JP6607112B2 - Humidified air purifier - Google Patents

Description

  The present invention relates to a humidified air cleaner.

  Patent Document 1 describes a humidifier. The humidifier described in Patent Literature 1 includes a container frame. A first air outlet and a second air outlet are opened in the container frame. Moreover, the humidifier described in Patent Document 1 includes a blower, a mist generation unit, and a filter.

  The air blower of the humidifier described in Patent Document 1 generates an air flow and takes in air. The air taken in by the blower is cleaned by the filter. Part of the air cleaned by the filter is blown out from the first air outlet. Moreover, the air taken in by the blower is humidified by the fog generating unit. The air humidified by the mist generation unit is blown out from the second air outlet. Thereby, the humidifier of patent documents 1 humidifies and cleans indoor air.

Japanese Utility Model Publication No.4-1334

  In the humidifier described in Patent Document 1, the humidified air is blown out from a second outlet formed in the container frame. The user cannot adjust the height at which the humidified air is blown out. In the humidifier described in Patent Document 1, humidified air cannot be supplied to a target at a desired height.

  The present invention has been made to solve the above-described problems. An object of the present invention is to provide a humidified air cleaner that can humidify and clean air and supply the humidified air to a target at a desired height.

The humidified air cleaner according to the present invention includes an air purifying unit, a humidifying unit, and a movable portion provided between the air purifying unit and the humidifying unit. A first air inlet and a first air outlet are formed in the air cleaning unit. The humidification unit is formed with a second air inlet and a second air outlet. The air cleaning unit includes a first fan that takes in air from the first air inlet by generating an air flow, and a cleaning unit that cleans the air. The air cleaned by the cleaning unit is blown out from the first air outlet. The air cleaning unit further includes a duct that guides a part of the air cleaned by the cleaning unit to the second air inlet. The humidifying unit has a humidifying unit that humidifies the air taken in from the second air inlet. The air humidified by the humidifying unit is blown out from the second outlet. A movable part moves a humidification unit to an up-down direction with respect to an air purifying unit.

  The humidified air cleaner according to the present invention includes an air purifying unit, a humidifying unit, and a movable part provided between the air purifying unit and the humidifying unit. A movable part moves a humidification unit to an up-down direction with respect to an air purifying unit. For this reason, if it is a humidified air cleaner which concerns on this invention, it can humidify and clean air, and can supply the humidified air to the object of the position of desired height.

1 is a perspective view of a humidified air cleaner according to Embodiment 1. FIG. It is a longitudinal cross-sectional view of the humidified air cleaner of Embodiment 1. It is a longitudinal cross-sectional view at the time of the humidification air cleaning driving | operation of the humidification air cleaner of Embodiment 1. FIG. It is a perspective view of the humidification air cleaner by which the height of the humidification unit of Embodiment 1 was changed. It is a longitudinal cross-sectional view at the time of the humidification air cleaning operation | movement of the humidification air cleaner by which the height of the humidification unit of Embodiment 1 was changed. It is a longitudinal cross-sectional view at the time of the humidification driving | operation of the humidification air cleaner of Embodiment 1. FIG. It is a longitudinal cross-sectional view at the time of the air cleaning operation | movement of the humidification air cleaner of Embodiment 1. FIG. It is a longitudinal cross-sectional view of a humidification air cleaner when the humidification unit of Embodiment 1 is isolate | separated. It is a longitudinal cross-sectional view at the time of the humidification cleaning operation | movement of the modification of the humidification air cleaner of Embodiment 1. FIG. It is a longitudinal cross-sectional view at the time of the humidification driving | operation of the modification of the humidification air cleaner of Embodiment 1. FIG. It is a figure which shows the structural example of the control means of the humidification air cleaner of Embodiment 1. FIG.

  Embodiments will be described below with reference to the accompanying drawings. In addition, the same code | symbol is attached | subjected to the same part or equivalent part in each figure, and the overlapping description is simplified or abbreviate | omitted.

Embodiment 1 FIG.
The humidified air cleaner 100 according to the first embodiment is a device that cleans and humidifies air. FIG. 1 is a perspective view of a humidified air cleaner 100 according to the first embodiment. FIG. 2 is a longitudinal sectional view of the humidified air cleaner 100 of the first embodiment. Here, the left-right direction on the paper surface of FIG. The vertical direction on the paper surface of FIG. 2 is defined as the vertical direction. The direction perpendicular to the paper surface of FIG. The front-rear direction and the left-right direction are included in the horizontal direction.

  First, an outline of the overall configuration of the humidified air cleaner 100 will be described. The humidified air cleaner 100 includes an air cleaning unit 1, a humidifying unit 2, a movable base 3a, and a movable support 3b.

  The air cleaning unit 1 is formed with an air cleaning unit air inlet 4a which is an example of a first air inlet. In the air cleaning unit 1, a clean air outlet 4b, which is an example of a first outlet, is formed. For example, indoor air is taken into the air cleaning unit 1 from the air cleaning unit air inlet 4a. The air cleaning unit 1 has a function of cleaning air taken in from the air cleaning unit intake 4a. Clean air is blown out from the clean air outlet 4b.

  The humidifying unit 2 is formed with a humidifying unit air inlet 5a which is an example of a second air inlet. Further, the humidifying unit 2 is formed with a high-humidity air outlet 5b which is an example of a second outlet. As an example, the air purified by the air purification unit 1 is taken into the humidification unit 2 from the humidification unit intake port 5a. The humidification unit 2 has a function of humidifying the air taken in from the humidification unit intake port 5a. Humidified air is blown out from the high-humidity air outlet 5b.

  The movable table 3a and the movable support 3b are an example of a movable unit that moves the humidifying unit 2 in the vertical direction. The movable table 3a is, for example, a plate-like portion extending in the horizontal direction. The movable support 3b is, for example, a plate-like part that extends in the vertical direction. The movable table 3a is provided on the upper part of the movable support 3b.

  The movable support 3b is provided on the upper part of the air cleaning unit 1, for example. The movable support 3b is formed to be movable in the vertical direction with respect to the air cleaning unit 1. The movable table 3a is movable in the vertical direction together with the movable support 3b.

  In the present embodiment, the humidifying unit 2 is disposed above the air cleaning unit 1 as shown in FIGS. 1 and 2. The humidification unit 2 is formed to be detachably connectable to the movable table 3a. The humidification unit 2 is installed on the upper surface of the movable table 3a. The movable table 3a and the movable support 3b move in the vertical direction, thereby moving the humidification unit 2 in the vertical direction.

  Next, the air cleaning unit 1 will be described in more detail. The air cleaning unit 1 has a first housing 4. The air cleaning unit air inlet 4 a is formed on the front surface of the first housing 4, for example. Moreover, the clean air blower outlet 4b is formed in the upper surface of the 1st housing | casing 4, for example.

  The air purification unit 1 has the 1st ventilation fan 6 as an example of a 1st fan. The first blower fan 6 is provided inside the first housing 4. The 1st ventilation fan 6 has the 1st motor 6a and the 1st wing | blade part 6b. The first motor 6a rotates the first wing part 6b. The 1st ventilation fan 6 generates an air current by rotation of the 1st wing | blade part 6b.

  The first blower fan 6 generates, for example, an airflow that goes from the outside of the first housing 4 to the inside of the first housing 4 via the air cleaning unit air inlet 4a. The 1st ventilation fan 6 takes in air into the inside of the 1st housing | casing 4 from the air purifying unit inlet 4a by generating an airflow.

  The air cleaning unit 1 includes a filter 7 as an example of a cleaning unit that cleans air. The filter 7 removes dust or odor components in the air, or both dust and odor components. Note that the cleaning unit included in the air cleaning unit 1 is not limited to the filter 7.

  The filter 7 is disposed inside the first housing 4. The filter 7 is disposed in the vicinity of the air cleaning unit intake 4a. The filter 7 is provided so as to cover the air cleaning unit intake 4 a from the inside of the first housing 4. The filter 7 is detachably provided from the inside of the first housing 4.

  An intake duct 8 is provided inside the first housing 4. The intake duct 8 is formed from the filter 7 to the first blower fan 6. The intake duct 8 forms an intake air passage 8 a that extends from the filter 7 to the first blower fan 6.

  The air cleaning unit 1 includes a clean air duct 9 as an example of the first duct. The clean air duct 9 is provided inside the first housing 4. The clean air duct 9 is formed from the first blower fan 6 to the clean air outlet 4b. The clean air duct 9 forms a first air passage 9a from the first blower fan 6 toward the clean air outlet 4b. The first air passage 9a communicates with the intake air passage 8a.

  The air cleaning unit 1 includes a movable duct 10 as an example of the second duct. The movable duct 10 is provided so as to protrude upward from the rear portion of the upper surface of the first housing 4. The movable duct 10 is provided so that a part thereof is inserted into the first housing 4. The movable duct 10 is formed to be movable in the vertical direction with respect to the first housing 4.

  The movable duct 10 is provided so as to form a second air passage 10a from the first blower fan 6 toward the humidifying unit intake port 5a. The second air passage 10a communicates with the intake air passage 8a. Further, as shown in FIG. 2, for example, the movable duct 10 may be formed with an air outlet 10b that opens upward. The blower outlet 10b is an example of a third blower outlet.

  The air cleaning unit 1 has an air volume adjusting valve 11 as an example. In the present embodiment, the first blower fan 6 sends air to the first blower passage 9a and the second blower passage 10a by generating an air flow. The air volume adjusting valve 11 is a valve that adjusts the amount of air sent to the first air passage 9a and the second air passage 10a. The air volume adjustment valve 11 is provided inside the first housing 4. As shown in FIG. 2, the air volume adjusting valve 11 is disposed between the first air passage 9a and the second air passage 10a.

  The air volume adjusting valve 11 is provided with a rotating shaft 11a. The rotating shaft 11 a is fixed inside the first housing 4. The air volume adjusting valve 11 is formed to be rotatable about a rotation shaft 11a. The air volume adjusting valve 11 is formed so as to be able to close the first air passage 9a or the second air passage 10a by rotating.

  The air cleaning unit 1 may have an air cleanliness sensor 12. The air cleanliness sensor 12 is provided above the filter 7 inside the first housing 4. The air cleanliness sensor 12 is an example of a sensor that detects dust and odor contained in the air.

  The air cleaning unit 1 is provided with a first operation display unit 13. The first operation display unit 13 is provided, for example, in the upper part of the front surface of the first housing 4. The first operation display unit 13 is provided, for example, above the air cleaning unit intake 4a.

  The first operation display unit 13 includes a first operation unit 14a. The 1st operation part 14a is an example of the operation means for performing operation of humidification air cleaner 100, and setting of humidification air cleaner 100. As shown in FIG. The first operation unit 14a includes a power switch of the humidified air cleaner 100 as an example. Moreover, the switch for switching the operation mode of the humidification air cleaner 100 as an example is contained in the 1st operation part 14a. The 1st operation part 14a transmits the signal according to operation from a user.

  The first operation display unit 13 includes a first display unit 14b. The first display unit 14b includes a lamp such as an LED. The 1st display part 14b is an example of the display means which shows the state of the humidification air cleaner 100. FIG. The 1st display part 14b shows the state of the humidification air cleaner 100 by lighting and extinguishing of a lamp | ramp.

  The humidified air cleaner 100 includes a first control device 15. The first control device 15 is provided in the air cleaning unit 1, for example. The first control device 15 is provided, for example, inside the first housing 4. The first control device 15 is an example of a device that controls each device provided in the air cleaning unit 1.

  The first control device 15 is disposed, for example, behind the first operation display unit 13. The first control device 15 is connected to the first operation display unit 13. The first control device 15 and the first operation display unit 13 can communicate with each other. The 1st control apparatus 15 operate | moves based on the signal which the 1st operation part 14a transmitted. The first display unit 14 b operates based on a signal from the first control device 15.

  The first motor 6 a is connected to the output side of the first control device 15. The first control device 15 controls the first motor 6a by energization, for example. The driving and stopping of the first blower fan 6 are controlled by the first control device 15. The amount and speed of the air sent by the first blower fan 6 are adjusted by the first control device 15. Further, the air volume adjustment valve 11 is connected to the output side of the first control device 15. The first control device 15 controls the air volume adjusting valve 11.

  Various sensors provided in the humidified air cleaner 100 are connected to the input side of the first control device 15. Various sensors include an air cleanliness sensor 12. The 1st control apparatus 15 operate | moves based on the input from the air cleanliness sensor 12 as an example.

  The air cleaning unit 1 may have a plurality of casters 16. The caster 16 is provided on the lower surface of the first housing 4. Thereby, the movement of the whole air purification unit 1 and the humidification air cleaner 100 becomes easy.

  Next, the movable table 3a and the movable support 3b which are examples of the movable part will be described in more detail. As shown in FIG. 2, the movable table 3a and the movable support 3b of the present embodiment are formed hollow. A space is formed in the movable table 3a and the movable support 3b. The space inside the movable table 3a communicates with the space inside the movable support 3b. Further, the space inside the movable support 3b communicates with the space inside the first housing 4 as shown in FIG.

  The movable table 3 a is formed in a shape that matches the outer shape of the humidifying unit 2. The movable table 3 a is connected to the movable duct 10. The movable duct 10 is connected to the rear end of the movable table 3a, for example. In this embodiment, the movable duct 10 moves together with the movable table 3a. That is, the movable duct 10 that is an example of the second duct moves in the vertical direction together with the movable base 3a and the movable support 3b that are examples of the movable part.

  The movable table 3a includes a first connection terminal 17a as an example of a first connection portion. The first connection terminal 17a is formed, for example, at the rear part of the movable table 3a. Moreover, the 2nd connection terminal 17b is formed in the humidification unit 2 of a present Example as an example of a 2nd connection part. The first connection terminal 17a is a part that is detachably connected to the second connection terminal 17b. The first connection terminal 17a and the second connection terminal 17b can be electrically connected.

  One end of the first cable 18 a is connected to the first control device 15 in the first housing 4. The first cable 18a includes, for example, a power supply line and a signal line. The first cable 18a passes through the first housing 4, the movable support 3b, and the movable table 3a. The other end of the first cable 18a is connected to the first connection terminal 17a. The first control device 15 and the first connection terminal 17a are electrically connected by a first cable 18a. The 1st cable 18a is formed so that expansion-contraction is possible within the movable support body 3b.

  Next, the humidification unit 2 will be described in more detail. The humidification unit 2 has a second housing 5. In the present embodiment, the humidifying unit air inlet 5 a and the high humidity air outlet 5 b are formed in the second housing 5. The humidifying unit air inlet 5a is formed, for example, at the lower part of the rear surface of the second housing 5. The high-humidity air outlet 5b is formed in the upper part of the front surface of the second housing 5, for example. The second connection terminal 17b is formed at, for example, the lower part on the rear side of the second housing 5.

  As shown in FIGS. 1 and 2, the humidification unit 2 has a water supply tank 19. The water supply tank 19 is detachably attached to the upper part on the rear side of the second housing 5. The user can replenish the water supply tank 19 removed from the second housing 5 with water.

  A water reservoir 20 is provided inside the second housing 5. The water reservoir 20 is provided on the rear side inside the second housing 5. A tank receiving part 21 is formed in the water storage part 20. The tank receiving portion 21 is a concave portion that opens upward. A space is formed in the tank receiver 21 by this opening.

  An attachment portion 22 is formed in the water supply tank 19. The water supply tank 19 is attached to the second housing 5 so that the attachment portion 22 faces downward. The water supply tank 19 is attached to the second housing 5 so that the mounting portion 22 enters the tank receiving portion 21. The water supply tank 19 is attached to the second housing 5 by connecting the attachment portion 22 and the tank receiving portion 21. The attachment portion 22 opens downward in a state where the water supply tank 19 is attached to the second housing 5.

  A water supply valve 23 is provided in the water supply tank 19. As shown in FIG. 2, the water supply valve 23 is located between the lower surface of the water supply tank 19 and the attachment portion 22 in a state where the water supply tank 19 is attached to the second housing 5. The water supply valve 23 opens when the water supply tank 19 is attached to the second housing 5. The water supply valve 23 is closed when the water supply tank 19 is removed from the second housing 5.

  When the water supply tank 19 is attached to the second housing 5, the water supply valve 23 is opened, and the water in the water supply tank 19 is supplied to the opening of the attachment portion 22. Water is supplied to the water storage part 20 from the opening of the attachment part 22. Thereby, water is stored in the water storage unit 20. As an example, water is stored in the water storage unit 20 so that the water level becomes the height of the opening of the attachment unit 22.

  Moreover, the humidification unit 2 has the steam production | generation part 24 as an example of the humidification part which humidifies air. The steam generation unit 24 is provided, for example, inside the second housing 5. The steam generation unit 24 includes an evaporating dish 25, a heater 26, and a steam cover 27.

  The bottom surface of the evaporating dish 25 is open as shown in FIG. The opening at the bottom of the evaporating dish 25 is connected to the bottom of the water storage unit 20 by a hose 28. Water is supplied to the evaporating dish 25 from the water storage unit 20 via the hose 28. Water is stored in the evaporating dish 25.

  The material of the evaporating dish 25 is a metal such as aluminum. The heater 26 is provided on the outer periphery of the side surface of the metal evaporating dish 25, for example. The steam cover 27 is provided above the evaporating dish 25. As shown in FIG. 2, the steam cover 27 is provided so as to cover the evaporating dish 25. A hole penetrating vertically is formed on the upper surface of the steam cover 27.

  The heater 26 heats the evaporating dish 25. Thereby, the water stored in the evaporating dish 25 is heated. The water stored in the evaporating dish 25 boils when heated. Steam b0 is generated by boiling water stored in the evaporating dish 25. The steam W0 is discharged upward from the hole on the upper surface of the steam cover 27. The steam generation unit 24 humidifies the air by releasing the steam W0.

  In addition, the humidification part which humidifies air is not restricted to the steam production | generation part 24 of this example. The humidification unit 2 may have a humidification part which humidifies air with an ultrasonic wave, for example, without using heat. The humidifying unit may humidify the air with a filter formed of a material that absorbs water, such as rayon.

  The humidification unit 2 has a high-temperature and high-humidity air duct 29 as an example of the third duct. The high temperature and high humidity air duct 29 is formed inside the second housing 5. As shown in FIG. 2, the high-temperature and high-humidity air duct 29 is formed from the steam generation part 24 to the high-humidity air outlet 5b. The high-temperature and high-humidity air duct 29 is formed so as to take in the steam W0 released from the steam generation unit 24. The high-temperature and high-humidity air duct 29 is a part that guides the air humidified by the steam generation unit 24 to the high-humidity air outlet 5b.

  As an example, the high-temperature and high-humidity air duct 29 has a portion along the front-rear direction from the high-humidity air outlet 5b toward the rear. Of the high-temperature, high-humidity air duct 29, the bottom surface of the portion along the front-rear direction from the high-humidity air outlet 5b toward the rear may be inclined downward from the high-humidity air outlet 5b. In this example, the dew condensation water generated in the high-temperature and high-humidity air duct 29 remains inside the high-temperature and high-humidity air duct 29 or the steam generation unit 24.

  Guard ribs 30 may be provided in the high temperature and high humidity air duct 29. The guard rib 30 is provided inside the high-temperature and high-humidity air duct 29 in the vicinity of the high-humidity air outlet 5b. The guard rib 30 prevents foreign matter and the user's hand from entering the high-temperature and high-humidity air duct 29 from the high-humidity air outlet 5b. This prevents the user's hand from touching the high-temperature space heated by the heater 26. Further, it is possible to prevent foreign matters from entering the inside of the high-temperature and high-humidity air duct 29 and falling to the steam generation unit 24.

  The humidifying unit 2 has a blower duct 31. The air duct 31 is a cylindrical part. An air flow inlet 31 a is opened at one end of the air duct 31. As shown in FIG. 2, the air duct 31 is provided so that the air flow inlet 31 a faces downward in the second housing 5.

  A carrier air outlet 31 b is opened at the other end of the air duct 31. As shown in FIGS. 1 and 2, the air duct 31 is provided so that the carrier air outlet 31 b protrudes forward of the second housing 5. The air duct 31 is provided so as to pass behind and above the high temperature and high humidity air duct 29. The air duct 31 is provided such that the carrier air outlet 31b is arranged on the high-humidity air outlet 5b. The carrier air outlet 31b and the high-humidity air outlet 5b are arranged side by side.

  As shown in FIG. 2, a steam mixing space 32 is formed above the steam generation unit 24 inside the high temperature and high humidity air duct 29. Inside the second housing 5, a guide air passage 33 that connects the space in the air duct 31 and the steam mixing space 32 is formed. As an example, the guide air passage 33 is formed at a position offset in the horizontal direction with respect to the center of the steam mixing space 32.

  The humidification unit 2 has the 2nd ventilation fan 34 as an example of a 2nd fan. The second blower fan 34 is provided inside the second housing 5. The 2nd ventilation fan 34 has the 2nd motor 34a and the 2nd wing | blade part 34b. The second motor 34a rotates the second wing part 34b. The second blower fan 34 generates an air flow by the rotation of the second wing part 34b.

  For example, as shown in FIG. 2, the second blower fan 34 is provided between the humidifying unit intake port 5 a and the airflow intake port 31 a. The second blower fan 34 generates, for example, an airflow from the outside of the second housing 5 toward the inside of the second housing 5 via the humidifying unit intake port 5a. The 2nd ventilation fan 34 takes in air from the humidification unit inlet 5a to the inside of the 2nd housing | casing 5 by generating an airflow.

  Moreover, the 2nd ventilation fan 34 generates the airflow which goes to the conveyance air blower outlet 31b from the airflow inlet 31a, for example. Air is blown out from the carrier air outlet 31 b by the airflow generated by the second blower fan 34.

  Here, the air duct 31 may be provided with, for example, a wind direction adjusting unit 31c. The air direction adjusting unit 31c is a part that adjusts the air direction of the air blown out from the carrier air outlet 31b. The wind direction adjustment part 31c is a plate-shaped member, for example. For example, as shown in FIG. 2, the plate-like air direction adjusting portion 31 c is provided on the upper edge of the carrier air outlet 31 b. The wind direction adjusting unit 31c is provided so that the tip protrudes forward from the carrier air outlet 31b. The rear end of the wind direction adjusting part 31c is pivotally supported from the left-right direction. The wind direction adjusting portion 31c is formed so as to be rotatable in the vertical direction around the pivoted rear end.

  The humidifying unit 2 is provided with a second operation display unit 35. The second operation display unit 35 is provided on the front surface of the second housing 5, for example. The second operation display unit 35 is provided, for example, below the high-humidity air outlet 5b.

  The second operation display unit 35 includes a second operation unit 36a. As an example, the second operation unit 36 a includes a switch for operating and setting the humidifying unit 2. The second operation unit 36a transmits a signal corresponding to an operation from the user.

  The second operation display unit 35 includes a second display unit 36b. The second display unit 36b includes a lamp such as an LED. The 2nd display part 36b shows the state of the humidification air cleaner 100 by lighting and extinguishing of a lamp | ramp.

  The humidified air cleaner 100 includes a second control device 37. The second control device 37 is provided in the humidification unit 2. The second control device 37 is provided, for example, inside the second housing 5. The second control device 37 is an example of a device that controls each device provided in the humidification unit 2. The first control device 15 and the second control device 37 are an example of a control unit that controls the humidified air cleaner 100.

  The second control device 37 is disposed, for example, behind the second operation display unit 35. The second control device 37 is connected to the second operation display unit 35. The second control device 37 and the second operation display unit 35 can communicate with each other. The second control device 37 operates based on, for example, a signal from the second operation unit 36a. The second display unit 36 b operates based on a signal from the second control device 37.

  The 2nd control apparatus 37 controls each apparatus with which the humidification unit 2 was equipped based on the signal which the 2nd operation part 36a transmitted, for example. For example, the heater 26 and the second motor 34 a are connected to the output side of the second control device 37. The second control device 37 controls the heater 26 and the second motor 34a by energization, for example. The air volume and speed of the air sent by the second blower fan 34 are adjusted by the second controller 37. The user can control each device provided in the humidification unit 2 by operating the second operation display unit 35.

  Moreover, the humidification unit 2 may be provided with various sensor systems. Various sensor systems included in the humidification unit 2 are connected to the input side of the second control device 37, for example. Various sensor systems included in the humidification unit 2 include, for example, a water level detection unit, a humidity detection unit, a human detection unit, and a proximity sensor.

  The water level detection unit detects the water level in the water supply tank 19. The humidity detection unit detects the humidity around the humidified air cleaner 100. The person detection unit detects a person existing around the humidified air cleaner 100. The proximity sensor detects that a person has approached the high-humidity air outlet 5b.

  The second control device 37 is connected to one end of the second cable 18b. The second cable 18b includes, for example, a power supply line and a signal line. The other end of the second cable 18b is connected to the second connection terminal 17b. The second control device 37 is electrically connected to the second connection terminal 17b.

  When the humidification unit 2 is connected to the movable base 3a, the second control device 37 is connected to the first control device 15 via the first cable 18a, the first connection terminal 17a, the second connection terminal 17b, and the second cable 18b. Is electrically connected. When the humidification unit 2 is connected to the movable base 3a, power and signals are sent to the second control device 37 from the first control device 15 as an example. When the humidifying unit 2 is connected to the movable table 3a, the first control device 15 controls each device provided in the humidifying unit 2 via the second control device 37.

  Next, the operation of the humidified air cleaner 100 will be described. The humidified air cleaner 100 is used indoors as an example. The power source of the humidified air cleaner 100 is turned on, for example, when the user operates the first operation unit 14a. When the power is turned on, the operation of the humidified air cleaner 100 is started. For example, after the user turns on the power, the user selects an operation mode using the first operation unit 14a.

  In the first control device 15 of the humidified air cleaner 100 of the present embodiment, a plurality of operation modes are stored as an example. The user can select one operation mode from among a plurality of operation modes stored in the first control device 15 by operating the first operation unit 14a. The humidified air cleaner 100 operates based on the selected operation mode.

  The first control device 15 stores a humidifying / cleaning operation mode as one of a plurality of operation modes, for example. When the humidification cleaning operation mode is selected, the humidified air cleaner 100 starts the humidification cleaning operation. The humidification cleaning operation is an operation in which humidified air and purified air are blown out simultaneously.

  As an operation of the humidified air cleaner 100, a humidifying and cleaning operation will be described. FIG. 3 is a longitudinal sectional view of the humidified air purifier 100 according to Embodiment 1 during the humidified air cleaning operation. When the humidifying / cleaning operation mode is selected, the first control device 15 operates the air volume adjusting valve 11 so that the first air passage 9a and the second air passage 10a are opened. Further, the first control device 15 causes the first blower fan 6 to generate an air flow. The indoor air W <b> 1 is taken into the first housing 4 from the air cleaning unit intake port 4 a by the air flow generated by the first blower fan 6.

  The indoor air W1 becomes clean air W2 by passing through the filter 7. The clean air W2 flows through the intake air passage 8a. Part of the clean air W2 flowing through the intake air passage 8a flows to the first air passage 9a. The clean air W2 that has flowed to the first air passage 9a is guided by the clean air duct 9 to the clean air outlet 4b. The clean air W2 guided to the clean air outlet 4b is blown upward to the air cleaning unit 1 as an example.

  Part of the clean air W2 flowing through the intake air passage 8a flows to the second air passage 10a. The clean air W2 that has flowed to the second air passage 10a is guided to the humidification unit intake port 5a by the movable duct 10. A part of the clean air W2 guided by the movable duct 10 is blown out from the air outlet 10b. As an example, the clean air W2 is blown upward from the air outlet 10b to the air cleaning unit 1.

  Moreover, the 1st control apparatus 15 will transmit a humidification cleaning operation control signal, for example to the 2nd control apparatus 37, when a humidification cleaning operation mode is selected. The 2nd control apparatus 37 will drive the 2nd ventilation fan 34 and the heater 26, if a humidification cleaning operation control signal is received.

  The 2nd ventilation fan 34 takes in the clean air W2 guide | induced to the humidification unit inlet 5a to the inside of the 2nd housing | casing 5 by generating an airflow. Further, when the heater 26 is driven, steam W0 is generated. The steam W0 is discharged from the steam generation unit 24 to the steam mixing space 32.

  The second control device 37 controls the second blower fan 34 so that the amount of clean air W2 necessary for the humidifying / cleaning operation is taken into the second housing 5. As an example, the second control device 37 controls the second blower fan 34 so that the air volume of the clean air W2 taken into the second housing 5 is 0.2 [m ^ 3 / min] or less.

  The clean air W2 taken into the second housing 5 is guided to the air flow inlet 31a by the air flow generated by the second blower fan 34. The clean air W2 flows from the airflow intake port 31a into the air duct 31. Part of the clean air W <b> 2 that has flowed into the air duct 31 from the air flow inlet 31 a is guided to the steam mixing space 32 by the guide air passage 33.

  Inside the steam mixing space 32, the clean air W2 guided by the guide air passage 33 and the steam W0 are mixed. The steam mixing space 32 may be formed in a cylindrical shape as an example. The steam W0 and the clean air W2 flowing into the cylindrical steam mixing space 32 are efficiently mixed while swirling with each other. By mixing the steam W0 and the clean air W2, the high-temperature and high-humidity air W3 is generated.

  The high temperature and high humidity air duct 29 guides the high temperature and high humidity air W3 to the high humidity air outlet 5b. The high-temperature and high-humidity air W3 is blown out from the high-humidity air outlet 5b. As an example, the high-temperature high-humidity air W3 is blown out from the high-humidity air outlet 5b in the forward direction with respect to the humidification unit 2, that is, in the lateral direction with respect to the humidification unit 2.

  Further, a part of the clean air W2 flowing into the air duct 31 from the air flow inlet 31a is guided by the air duct 31 to the carrier air outlet 31b above the high-humidity air outlet 5b. As an example, the clean air W <b> 2 is blown forward from the carrier air outlet 31 b toward the humidifying unit 2, that is, laterally with respect to the humidifying unit 2.

  As shown in FIG. 3, the clean air W2 guided to the carrier air outlet 31b and the high-temperature and high-humidity air W3 guided to the high-humidity air outlet 5b are blown out so as to translate in the lateral direction. The clean air W2 and the high-temperature and high-humidity air W3 are mixed in the horizontal direction while exchanging heat from each other in the vertical direction. The clean air W2 and the high-temperature and high-humidity air W3 are mixed to become the humidified air W4. The humidified air W4 is sent out toward the humidification target.

  Further, the user can move the movable table 3a and the movable support 3b in the vertical direction. The user can use the humidified air cleaner 100 in a state in which the height of the humidifying unit 2 is changed by the movable table 3a and the movable support 3b. FIG. 4 is a perspective view of the humidified air cleaner 100 in which the height of the humidifying unit 2 of the first embodiment is changed. The user can make the humidification unit 2 into a higher position by moving the movable stand 3a and the movable support body 3b upward, for example.

  FIG. 5 is a longitudinal sectional view of the humidified air purifier 100 in which the height of the humidifying unit 2 of the first embodiment is changed during the humidified air cleaning operation. In the present embodiment, the first cable 18a is formed to be extendable / contractable within the movable support 3b. Thereby, even when the movable base 3a and the movable support 3b are moved in the vertical direction, the first control device 15 and the first connection terminal 17a are electrically connected. The humidified air cleaner 100 can perform a humidifying and cleaning operation as shown in FIG. 5 even when the movable table 3a and the movable support 3b are moved in the vertical direction.

  In the humidifying / cleaning operation of the above embodiment, the humidified air W4 is sent out in the lateral direction. Further, clean air W2 is blown upward from the clean air outlet 4b and the outlet 10b. The humidified air cleaner 100 can supply the humidified air W4 to the object to be humidified while cleaning the entire room with the clean air W2.

  The humidification target of the humidified air cleaner 100 is, for example, a user's face. As an example, the humidified air cleaner 100 is used so that the humidified air W4 hits the user's face. The humidified air W4 is generated by the clean air W2 that has passed through the filter 7 which is an example of a cleaning unit. The humidified air W4 is clean air and is hygienic. The humidified air cleaner 100 can supply clean, sanitary and humidified air to the face of the user, which is an example of a humidification target. Moreover, the humidified air cleaner 100 can supply the humidified air W4 to the humidification target in a more sanitary environment by blowing out the clean air W2 simultaneously with the humidified air W4. As an example, the humidified air cleaner 100 can moisturize the throat and nasal mucosa of a sleeping user with clean and sanitary air.

  The humidified air cleaner 100 is used in the vicinity of the sleeping position of the user, for example. The humidified air cleaner 100 is used by being placed at a position separated from the user's face by 0.75 [m], for example. The humidified air cleaner 100 is used so that the humidified air W4 hits the face of a sleeping user. When the wind speed of the air hitting the face is 0.5 [m / s] or less, the user is in a comfortable state without feeling blown.

  In the above embodiment, the second blower fan 34 is controlled so that the air volume of the clean air W2 taken into the second housing 5 is 0.2 [m ^ 3 / min] or less during the humidifying and cleaning operation. The For example, the second blower fan 34 has a wind speed of 0.7 [m / s] at the carrier air outlet 31b and a wind speed of 1.0 [m / s] at the high-humidity air outlet 5b. It may be controlled as follows. Thereby, the wind speed of the humidified air W4 0.75 [m] ahead from the conveyance air outlet 31b becomes 0.25 [m / s]. In this example, the user can receive the humidified air W4 on the face while sleeping in a comfortable state without being blown. In addition, control of the 2nd ventilation fan 34 in the case of humidification cleaning operation is not restricted to this example.

  In the humidification cleaning operation, the humidified air W4 is sent out in the lateral direction. The clean air W2 is blown upward. For this reason, there is little influence on the flow of humidified air W4 by the flow of clean air W2. Thereby, the reach | attainment distance of the humidification air W4 sent toward a humidification object becomes longer.

  In addition, the humidification unit 2 does not need to be formed with the carrier air outlet 31b, for example. For example, the humidification unit 2 may have a configuration in which the high-temperature and high-humidity air W3 is directly sent to the humidification target without being mixed with the clean air W2.

  The clean air W2 blown out from the carrier air outlet 31b may be blown downward, for example, compared to the horizontal. That is, the clean air W2 may be blown out from the carrier air outlet 31b in a direction intersecting with the wind direction of the high-temperature and high-humidity air W3. The direction in which the clean air W2 is blown from the carrier air outlet 31b is adjusted by, for example, the wind direction adjusting unit 31c.

  The high-temperature and high-humidity air W3 is generated from the steam W0 generated by boiling water. The high temperature and high humidity air W3 has a higher temperature than the room temperature. For this reason, the high-temperature high-humidity air W3 blown out from the high-humidity air outlet 5b tends to rise. On the other hand, the clean air W2 blown out from the carrier air outlet 31b is at room temperature. The clean air W2 proceeds in the blown-out direction without rising. The clean air W2 blown downward compared to the horizontal mixes with the high temperature and high humidity air W3 while preventing the high temperature and high humidity air W3 from rising.

  The clean air W2 is more efficiently mixed with the high-temperature and high-humidity air W3 by being blown downward compared to the horizontal. Thereby, the reach distance of humidified air W4 becomes longer. In this example, even if the clean air W2 and the high-temperature and high-humidity air W3 are at a low wind speed, for example, warm air with high humidity is delivered to a farther position.

  In the said Example, the humidification unit 2 is arrange | positioned above the air purifying unit 1. FIG. For this reason, the humidified air cleaner 100 can supply the humidified air W4 from a higher position. With the humidified air cleaner 100 of the above embodiment, for example, humid air W4 that is not blown can be supplied around the face of a user sleeping in a high bed.

  The user can move the humidifying unit 2 to a desired height by moving the movable table 3a and the movable support 3b, which are examples of the movable unit. The humidified air cleaner 100 can perform the humidified air cleaning operation as shown in FIG. 5 even in the state where the height of the humidifying unit 2 is changed. The humidified air cleaner 100 can humidify and clean the air, and can supply the humidified air to a target at a desired height.

  If it is the humidified air cleaner 100 of the said Example, the humidified clean air can be supplied to the object of the position of desired height. For example, the humidified air cleaner 100 can supply humidified clean air around the face of the sleeping user regardless of the height of the bed that the user uses when sleeping. If it is the said Example, the humidified clean air is supplied to a suitable position.

  The movable support 3b may be formed with a structure that is fitted and fixed to the first housing 4 when the movable table 3a is lifted by a certain height, for example. Further, the first housing 4 may be provided with an operation lever for releasing the fitting between the movable support 3b and the first housing 4, for example. Further, the movable table 3a and the movable support 3b may be moved either manually or automatically. As an example, the movable support 3b may be controlled by energization by the first control device 15, for example.

  The movable table 3a and the movable support 3b, which are examples of the movable part, are provided on the upper part of the air cleaning unit 1. The humidifying unit 2 is connected to the movable table 3a. The height at which the humidified air W4 is supplied is changed by the movement of the humidifying unit 2, the movable table 3a, and the movable support 3b.

  The efficiency with which the air is cleaned by the air cleaning unit 1 increases as the filter 7 becomes larger. As the filter 7 becomes larger, the air cleaning unit 1 becomes heavier. In the above embodiment, for example, even when the air cleaning unit 1 is heavy, the height at which the humidified air W4 is supplied can be easily changed as compared with the case where the entire humidified air cleaner 100 is moved in the vertical direction. Can do.

  Further, the center of gravity of the humidified air cleaner 100 is such that, for example, as shown in FIGS. 4 and 5, when the humidifying unit 2, the movable base 3 a and the movable support 3 b are moved upward, It becomes lower than the case where it moves to. Thereby, the humidified air cleaner 100 is stabilized.

  In the humidification cleaning operation of the above embodiment, the clean air W2 is taken into the second housing 5 by a necessary amount. A portion of the clean air W2 that has passed through the filter 7 is blown out from the clean air outlet 4b without passing through the humidifying unit 2. The air volume of the clean air W2 blown out from the clean air outlet 4b is large. Thereby, the user can receive the humidified air W4 without feeling a feeling of blowing, and the air around the humidified air purifier 100 is efficiently cleaned.

  Moreover, the blower outlet 10b is formed in the movable duct 10 as an example. The clean air W2 is blown out from both the clean air outlet 4b and the outlet 10b. If it is the said Example, the air around the humidification air cleaner 100 is cleaned more efficiently.

  The humidified air cleaner 100 may perform, for example, a humidifying operation and an air cleaning operation in addition to the humidifying cleaning operation. The humidification operation is an operation for sending the humidified air W4 to the humidification target. The air cleaning operation is an operation for blowing out clean air W2. FIG. 6 is a longitudinal sectional view of the humidified air cleaner 100 according to Embodiment 1 during the humidifying operation. FIG. 7 is a longitudinal sectional view of the humidified air cleaner 100 according to Embodiment 1 during the air cleaning operation.

  The first control device 15 may store a humidifying operation mode and an air cleaning operation mode, for example. For example, when the humidifying operation mode is selected by the first operation unit 14a, the first control device 15 causes the air volume adjusting valve 11 to close the first air passage 9a as shown in FIG. The 1st control apparatus 15 drives the 1st ventilation fan 6 in the state in which the 1st ventilation path 9a was closed.

  Moreover, the 1st control apparatus 15 will transmit a humidification operation control signal to the 2nd control apparatus 37, for example, if humidification operation mode is selected. The 2nd control apparatus 37 will drive the 2nd ventilation fan 34 and the heater 26, if a humidification operation control signal is received. The humidification operation shown in FIG. 6 is performed by driving the first blower fan 6, the second blower fan 34, and the heater 26 in a state where the first blower passage 9a is closed.

  In the humidification operation, the second blower fan 34 may be driven so that the entire amount of the clean air W2 guided by the movable duct 10 is taken in from the humidification unit intake port 5a, for example, as shown in FIG. Further, during the humidification operation, the second blower fan 34 may be driven so that a part of the clean air W2 guided by the movable duct 10 is taken in from the humidification unit intake port 5a, as in the humidification cleaning operation.

  Moreover, the 1st control apparatus 15 makes the air volume adjustment valve 11 close the 2nd ventilation path 10a, as shown in FIG. 7, for example, if air cleaning operation mode is selected by the 1st operation part 14a. The 1st control apparatus 15 drives the 1st ventilation fan 6 in the state in which the 2nd ventilation path 10a was closed. Thereby, the air cleaning operation shown in FIG. 6 is executed. The humidified air cleaner 100 can clean air intensively by the air cleaning operation.

  The humidified air cleaner 100 may automatically start the air cleaning operation when the air cleanliness detected by the air cleanliness sensor 12 becomes lower than a certain level during the humidifying cleaning operation or the humidifying operation, for example. Good. Further, when the air cleanliness detected by the air cleanliness sensor 12 exceeds a certain value during the air cleaning operation, the humidification cleaning operation or the humidification operation may be automatically started.

  Thus, the humidified air cleaner 100 may be a device that automatically switches the operation state according to the surrounding environment. The humidified air cleaner 100 may perform the humidifying operation or the humidifying and cleaning operation after performing the air cleaning operation for a certain time set by the first operation unit 14a, for example. The humidified air cleaner 100 of the present example can supply humidified clean air to a sleeping user after intensively cleaning indoor air before the user goes to bed, for example.

  The humidified air cleaner 100 according to the above embodiment includes the first blower fan 6 and the second blower fan 34. The first blower fan 6 and the second blower fan 34 can be driven independently. Thus, the humidified air cleaner 100 can more easily adjust the blowing amount of the humidified air W4 sent to the humidification target and the clean air W2 blown into the room.

  Moreover, the humidification unit 2 of the said Example is formed so that attachment or detachment is possible to the movable stand 3a. The user can separate the humidification unit 2 from the air cleaning unit 1, the movable base 3a, and the movable support 3b. FIG. 8 is a longitudinal sectional view of the humidified air cleaner when the humidification unit 2 of the first embodiment is separated.

  As an example, an iron plate is provided on the bottom surface of the second housing 5. Moreover, a magnet is provided in the movable stand 3a as an example. Moreover, the 2nd housing | casing 5 and the movable stand 3a of the humidification unit 2 are connected by magnetic force as an example. Thereby, the 1st connecting terminal 17a and the 2nd connecting terminal 17b contact | adhere. The user can separate the humidification unit 2 from the air cleaning unit 1 by lifting the second housing 5 while pulling it forward, for example.

  The user of the humidified air cleaner 100 according to the above embodiment can use the humidifying unit 2 in a state separated from the air cleaning unit 1. The user can use the humidification unit 2 and the air purification unit 1 independently in different places. For example, the user can use the humidification unit 2 at a position lower than the air cleaning unit 1. Moreover, the humidification unit 2 may be formed so that a filter for purifying air can be attached in a state separated from the air purification unit 1, for example.

  Further, the humidified air cleaner 100 may include a sensor that detects that the humidifying unit 2 is attached to and detached from the movable base 3a, for example. A sensor for detecting that the humidifying unit 2 is attached to and detached from the movable base 3 a is connected to the input side of the first control device 15, for example. The first control device 15 may cause the first display unit 14b to display different displays, for example, in a state where the humidifying unit 2 is connected to the movable table 3a and a state where the humidifying unit 2 is removed from the movable table 3a. .

  For example, as shown in FIG. 8, the humidified air cleaner 100 may include a power cord 38 that is detachably connected to the second connection terminal 17 b of the humidification unit 2 separated from the air purification unit 1. As an example, power may be supplied to the humidifying unit 2 separated from the air cleaning unit 1 by a power cord 38. In this example, it is not necessary to separately form a structure for supplying electric power to the humidifying unit 2 separated from the air cleaning unit 1.

  In the said Example, when the humidification unit 2 is connected to the movable stand 3a, the 1st control apparatus 15 supplies electric power to the 1st connection terminal 17a via the 1st cable 18a. The first connection terminal 17a supplies power to the second connection terminal 17b that is electrically connected.

  Electric power may be supplied to the second blower fan 34 of the humidification unit 2 from the second connection terminal 17b connected to the first connection terminal 17a by, for example, an electric wire (not shown). If it is this example, electric power is supplied to each apparatus with which the humidification unit 2 was equipped, without forming the structure for supplying electric power to the humidification unit 2 separately. For example, by supplying electric power to the air cleaning unit 1 from an external power source, both the air cleaning unit 1 and the humidification unit 2 can be operated.

  In the above embodiment, the user can change the setting of the operation of the humidifying unit 2 by using, for example, the second operation unit 36a. Moreover, when the humidification unit 2 is connected to the movable stand 3a, the first control device 15 transmits a signal to the second control device 37 based on a signal from the first operation unit 14a. The user can operate both the air purification unit 1 and the humidification unit 2 through the first control device 15 and the second control device 37 by the first operation unit 14a.

  If it is the said Example, a user can control both the 1st ventilation fan 6 and the 2nd ventilation fan 34 by operating the 1st operation part 14a, for example. The user can easily operate the entire humidified air cleaner 100. In addition, the humidified air cleaner 100 may be configured so that, for example, the operation of both the air cleaning unit 1 and the humidifying unit 2 can be set by the first operation unit 14a.

  FIG. 9 is a vertical cross-sectional view of the modified example of the humidified air cleaner 100 according to Embodiment 1 during the humidifying / cleaning operation. For example, as shown in FIG. 9, the humidification unit 2 may be fixed to a movable table 3 a provided in the air purification unit 1. Moreover, the humidified air cleaner 100 does not need to have the 1st connection terminal 17a and the 2nd connection terminal 17b. The humidification unit 2 may not include the second operation display unit 35 and the second control device 37. For example, the heater 26 may be controlled by the first control device 15.

  The movable duct 10 may not have the air outlet 10b. Further, the humidification unit 2 may not include the second blower fan 34.

  For example, as illustrated in FIG. 9, the first control device 15 causes the first blower fan 6 to generate an air flow toward the first air passage 9 a and the second air passage 10 a during the humidifying and cleaning operation of the present modification. As an example, the first control device 15 operates the air volume adjustment valve 11 so that the air volume of the clean air W2 flowing through the second air passage 10a is 0.2 [m ^ 3 / min] or less. The first control device 15 drives the heater 26 by energization. Thereby, the clean humid air W4 without a feeling of blowing is supplied to a user like the said Example.

  Moreover, FIG. 10 is a longitudinal cross-sectional view at the time of the humidification driving | operation of the modification of the humidification air cleaner 100 of Embodiment 1. FIG. In the present modification, the first control device 15 may drive the first blower fan 6 and the heater 26 while closing the first blower passage 9a in the air volume adjusting valve 11. Thereby, the humidification operation shown in FIG. 10 is executed. In the humidification operation shown in FIG. 10, the first control device 15 performs the first control so that the air volume of the clean air W2 flowing through the intake air passage 8a and the second air passage 10a is 0.2 [m ^ 3 / min] or less. The blower fan 6 is controlled. Thereby, the clean humid air W4 without a feeling of blowing is supplied to a user like the said Example.

  In addition, the filter 7 which is an example of a cleaning part may be provided in the 1st ventilation path 9a other than the said Example and modification, for example. For example, all the air cleaned by the filter 7 may be blown out from the clean air outlet 4b. For example, even when the filter 7 is provided in the first air passage 9a, the humidified air cleaner 100 can humidify and clean the air, and target the humidified air at a desired height position. Can be supplied.

  FIG. 11 is a diagram illustrating a configuration example of a control unit of the humidified air cleaner 100. The humidified air cleaner 100 according to the embodiment includes the first control device 15 and the second control device 37 as an example of the control means. The first control device 15 and the second control device 37 include, for example, a printed wiring board. On this printed wiring board, as an example, a storage circuit, an arithmetic processing unit that executes various control programs stored in the storage circuit, an input / output circuit that inputs and outputs signals to the arithmetic processing unit, and time are measured. A timer circuit is provided. The memory circuit, the arithmetic processing unit, the input / output circuit, and the timer circuit are collectively referred to as a processing circuit.

  Each function of the first control device 15 and the second control device 37 as an example of the control means is realized by this processing circuit. The processing circuit may be dedicated hardware 60. The processing circuit may include a processor 61 and a memory 62. A part of the processing circuit is formed as dedicated hardware 60, and may further include a processor 61 and a memory 62. FIG. 11 shows an example in which the processing circuit is partly formed as dedicated hardware 60 and includes a processor 61 and a memory 62.

  When a part of the processing circuit is at least one dedicated hardware 60, the processing circuit includes, for example, a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, an ASIC, an FPGA, or the like. The combination is applicable.

  When the processing circuit includes at least one processor 61 and at least one memory 62, each function of the first control device 15 and the second control device 37 is realized by software, firmware, or a combination of software and firmware. Software and firmware are described as programs and stored in the memory 62. The processor 61 reads out and executes the program stored in the memory 62, thereby realizing the function of each unit. The processor 61 is also referred to as a CPU (Central Processing Unit), a central processing unit, a processing unit, an arithmetic unit, a microprocessor, a microcomputer, or a DSP. The memory 62 corresponds to, for example, a nonvolatile or volatile semiconductor memory such as RAM, ROM, flash memory, EPROM, and EEPROM, or a magnetic disk, flexible disk, optical disk, compact disk, mini disk, DVD, and the like.

  As described above, each function of the first control device 15 and the second control device 37, which is an example of the control means, is realized by the processing circuit. The processing circuit can realize the functions of the first control device 15 and the second control device 37 by hardware, software, firmware, or a combination thereof.

  DESCRIPTION OF SYMBOLS 1 Air purification unit, 2 Humidification unit, 3a Movable stand, 3b Movable support body, 4 1st housing | casing, 4a Air cleaning unit inlet, 4b Clean air blower outlet, 5 2nd housing, 5a Humidification unit inlet, 5b High-humidity air outlet, 6 First blower fan, 6a First motor, 6b First wing, 7 Filter, 8 Intake duct, 8a Intake air passage, 9 Clean air duct, 9a First air passage, 10 Movable duct, DESCRIPTION OF SYMBOLS 10a 2nd ventilation path, 10b blower outlet, 11 air volume adjusting valve, 11a rotating shaft, 12 air cleanliness sensor, 13 1st operation display part, 14a 1st operation part, 14b 1st display part, 15 1st control apparatus 16 casters, 17a first connection terminal, 17b second connection terminal, 18a first cable, 18b second cable, 19 Water supply tank, 20 water storage part, 21 tank receiving part, 22 mounting part, 23 water supply valve, 24 steam generation part, 25 evaporating dish, 26 heater, 27 steam cover, 28 hose, 29 high temperature and high humidity air duct, 30 guard rib, 31 Air blow duct, 31a Air flow intake port, 31b Carrying air blowout port, 31c Airflow direction adjusting part, 32 Steam mixing space, 33 Guide air passage, 34 Second air blower fan, 34a Second motor, 34b Second blade part, 35 Second Operation display unit, 36a Second operation unit, 36b Second display unit, 37 Second control device, 38 Power cord, 60 Dedicated hardware, 61 Processor, 62 Memory, 100 Humidified air purifier

Claims (10)

An air cleaning unit in which a first air inlet and a first air outlet are formed;
A humidifying unit in which a second air inlet and a second air outlet are formed;
A movable part provided between the air purification unit and the humidification unit;
With
The air purification unit includes:
A first fan that takes in air from the first air inlet by generating an air flow;
A cleaning section for cleaning air;
Have
The air cleaned by the cleaning unit is blown out from the first air outlet,
The air purification unit further includes a duct that guides a part of the air cleaned by the cleaning unit to the second air inlet,
The humidifying unit is
A humidifying unit for humidifying air taken in from the second air inlet;
The air humidified by the humidifying unit is blown out from the second air outlet,
The said movable part is a humidification air cleaner which moves the said humidification unit to an up-down direction with respect to the said air purification unit. The humidifying unit is disposed above the air cleaning unit,
The movable unit is provided on an upper portion of the air purification unit, and moves the humidification unit in the vertical direction with respect to the air purification unit by moving in the vertical direction with respect to the air purification unit. A humidified air cleaner as described in 1. The air purification unit includes:
A first duct for guiding a part of the air cleaned by the cleaning section to the first air outlet;
A second duct which is the duct;
Have
The humidifying unit is
The humidified air cleaner according to claim 1 or 2, further comprising a third duct that guides the air humidified by the humidifying unit to the second air outlet.   4. The humidified air cleaner according to claim 3, wherein the first duct guides part of the air cleaned by the cleaning unit to the first air outlet without passing through the humidifying unit. 5. A third outlet is formed in the second duct,
The humidified air cleaner according to claim 3 or 4, wherein a part of the air guided by the second duct is blown out from the third outlet.   The humidification air cleaner according to any one of claims 1 to 5, wherein the humidification unit includes a second fan that takes in air from the second intake port by generating an airflow.   The humidification air cleaner according to claim 6, wherein the humidification unit is detachably connected to the movable part. The movable part has a first connection part,
The humidification unit has a second connection part that is detachably connected to the first connection part,
The humidified air according to claim 7, wherein when the humidifying unit and the movable part are connected, the second fan is supplied with electric power from the second connecting part connected to the first connecting part. Cleaner.   The humidified air cleaner according to claim 8, further comprising a power cord that is detachably connected to the second connection portion. An operating means provided in the air cleaning unit for transmitting a signal;
Control means for controlling the first fan and the second fan based on a signal transmitted by the operation means when the humidifying unit and the movable portion are connected;
A humidified air cleaner according to any one of claims 7 to 9, comprising:

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