second support portion 32a First 1 side case 32b 2nd side case 32c 3rd side case 33 operation part 34 control part 35 1st other rectifier plate 36 2nd one rectifier plate 37 1st one rectifier 38 second other rectifying plate

Claims (5)

A main body case having a suction port and a horizontally long outlet opening upward;
A dehumidifying part provided in the main body case;
A blower unit for blowing air sucked from the suction port to the outlet through the dehumidifying unit;
A first wind direction changer and a second wind direction changer provided so as to be rotatable in the vertical direction above the air outlet;
A first rotating section for rotating the first wind direction changing section;
A second rotating unit for rotating the second wind direction changing unit;
A control unit for controlling the rotating unit,
The control unit controls the first rotating unit and the second rotating unit so that their operations are different,
The first wind direction changing unit and the second wind direction changing unit are arranged in the long side direction of the outlet,
The first wind direction changing portion is provided on one short side of the air outlet,
The second wind direction changing portion is provided on the other short side of the air outlet,
The rotation axis of the first wind direction changing unit and the second wind direction changing unit extends in the long side direction of the outlet,
The first wind direction changing portion is provided with a first other rectifying plate extending downward from an end portion on the other short side of the air outlet of the first air direction changing portion and in a short side direction of the air outlet. A dehumidifying device characterized by that. The second wind direction changing portion is provided with a second one rectifying plate extending downward from an end portion on one short side of the air outlet of the second air direction changing portion and in a short side direction of the air outlet. The dehumidifying device according to claim 1. The first wind direction changing portion is provided with a first one rectifying plate extending downward from an end portion on one short side of the air outlet of the first air direction changing portion and in a short side direction of the air outlet. The dehumidifying device according to claim 1, wherein the dehumidifying device is provided. The second wind direction changing portion is provided with a second other current plate extending downward from the other short side end portion of the second air direction changing portion and in the short side direction of the air outlet. The dehumidifying device according to any one of claims 1 to 3, wherein The blowing section is
A scroll-shaped casing;
A motor fixed to the casing;
A fan fixed to the rotating shaft of the motor,
The rotating shaft of the motor extends in the short side direction of the air outlet,
The dehumidifying device according to claim 1, wherein the casing has a tongue on the other short side of the air outlet.