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WO2017074128A1 - Purificateur d'air à humidification - Google Patents

Purificateur d'air à humidification Download PDF

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Publication number
WO2017074128A1
WO2017074128A1 PCT/KR2016/012313 KR2016012313W WO2017074128A1 WO 2017074128 A1 WO2017074128 A1 WO 2017074128A1 KR 2016012313 W KR2016012313 W KR 2016012313W WO 2017074128 A1 WO2017074128 A1 WO 2017074128A1
Authority
WO
WIPO (PCT)
Prior art keywords
water
air
humidifying
assembly
humidification
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Ceased
Application number
PCT/KR2016/012313
Other languages
English (en)
Korean (ko)
Inventor
손상혁
이정우
김호중
박정택
박형호
김태윤
최지은
이건영
이종수
이경호
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
LG Electronics Inc
Original Assignee
LG Electronics Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from KR1020160037235A external-priority patent/KR20170051142A/ko
Application filed by LG Electronics Inc filed Critical LG Electronics Inc
Publication of WO2017074128A1 publication Critical patent/WO2017074128A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F6/00Air-humidification, e.g. cooling by humidification
    • F24F6/02Air-humidification, e.g. cooling by humidification by evaporation of water in the air
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/20Casings or covers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F13/00Details common to, or for air-conditioning, air-humidification, ventilation or use of air currents for screening
    • F24F13/28Arrangement or mounting of filters
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F6/00Air-humidification, e.g. cooling by humidification
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F8/00Treatment, e.g. purification, of air supplied to human living or working spaces otherwise than by heating, cooling, humidifying or drying
    • F24F8/80Self-contained air purifiers

Definitions

  • the present invention relates to a humidified air cleaner.
  • the air cleaner is configured to inhale the air in the indoor space and then discharge the dust and bacteria or contaminants by the filter.
  • Air cleaners can be configured in a variety of ways, depending on how the dust, bacteria or contaminants are removed.
  • the humidifier is a centrifugal spray type, an ultrasonic type, an electric type, a filter vaporized type, and a complex humidifier in which some of these methods are mixed.
  • the conventional humidifier air cleaner has a problem that the water supply is not easy when replenishing water for humidification, there is a problem that the water supply is impossible during operation.
  • bacteria or scales may be generated in the disk in a state where the disk is always locked in a water tank, and there is a problem that frequent cleaning and management are required to remove the disk.
  • An embodiment of the present invention is to provide a humidified air purifier that is easy to manage due to less generation of bacteria and contamination.
  • An embodiment of the present invention is to provide a humidified air purifier that is easy to remove the water supply and the water tank.
  • An embodiment of the present invention is to provide a humidified air purifier capable of additional water supply during operation.
  • An embodiment of the present invention is to provide a humidified air purifier that the water tank is detached through the open upper surface of the body to improve the ease of use.
  • An embodiment of the present invention is to provide a humidifying air purifier that can provide a visual effect such as rain by splashing water for humidification to a transparent window.
  • An embodiment of the present invention is to provide a humidified air purifier that can wash the air with water by allowing the air to pass through the space, the water is scattered to the window.
  • An embodiment of the present invention is to provide a humidifier air purifier that is easy to clean and manage the water tank and the water injection member.
  • An embodiment of the present invention is to provide a humidified air cleaner with reduced vibration and noise of the water flow.
  • An embodiment of the present invention is to provide a humidified air cleaner that can prevent the water injected into the humidifying member overflow or leak.
  • An embodiment of the present invention is to provide a humidifying air cleaner that can be provided with a humidifying member at the inlet and outlet of the space in which water is sprayed to improve the humidification efficiency.
  • An embodiment of the present invention is to provide a humidifying air cleaner that is not contaminated by the scale and bacteria in the humidifying member and the water tank.
  • An embodiment of the present invention is to provide a humidified air purifier to smoothly flow the air to the humidification assembly disposed above the fan motor.
  • the suction port is formed body; A filter assembly provided inside the body; A fan provided above the filter assembly and forcing a flow of air; And a humidifying assembly which is detached through the opened upper surface of the body and in which a discharge port through which humidified air is discharged is formed, wherein the humidifying assembly forms an upper appearance of the body in a mounted state.
  • a mounting frame in which the humidifying assembly is mounted is formed in the body, and the mounting frame comprises: an out frame coupled to an inner surface of the body; And an inner frame which is formed inside the spaced out space and forms an air flow path between the out frame and the space in which the humidification assembly is seated.
  • the lower surface of the water tank is formed with a shaft receiving member connected to the rotating shaft of the water injection member, the out frame is connected to the rotating shaft of the injection motor, the shaft receiving when the humidifying assembly is seated inside the body
  • a shaft heat connecting member is rotatably coupled to the member.
  • Both ends are rotatably coupled to an inner side of the second window, and a carrying handle is formed to have a curvature corresponding to an inner side of the second window, and the carrying handle rotates on an inner side of the second window. It is characterized in that the window stepped portion that is seated in the set state.
  • the mounting frame is provided with a yuv module, characterized in that the bottom surface of the water tank corresponding to the yuv module and the transmission window through which the yuv irradiated from the yuv module is formed.
  • the humidifier air purifier includes a humidification module for discharging the air purifying module and the purified air, the humidification module, the water tank for storing the water for humidification; A water injection member provided in the water tank and configured to spray stored water; A top cover forming an upper surface of the humidifier; It characterized in that it comprises a water inlet opening toward the water spray member in the center of the top cover.
  • a discharge port through which the humidified air is discharged is formed in the top cover around the water supply port, and an operation unit for operating the operation of the humidified air cleaner is formed between the water supply port and the discharge port.
  • the humidification module is provided with a power connection for supplying power, and the top cover is characterized in that the top cover connection is formed in electrical contact with the power connection when the mounting of the humidification module.
  • a body communication module is formed at the power connection part, and a cover communication module is formed at the top cover connection part, so that a signal can be transmitted.
  • the humidification module is provided with a floater accommodating portion for accommodating the floater to be elevated in accordance with the water level, characterized in that the water level sensor for sensing the position of the floater on one side of the air purification module.
  • the water supply port is provided above the water injection member, and a water supply guide member is provided between the water supply port and the water injection member to direct the water flowing from the water supply port toward the circumference of the water injection member. .
  • the water supply guide member is formed in a rounded shape, the upper surface of the water supply guide member is characterized in that a rib for receiving water is received, and a water supply slit for dropping the amount of water determined downwardly is formed. .
  • the humidified air purifier according to an embodiment of the present invention, the air purifying module, a humidification module for humidifying and discharging the purified air; the humidification module, the humidification module, the water tank for storing the water for humidification; A window that forms a circumferential surface of the humidification module above the water tank and is formed of a transparent material to enable internal viewing; And a water injection member disposed at the center of the window and spraying water stored in the water tank to the window by a nozzle opened toward the window.
  • the water injection member is rotatably mounted in connection with a rotating shaft of the motor penetrating the bottom of the water tank, the lower end of the water injection member is spaced apart from the bottom of the water tank by the centrifugal force during rotation of the water injection member It is characterized by sucking the water inside the water tank to move upward.
  • the bottom surface of the water tank is disposed so as to cross between the water injection member and the side wall of the water tank, it is characterized in that the bottom protrusion is formed to protrude upward to flow the water in the water tank in the vertical direction .
  • the water jetting member may include a row case having an upper surface and a lower surface opened; An upper case detachably coupled to an upper end of the low case and communicating with the low case; And a case cover covering the opened upper surface of the upper case.
  • the inside of the water injection member is extended in the vertical direction, a plurality of ribs are formed along the circumference of the water injection member is formed at a predetermined interval to guide the pumped water upwards.
  • Some of the plurality of nozzles are formed on an upper end of the upper case coupled to the case cover, and the sprayed water is splashed against the case cover.
  • the outer surface of the water injection member is formed with a plurality of blades extending in the vertical direction, at least some of the nozzles are located between the blades, characterized in that the water sprayed hit the blades.
  • the window comprises a second window provided above the water tank, the water to be injected by the nozzle hits; It is disposed along the outer periphery spaced apart from the second window, characterized in that it comprises a first window provided on the upper end of the air cleaning module is seated on the humidification module.
  • the humidified air purifier according to an embodiment of the present invention, the air purifying module and a humidification module for humidifying and discharging the purified air, the humidification module, the water tank for storing the water for humidification; A humidifying member seated above the water tank and through which intake air passes; And a water spraying member for supplying water to the humidifying member by spraying water toward the inner wall of the humidification module above the water tank from the inside of the water tank, wherein the water spraying direction of the water spraying member and the air of the humidification module are included.
  • the discharge direction is characterized by crossing each other.
  • the humidified air purifier according to an embodiment of the present invention, the air purifying module and a humidification module for humidifying and discharging the purified air, the humidification module, the water tank for storing the water for humidification; An inlet through which air purified by the air purification module is introduced; A discharge port disposed above the inlet port and discharging the purified air as possible; And a water spray member for spraying the water stored in the water tank so as to hit the inner wall of the humidification module between the inlet and the discharge port, and the air passing through the humidification module crosses the water spray direction of the water spray member. It is characterized in that the flow in the direction is washed by the water sprayed.
  • a first humidifying member formed at a position corresponding to the inlet and humidifying air introduced through the inlet with water supplied from the water injection member; And a second humidifying member formed at a position corresponding to the discharge opening and further humidifying the air discharged through the discharge opening with water scattered by the water injection member.
  • At least some of the plurality of nozzles is characterized in that for spraying water toward the lower end of the first humidifying member.
  • At least a part of the plurality of nozzles are provided above the first humidifying member, and is formed of a transparent material to spray water toward a transparent window.
  • the first humidifying member is disposed between the window and the water tank, and the water sprayed by the water spray member is circulated while flowing down in the order of the window, the first humidifying member and the water tank.
  • the air purified by the air purification module is characterized in that the humidification while passing through the first humidifying member and the second humidifying member.
  • the body is formed with a suction port for sucking the outside air;
  • a humidifying assembly provided at an upper portion of the body;
  • a frame provided inside the body below the humidifying assembly and having a filter entrance opening to the outside of the body;
  • a fan provided in the frame and configured to suck air from the suction port and flow it to the humidification assembly;
  • a filter assembly provided between the inlet port and the fan to purify the intake air and drawn in and out through the filter inlet and outlet.
  • the filter drawer may include a drawer cover for shielding the entrance and exit;
  • the drawer extending from the drawer cover is seated on the filter assembly, characterized in that it comprises a drawer seating portion formed with an opening through which air is introduced into the filter assembly.
  • the frame accommodates both sides of the filter drawer, characterized in that the filter guide groove for guiding the sliding movement is formed.
  • the filter assembly is characterized in that it comprises an air filter for collecting dust by the charging phenomenon by the power supply.
  • the terminal is in contact with the power supply terminal is characterized in that the power for charging the inside of the air filter is supplied.
  • One side of the air filter is characterized in that the discharge switch is separated from one side of the frame when the filter assembly is pulled out to discharge the charged corrector of the air filter.
  • the frame includes: an inner part and an outer part spaced apart from each other to form a passage of air flowing by the fan; It connects the inner part and the outer part, characterized in that it comprises a plurality of fixed blades formed in an airfoil shape to guide the flow of air upwards.
  • Humidification air purifier has the advantage that the user can easily separate the humidification assembly to fill the water by having a structure that the humidifying assembly in which the water is stored through the open upper surface of the body.
  • the water sprayed by the rotation of the water spray member in the center of the humidifying assembly is sprayed toward the transparent window, so that water droplets condense on the window when viewed from the outside, resulting in a rainy image, thereby producing a humidifying effect to the customer. And there is an advantage that can provide a visual clean air effect.
  • the inhaled and purified air is configured to pass through the water droplets injected to the window side can be washed by the water during the external discharge process, and thus can provide a refreshing feeling of air on a rainy day with a visual effect There is an advantage.
  • the humidifying assembly may further separate the first humidifying member and the second humidifying member through the upper surface of the humidifying assembly opened by separating the top cover, and may also separate the water spray member. It may be easier to clean and manage the assembly.
  • the long water jetting member can be separated into an upper case and a lower case, and the case cover coupled to the upper end of the drive shaft can also be detached, thereby making it easier to clean the water jetting member.
  • a case supporter may be provided inside the water jetting member to fix the middle region of the driving shaft, thereby preventing flow during rotation of the water jetting member having a long length in the vertical direction.
  • the inner surface of the water jetting member is formed with a plurality of ribs extending in the vertical direction to prevent the water rotated along the water jetting member to form a liquid film and vibration generated during the rotation of the small water jetting member and This can prevent the noise.
  • the plurality of ribs guide the water to move smoothly when the water injection member rotates.
  • an injection blade is formed on the outer surface of the water jetting member to hit water droplets sprayed during water jetting to scatter water droplets, thereby allowing water to be evenly sprayed on the inner surface of the window and the entire humidification member.
  • a negative pressure may be generated in the center lower portion of the water tank by the rotation of the spray blade, so that water splashed into the window may be more efficiently flowed down and collected again into the water tank.
  • the second upper hole formed in the upper case is covered by the cover extension part of the case cover, so that the water sprayed through the second upper hole hits the cover extension part immediately after the injection, so as to form a fine droplet.
  • the lower hole formed in the water spray member is configured to spray water toward the lower end of the second humidifying member, wherein the height of the lower hole corresponds to the barrier of the supporting frame supporting the lower end of the second humidifying member. Even though the water sprayed to be formed to pass through the second humidifying member may be blocked by the barrier so that the sprayed water may not splash or overflow to the outside.
  • a first humidifying member is disposed at an inlet side through which air is introduced into the humidifying assembly, and a second humidifying member is provided at a discharge outlet side to effectively humidify air passing through the humidifying assembly over a second time.
  • the upper and lower ends of the humidifying assembly have a structure in which the upper and lower ends of the humidification assembly are in close contact with the water tank and the second window, respectively, so that the water inside the water tank does not overflow even when the humidification air cleaner is shaken or tilted.
  • the humidifying member may be configured of a prefilter forming an outer both side surface and an inner filter inside the prefilter, and the inner filter is configured to have a smaller passage hole than the prefilter.
  • the water flowing downward along the second window is directed toward the inside of the humidifying member by the round part of the upper end of the second humidifying member, and thus, the second humidifying member can be wetted as a whole, thereby enabling effective humidification. .
  • the water flowing downward along the second window is guided downward by the inner surface of the second humidifying member and the drain guide of the second humidifying member, the war tank through a flow path formed in the connection portion of the water tank By letting a certain amount of water flow along the wall surface of the can be expected to prevent the noise generated when the water flows down.
  • the first humidifying member and the second humidifying member are both spaced apart from the water tank above the water tank, and the water to be supplied has a structure to be recovered to the water tank. Therefore, in the state in which the humidification assembly is not operated, the first humidification member and the second humidification member are not supplied with water, and are disposed independently of the water tank, so that they can be kept dry and contaminated by scale. In addition, there is an advantage that can prevent the occurrence of bacterial growth odor source.
  • a water supply port is formed at the center of the top cover, and the water supply port is capable of supplying a certain amount of water by the water supply guide member and the water supply slit, and in particular, the water supply slin falls to the outer end of the water injection member.
  • the fan below the humidifying assembly is composed of a centrifugal fan due to the characteristics of the structure of the humidifying assembly, and the centrifugal fan may be arranged such that the main plate and the bell mouse are inclined so that the air discharged in the circumferential direction is directed upward.
  • a shaft accommodating portion inserted into the water injection member may be formed at the center of the water tank so that water introduced into the water injection member may move along the sidewall of the water injection member.
  • a bottom protrusion is formed on the bottom surface of the water tank to prevent abnormal noise by preventing the water inside the water tank from swirling by the rotation of the water jetting member.
  • the water flowing by the bottom projections can be flowed upwards, so that even if the water level is low, it can be easily introduced into the water injection member, and thus the water injection member Can reduce the rotation speed.
  • a UV module is provided below the water tank to irradiate ultraviolet rays to the inside of the water tank, so that the water in the water tank may be sterilized through the UV module.
  • a top cover is detachably provided to the upper body assembly, and the top cover and the upper body assembly are contacted by the top cover connection part and the power connection part to enable the supply of power and the transmission of control signals, thereby connecting a separate wire. Since it is not necessary to be able to easily detach the top cover and thereby improve the serviceability can be expected.
  • FIG. 1 is a perspective view of one side of a humidified air purifier according to an embodiment of the present invention.
  • Figure 2 is a perspective view of the humidified air cleaner from the other side.
  • FIG. 3 is a side view of the humidifier air cleaner.
  • FIG. 4 is a plan view of the humidifier air cleaner.
  • FIG. 5 is an exploded perspective view of the humidifier air cleaner.
  • FIG. 6 is a perspective view of a lower body assembly according to an embodiment of the present invention.
  • FIG. 7 is a perspective view of the lower body assembly from which the air filter assembly according to the embodiment of the present invention is separated.
  • FIG. 8 is an exploded perspective view of the lower body assembly.
  • FIG. 9 is an exploded perspective view of the air filter assembly.
  • FIG. 10 is a cross-sectional view of the lower body assembly with the air filter assembly separated.
  • FIG. 11 is a partial cutaway perspective view of air flow inside the lower body assembly.
  • FIG. 12 is a perspective view of the upper body assembly according to the embodiment of the present invention seen from above.
  • FIG. 13 is a perspective view of the upper body assembly viewed from below.
  • 15 is a cutaway perspective view of the upper body assembly.
  • 16 is a view illustrating a display operation state of the upper body assembly.
  • FIG. 17 is a perspective view of a humidifying assembly according to an embodiment of the present invention.
  • FIG. 19 is a view of the top cover according to the embodiment of the present invention as seen from above.
  • 21 is an exploded perspective view of the top cover.
  • top cover 22 is a cutaway perspective view of the top cover.
  • FIG. 23 is a perspective view of a second humidifying member according to an embodiment of the present invention.
  • 25 is an exploded cross-sectional view illustrating a coupling structure of the top cover and the second humidifying member.
  • 26 is a perspective view of a first humidifying member according to an embodiment of the present invention.
  • FIG. 27 is an exploded perspective view of the first humidifying member.
  • 29 is a perspective view of a water reserve according to an embodiment of the present invention.
  • 31 is a plan view of a water tank according to an embodiment of the present invention.
  • 33 is a cutaway perspective view illustrating the coupling of the water tank and the second window.
  • FIG. 34 is an enlarged view of a portion A of FIG. 33.
  • 35 is a perspective view of the water jetting member.
  • 37A and 37B are cross-sectional views of the water jetting member.
  • 38 is a view illustrating a state in which water is injected from the low hole of the water injection member.
  • 39 is a view illustrating a state in which water is injected from the first upper hole of the water injection member.
  • FIG 40 is a view illustrating a state in which water is injected from the second upper hole of the water injection member.
  • 41 is a view showing the water flow state of the entire inside of the water reservoir by the water injection member.
  • FIG. 42 is a cutaway perspective view illustrating a mounting state of the humidifying assembly.
  • FIG. 43 is a cutaway perspective view illustrating a detached state of the humidification assembly.
  • FIG 44 is a partially cutaway perspective view illustrating a connection state of the injection motor and the power connection unit according to the embodiment of the present invention.
  • 45 is a partially cutaway perspective view illustrating a mounting state of the top cover and the second humidifying member.
  • 46 is a view showing the operating state of the UV lamp according to an embodiment of the present invention.
  • FIG. 47 is a view showing an operating state of the water level detecting apparatus according to an embodiment of the present invention.
  • 48 is a block diagram showing a flow of a control signal of the humidified air cleaner.
  • 49 is a view illustrating a state before separation of the humidifying assembly.
  • FIG. 50 is a view illustrating a separated state of the humidifying assembly.
  • 51 is a view showing the air flow state of the humidifier air cleaner.
  • FIG. 52 is a view showing a water supply state of the humidified air cleaner.
  • 53 is a view showing a humidified state of the humidified air cleaner.
  • FIG. 54 is an enlarged view of a portion B of FIG. 53.
  • FIG. 55 is a view illustrating a state visualized through an out window when the humidifier air cleaner is operated.
  • FIG. 1 is a perspective view of one side of a humidified air purifier according to an embodiment of the present invention.
  • Figure 2 is a perspective view of the humidified air cleaner from the other side.
  • Figure 3 is a side view of the humidified air cleaner.
  • 4 is a plan view of the humidifier air cleaner.
  • the humidified air cleaner 1 may be formed by the appearance of the body 2 formed in a cylindrical shape as a whole.
  • the body 2 is formed so that the upper surface is opened, and has a structure in which the humidification assembly 3 can be seated on the upper surface of the body 2 opened.
  • the body 2 may be defined as an air purification module for air purification and the humidification assembly 3 as a humidification module for humidifying and discharging the purified air. That is, the humidified air cleaner 1 according to the embodiment of the present invention has a structure capable of detaching the humidification module from the upper surface of the air purification module.
  • the body 2 may be composed of a lower body assembly 10 and an upper body assembly 20.
  • the lower body assembly 10 forms a lower shape of the body 2 and may be formed in a shape that narrows from the lower end to the upper end.
  • the outer surface of the lower body assembly 10 may be formed by the first out case 100 which is opened up and down.
  • a base 110 may be provided below the first out case 100, and the base 110 and the first out case 100 may be spaced apart from each other so that outside air may be sucked in.
  • the suction port 101 may be formed along a circumference at a lower end of the lower body assembly 10.
  • the suction port 101 may be formed at the widest portion of the lower body assembly 10 to secure a sufficient suction flow rate.
  • the suction port 101 is located at the bottom of the lower body assembly 10 so as not to impair the appearance.
  • a plurality of components are accommodated in the lower body assembly 10 including the air filter assembly 30.
  • the air filter assembly 30 may be positioned above the inlet 101 to remove and clean dust or foreign matter in the inhaled air.
  • the air filter assembly 30 may be configured to be drawn in and out through the filter inlet and outlet 102 of the first out case 100.
  • the air filter assembly 30 may be coplanar with an outer surface of the first out case 100 in a state in which the air filter assembly 30 is mounted on the lower body assembly 10.
  • the upper body assembly 20 forms an upper shape of the body 2 and is coupled to an upper end of the lower body assembly 10.
  • the lower body assembly 10 may communicate with the inside, and may be formed to allow air to flow.
  • the upper body assembly 20 has a shape that widens from the bottom toward the top. That is, the lower body assembly 10 and the upper body assembly 20 may be formed to be inclined on the outer surface from the boundary line connected to each other.
  • the humidification air cleaner 1 may have a structure capable of securing a suction flow rate through the inlet 101, and provides a sufficient humidification space and visualization space in the upper body assembly 20. While providing, the middle part may have a slim structure.
  • the appearance of the upper body assembly 20 may be formed by the second out case 201 and the first window 202.
  • the second out case 201 is coupled to an upper end of the first out case 100 to form a lower exterior of the upper body assembly 20.
  • the second out case 201 is opened upward and downward, and provides a space in which the humidifying assembly 3 can be seated.
  • a handle 201a recessed inward may be formed on both side surfaces of the second out case 201. A user may grasp the handle 201a and lift the humidified air cleaner 1.
  • the first window 202 extends upward from an upper end of the second out case 201 and forms an exterior of the upper part except for the second out case 201.
  • the first window 202 may be formed of a plastic or glass material, and may be formed of a material that can see through the inside. Therefore, the inside of the upper body assembly 20 can be seen through the first window 202, and the inside of the display assembly 26 and the humidification assembly 3 provided in the upper body assembly 20. Can be viewed through the first window 202.
  • the humidifying assembly 3 may be inserted into the upper body assembly 20. In the state where the humidifying assembly 3 is mounted, the upper surface of the humidifying assembly 3 may be exposed through the opened upper surface of the upper body assembly 20.
  • the opened upper surface of the first window 202 may be shielded by the second window 71 and the top cover 40 which are substantially one component of the humidification assembly 3.
  • Upper ends of the first window 202 and the second window 71 may be in contact with each other so that the first window 202 and the second window 71 have a sense of unity.
  • the humidifying assembly 3 has a structure seated inside the upper body assembly 20, the first window 202 and the second window 71 may be minutely spaced apart from each other. In this case, it is possible to prevent the vibration generated during the operation of the humidified air cleaner 1 from being transmitted.
  • the humidifying assembly 3 may include a top cover 40, and the top cover 40 may form an upper surface of the humidifying air cleaner 1.
  • the water supply port 401 may be formed at the center of the top cover 40. Therefore, the user may replenish water for humidification and air cleaning through the water supply port 401 even during the operation of the humidified air cleaner 1.
  • a plurality of discharge holes 402 may be formed along the circumference of the top cover 40, and purified air and humidified air may be discharged upward through the discharge holes 402.
  • the top cover 40 may be provided with an operation unit 422a for the user to operate the operation of the humidified air cleaner (1).
  • the manipulation unit 422a may have a structure such as a touch button, and an operation state may be displayed through the display assembly 26 when the manipulation unit 422a is operated.
  • the top cover 40 may be detachably mounted to the humidifying assembly 3, and one side of the top cover 40 may further include a top cover connection part 43 for connecting a power supply and a transmission of an operation signal. Can be.
  • FIG. 5 is an exploded perspective view of the humidifier air cleaner.
  • the body 2 is formed so that the upper surface is opened, it is configured so that the humidifying assembly 3 is seated on the upper body assembly 20.
  • the lower body assembly 10 may be provided with an air filter assembly 30, the air sucked into the inlet is purified by flowing through the air filter assembly 30 flows upwards, the humidifying assembly (3) After flowing into the inside of the top cover 40 has a structure that is discharged through the discharge port 402.
  • the humidifying assembly 3 includes a water reservoir 70 in which water is stored, and a water spray member rotatably mounted inside the water reservoir 70 to lift and scatter water in the water reservoir 70. 80 and the first humidifying member 60 and the second humidifying member (60), which are mounted inside the water reservoir 70, are absorbed by the water spray member 80, and are simultaneously humidified by passing the purified air. 50) and the top cover 40.
  • the first humidifying member 60 is seated inside the water reservoir 70, and the water jetting member 80 extends upwardly through the first humidifying member 60.
  • the second humidifying member 50 may be fixedly mounted on a lower surface of the top cover 40, and the second humidifying member 50 may be mounted when the top cover 40 is mounted on the water reservoir 70. ) Shields the opened surface of the water reservoir 70.
  • the first humidifying member 60, the second humidifying member 50, the top cover 40, and the water spraying member 80 may all be separated from the water reservoir 70, and after the separation, the water reservoir ( 70) has a structure that can be easily washed.
  • a carrying handle 731 may be provided at an inner upper portion of the water reservoir 70.
  • the carrying handle 731 may be folded or unfolded by rotation, and both ends of the carrying handle 731 may be rotatably fixed at positions facing each other inside the water reservoir 70 to easily carry the water reservoir 70. .
  • FIG. 6 is a perspective view of a lower body assembly according to an embodiment of the present invention.
  • Figure 7 is a perspective view of the lower body assembly is separated air filter assembly according to an embodiment of the present invention.
  • 8 is an exploded perspective view of the lower body assembly.
  • the lower body assembly 10 has an outer appearance formed by a cylindrical first shape outer case 100 opened up and down, and the upper and lower surfaces of the first out case 100 can be opened. Can be.
  • a filter entrance 102 may be formed at one circumference of the first out case 100.
  • the air filter assembly 30 may slide in and out through the filter entrance and exit 102.
  • the filter entrance 102 may be formed by cutting from a lower end of the first out case 100.
  • a case step part 103 recessed inward may be formed at an upper end of the filter entrance 102.
  • the case step part 103 is formed to be shielded by a filter drawer 31 constituting the air filter assembly 30 when the air filter assembly 30 is mounted.
  • a filter restraining member 104 may be provided at the center of the case step part 103 to restrain the locking device 311 provided in the filter drawer 31. Therefore, the air filter assembly 30 may be mounted on the lower body assembly 10.
  • a dust hole 105 and a gas hole 106 may be further formed in the case step part 103. It detects the dust concentration and the gas concentration in the air flowing through the dust hole 105 and the gas hole 106 to inform the user or to control the operation of the humidified air cleaner (1).
  • the dust hole 105 and the gas hole 106 may also be shielded by the filter drawer 31 when the air filter assembly 30 is mounted.
  • the base 110 is provided below the first out case 100.
  • the base 110 may be spaced apart from the lower end of the first out case 100, and thus the suction port 101 may be formed between the base 110 and the first out case 100.
  • the base 110 may be formed in a circular shape having a diameter corresponding to that of the first out case 100, and may be installed on a bottom surface of a space in which the humidified air cleaner 1 is installed.
  • the upper surface of the base 110 may be provided with a grill supporter 120 for separating the lower surface of the first out case 100 and the base 110.
  • the grill supporter 120 is formed in a circular ring shape, the grill coupling portion 121 is coupled to the lower end of the first out case 100, and are formed at predetermined intervals along the grill coupling portion 121, downward It may include a grill portion 122 is extended to be fixed to the base 110.
  • the plurality of grill parts 122 are spaced apart from each other, so that outside air flows in through the space between the grill parts 122, and passes through the open space inside the grill coupling part 121 to allow the first to be opened. It may flow into the inside of the out case 100.
  • the base 110 and the grill supporter 120 may be integrally molded as necessary.
  • the lower frame 130 may be provided at an inner lower portion of the first out case 100.
  • the lower frame 130 forms a space in which the air filter assembly 30 and the fan 140 for forced flow of air are accommodated.
  • one side of the lower frame 130 may be in communication with the filter inlet and outlet 102, and a filter accommodating part 131 is formed at the inner side and in communication with the filter inlet and outlet 102.
  • an upper surface of the grill coupler 121 may be coupled to a lower end of the filter accommodating part 131, that is, a lower end of the first out case 100.
  • filter guide grooves 131a and guide rollers 131b for guiding sliding in and out of the air filter assembly 30 may be provided at left and right sides of the filter accommodating part 131. Further, a lower portion of the filter guide groove 131a may further include a prefilter insertion groove 131c into which both ends of the prefilter 34 to be described below are inserted.
  • power supply terminals 131d for supplying power to the air filter assembly 30 are provided at left and right sides of the filter accommodating part 131.
  • a pair of the power supply terminals 131d may be spaced apart from each other, and a power input terminal formed on a side of the air filter assembly 30 facing the power supply terminal 131d when the air filter assembly 30 is mounted. And to be in contact with 323.
  • a pair of pressing parts 131e may protrude from the inner front surface of the filter accommodating part 131.
  • the pressing part 131e is formed to press the discharge switch 324 on the front surface of the air filter assembly 30 when the air filter assembly 30 is mounted.
  • the discharge switch 324 and the pressing part 131e are separated from each other when the air filter assembly 30 is separated, static electricity charged in the dielectric filter may be discharged.
  • a filter switch 131f may be provided on the inner front surface of the filter accommodating part 131 to be pressed when the air filter assembly 30 is mounted, thereby detecting the complete mounting of the air filter assembly 30.
  • a high voltage power is supplied to the air filter assembly 30 to enable the operation of the dielectric filter.
  • the lower surface of the filter accommodating part 131 is opened, and the lower surface of the filter accommodating part 131 is opened by mounting of the prefilter 34. Therefore, all of the sucked air passes through the prefilter 34 to filter large dust and foreign matter, and fine dust and odor factors may be removed while passing through the air filter assembly 30.
  • the frame grille 132 may be formed on an upper surface of the filter accommodating part 131. Therefore, air passing through the air filter assembly 30 passes through the frame grille 132 and flows into the fan 140.
  • An upper frame 150 is provided above the lower frame 130, and the fan 140 may be disposed between the lower frame 130 and the upper frame 150.
  • the fan motor 160 may be fixedly mounted on a lower surface of the lower frame 130 and may be mounted to accommodate at least a portion of the fan motor 160 inwardly of the fan 140. The configuration of the fan 140 and the upper frame 150 will be described in more detail below.
  • FIG. 9 is an exploded perspective view of the air filter assembly.
  • the air filter assembly 30 may have a drawer-like structure as a whole.
  • the air filter assembly 30 includes a filter drawer 31 drawn out through the filter inlet and outlet 102 of the lower frame 130, an air filter 32 stacked on the filter drawer 31, and deodorization. It may include a filter 33.
  • the filter drawer 31 is formed in a rectangular frame shape and is provided at the rear end of the drawer seating portion 312 and the drawer seating portion 312 on which the air filter 32 is seated, and the air filter assembly ( And a drawer cover 313 forming an external exposed surface of 30.
  • the drawer seating portion 312 may have an opening 312a having a corresponding size so that a lower portion of the air filter 32 may be inserted.
  • filter rollers 312b may be provided at both front ends of the drawer seating portion 312. Therefore, the filter roller 312b may slide along the filter guide groove 131a while the air filter assembly 30 is inserted into the filter accommodating portion 131, and the guide roller 131b may be slid. ) May support both sides of the drawer seating portion 312 to allow the air filter assembly 30 to slide in and out more smoothly.
  • the drawer cover 313 extends in a direction perpendicular to the drawer seating portion 312 at the rear end of the drawer seating portion 312.
  • the drawer cover 313 may shield the filter inlet 102 and the case step 103 in a state in which the air filter assembly 30 is mounted on the filter accommodating part 131.
  • the outer surface of the drawer cover 313 may be coplanar with the outer surface of the first out case 100 when the air filter assembly 30 is completely mounted.
  • a handle hole 313a may be further provided at an upper portion of the front surface of the drawer cover 313 to manipulate the drawing of the air filter assembly 30, and the handle hole 313a may be provided with the locking device 311. Some are connected to allow the user to manipulate them. Therefore, the user may selectively lock and release the locking device 311 and the filter restraining member 104 through the manipulation of the locking device 311.
  • an air inlet 313b may be formed in the drawer cover 313.
  • the air inlet 313b may be formed in a slit shape that is formed to extend in the horizontal direction, and is formed to extend from the dust hole 105 to the gas hole 106 so that outside air may be introduced to check the air condition.
  • the air filter 32 may include a filter case 321 forming an outer shape and a dielectric filter 322 provided in the filter case 321.
  • the air filter 32 may generate a charging phenomenon by supplying power, and has a structure capable of collecting fine dust by the charging phenomenon.
  • the dielectric filter 322 is a general technology and a detailed description thereof will be omitted.
  • the filter case 321 may form a circumference of the dielectric filter 322, and may be formed to surround the dielectric filter 322 with a separate material.
  • a power input terminal 323 may be provided at a side of the filter case 321 at a position corresponding to the power supply terminal 131d.
  • the front of the filter case 321 may be provided with a pair of discharge switch 324 in a position corresponding to the pressing portion (131e). The discharge switch 324 is separated from the pressing part 131e when the filter case 321 is separated to discharge the electric field on the dielectric filter 322.
  • both side surfaces of the filter case 321 is formed with recesses 325 recessed so as to be grasped by a user for separate mounting of the dielectric filter 322.
  • the lower surface of the filter case 321 may have a stepped portion 326 to be inserted into the drawer seating portion 312.
  • the deodorizing filter 33 has a size corresponding to that of the air filter 32 and may be stacked on the upper surface of the air filter 32. Protruding and groove-shaped stacks 327 may be formed around the lower surface of the deodorizing filter 33 and the upper surface of the filter case 321 so that the deodorizing filter 33 may maintain a stable mounting state. do.
  • a pre-filter 34 may be further provided below the filter drawer 31.
  • the pre-filter 34 is to shield the open lower surface of the lower frame 130, it may be configured in a mesh or grill shape to filter out large dust or foreign matter in the air sucked into the air filter 32. have.
  • a pre-filter knob 341 may be further formed on a rear surface of the pre-filter 34, and the pre-filter knob 341 may be disposed through the filter inlet 102 under the filter drawer 31. May be exposed. Accordingly, the prefilter 34 may be withdrawn and detached independently of the filter drawer 31 to be detached inside the lower frame 130.
  • the prefilter 34 may be coupled to or integrally formed with the filter drawer 31 in one configuration of the air filter assembly 30, wherein the prefilter 34 is the filter drawer. Withdrawal and withdrawal of (31) may also be withdrawn.
  • a power mounting unit 133 and a PCB mounting unit 134 may be formed around the lower frame 130.
  • the power mounting unit 133 may be formed on the front of the lower frame 130 corresponding to the pressing unit 131e.
  • the power mounting unit 133 may be formed in a planar shape to form a space away from the inner surface of the first out case 100, and a power supply unit 171 may be mounted on the power mounting unit 133.
  • the power supply unit 171 is for supplying power to the humidified air cleaner 1, and converts the input power and supplies it to each electric component of the humidified air cleaner 1.
  • the PCB mounting portion 134 is formed on one side of both sides of the lower frame 130, and is formed in a planar shape to form a space away from the inner surface of the first out case 100. Therefore, the PCB mounting unit 134 forms a space in which the control unit 172 for controlling the driving of the fan motor 160 and the injection motor 24 inside the humidified air cleaner 1 is formed.
  • one side of the lower frame 130 opposite the PCB mounting unit 134 may have a high voltage to the ionizer 173 for sterilizing the bacteria in the air sucked and the dielectric filter 322 of the air filter assembly 30.
  • a high voltage power supply 174 for supplying the power may be mounted.
  • a dust sensor 175 and a gas sensor 176 may be provided at positions corresponding to the dust hole 105 and the gas hole 106 on the back of the lower frame 130, respectively.
  • a plurality of reinforcing ribs 135 may be provided at an upper portion of the lower frame 130, and the vibration of the lower frame 130 may be prevented when the fan motor 160 is driven by the reinforcing ribs 135. And strength can be reinforced.
  • the upper frame 150 is coupled to the upper end of the lower frame 130.
  • the upper frame 150 is located on the inner upper side of the first out case 100 and forms a space in which the fan 140 can be accommodated by the lower frame 130.
  • the fan 140 may be accommodated in the opened upper portion of the lower frame 130 and is formed in the structure of a centrifugal fan.
  • the fan 140 has a structure that is sucked in the axial direction and discharged in the circumferential direction.
  • the upper portion of the inner surface of the lower frame 130 accommodating the fan 140 is formed in a shape that is widened upward. Accordingly, the air discharged in the circumferential direction by the fan 140 may be directed toward the upper frame 150 along the rounded outer wall surface of the fan mounting unit 136 on the lower frame 130.
  • the fan motor 160 may be mounted on the motor accommodating part 154 recessed in the center of the upper frame 150, and fixedly mounted to an inner central part of the upper frame 150 by the motor bracket 162. Can be.
  • the fan 140 may be coupled to the rotation shaft 161 of the fan motor 160 under the upper frame 150.
  • the coupling structure of the fan 140 and the upper frame 150 is discharged in the circumferential direction after the axial suction of the fan 140 to the upper body assembly 20 on which the humidification assembly 3 is seated. Make sure the flow is smooth.
  • Figure 11 is a partially cut perspective view showing the air flow inside the lower body assembly.
  • the fan 140 may be accommodated in the fan mounting unit 136 formed on the lower frame 130.
  • the fan 140 rotates while being accommodated in the fan mounting unit 136, air is sucked from the frame grille unit 132 in the center of the fan mounting unit 136 and introduced into the fan 140. Discharged around the 140 may flow upward along the curved surface of the fan mounting unit 136.
  • the fan 140 has a shroud 141 forming a lower surface, a main plate 144 forming an upper surface, and a plurality of the fan 140 is formed between the shroud 141 and the main plate 144 and disposed radially. It may be configured to include a plurality of blades 147.
  • the shroud 141 may have a bell mouse 142 having an opening having a size corresponding to that of the frame grille 132 and a first inclined surface extending outwardly from an upper end of the bell mouse 142. 143).
  • the bell mouse 142 may extend to a predetermined length, and the air passing through the frame grille 132 may extend to accommodate the circumference of the frame grille 132 to the inside of the fan 140. Allow inflow.
  • the first inclined surface 143 may extend to a position adjacent to the fan mounting unit 136 and is formed to have a predetermined inclination such that air guided by the blade 147 is discharged in the circumferential direction, It can be discharged upward.
  • the main plate 144 is formed in a circular plate shape, it may be formed in a shape in which the central portion is recessed.
  • the shaft coupling portion 145 is formed in the central portion of the main plate 144 to which the rotation shaft of the fan motor is mounted.
  • the shaft coupling part 145 may be formed to have a predetermined diameter so that the lower end of the fan motor 160 and the motor accommodating part 154 in which the fan motor 160 is accommodated may be located.
  • a second inclined surface 146 is formed at the outer circumference of the shaft coupling portion 145.
  • the second inclined surface 146 is formed to have an inclination corresponding to the first inclined surface 143. That is, the second inclined surface 146 may be formed to be inclined upwardly toward the outside from the circumference of the shaft coupling portion 145. In this case, the second inclined surface 146 may have the same inclination as the first inclined surface 143 and may extend by a predetermined length. An extension length of the second inclined surface 146 may extend to at least vertically below the fixed blade 147 formed in the upper frame 150.
  • the central portion of the main plate 144 has a shape recessed downward by the second inclined surface 146 and the shaft coupling portion 145, the fan motor 160 is in the recessed central portion of the main plate 144. Can be accommodated.
  • a plurality of blades 147 may be provided between the first inclined surface 143 and the second inclined surface 146, and may be vertically connected to the first inclined surface 143 and the second inclined surface 146. .
  • the plurality of blades 147 are disposed at regular intervals along the first inclined surface 143 and the second inclined surface 146 so that the air sucked into the bell mouse 142 may be guided outward.
  • the discharged air may be discharged in an inclined direction, ie, upward, by the first inclined surface 143 and the second inclined surface 146, and may flow toward the inner side of the upper frame 150.
  • the upper frame 150 may include an inner part 151 and an outer part 152, and a plurality of fixing blades 147 connecting the inner part 151 and the outer part 152.
  • the inner part 151 forms a central portion of the upper frame 150 and is connected to an inner wall 153 to which the fixed blade 147 is connected, and a lower end of the inner wall 153 and the fan motor ( The motor receiver 154 may be mounted.
  • the inner wall 153 may extend upward and downward, and may have a vertical width corresponding to or higher than the height of the fixed blade 147.
  • the motor accommodating part 154 may be recessed downward to accommodate the fan motor 160 therein.
  • the upper end of the fan motor 160 may be restrained inside the motor accommodating part 154 by the motor bracket 162.
  • the rotation shaft 161 of the fan motor 160 passes through the motor receiving portion 154 and is coupled to the shaft coupling portion 145.
  • a portion connecting the end of the motor accommodating part 154 and the inner wall 153 forms a stepped surface, and a screw for coupling with the upper body assembly 20 is fastened to the stepped surface.
  • the fastening boss 155 may be formed to protrude. Accordingly, a screw is fastened to the fastening boss 155 in a state where the upper body assembly 20 is seated on the lower body assembly 10 so that the upper body assembly 20 and the lower body assembly 10 may be mutually separated. It can be fixed by coupling.
  • the outer part 152 is spaced apart from the inner wall 153 to form a flow passage of air between the inner wall 153 and the outer part 152.
  • the outer part 152 is formed to contact the inner surface of the first out case 100.
  • a lower end of the outer part 152 may be coupled to an upper end of the lower frame 130, and an upper end may be coupled to an upper end of the first out case 100 to be fixed inside the first out case 100. have.
  • the fixing blade 147 may support the inner part 151 by connecting the inner part 151 and the outer part 152.
  • the fixed blade 147 may smoothly flow the air when the air flows into the space between the outer side surface of the inner part 151 and the inner side surface of the outer part 152, which are air flow passages.
  • the fixed blades 156 may be continuously arranged at a predetermined interval and may be continuously disposed radially with respect to the center of the upper frame 150.
  • the fixed blade 147 is formed in the shape of an air foil to increase the lifting force, and thus by forcing the flow of air to be discharged in the circumferential direction by the fan 140 to the upward direction of the The flow can be made more smoothly.
  • the fixed blade 147 may be formed to have an inclination or curvature in one direction according to the rotation direction of the fan 140 as well as the shape of the air foil.
  • a tooth portion 156a is continuously formed at the upper end of the fixed blade 156, and noise is generated by splitting the vortex of air passing through the fixed blade 147 end by the tooth portion 156a. Can be minimized.
  • the fixed blade 147 is formed to have a round, a plurality of guide ribs (156b) may be formed on the surface facing the fan 140.
  • the guide ribs 156b extend from the lower end to the upper end of the fixed blade 147, and a plurality of guide ribs 156b may protrude at regular intervals. Therefore, the air forcedly discharged by the fan 140 may flow along the plurality of guide ribs 156b when passing through the fixed blade 147 to have an even flow rate across the fixed blade 147. It can guide the upward discharge of air.
  • 12 is a perspective view of the upper body assembly according to the embodiment of the present invention seen from above.
  • 13 is a perspective view of the upper body assembly viewed from below.
  • 14 is an exploded perspective view of the upper body assembly.
  • 15 is a cutaway perspective view of the upper body assembly.
  • the upper body assembly 20 is coupled to the top of the lower body assembly 10 to form an upper shape of the body 2.
  • the upper body assembly 20 is provided inside the second out case 201 and the first window 202, and the second out case 201 and the first window 202 are provided in the humidifying assembly 3.
  • the second out case 201 may be formed of the same material as the first out case 100, and a lower end of the second out case 201 and an upper end of the first out case 100 have the same diameter. Is formed to have so that the air flow in the interior with a sense of unity of the appearance can be made smoothly.
  • the handle grooves 201a recessed inward may be formed at both sides of the second out case 201 in a direction facing each other.
  • the first window 202 extends from an upper end of the second out case 201, and accommodates the humidifying assembly 3 and visualizes the water spray state inside the humidifying assembly 3 from the outside. It can be configured to be.
  • the mounting frame 21 is provided inside the upper body assembly 20 to provide a space in which the humidifying assembly 3 is accommodated and seated.
  • the mounting frame 21 may include an inner frame 22 and an out frame 23.
  • the inner frame 22 may be positioned at the inner center of the upper body assembly 20 and spaced apart from the out frame 23.
  • the inner frame 22 is formed in a cylindrical shape with an upper surface open so that the humidifying assembly 3 can be accommodated.
  • a coupling boss 221 may be further formed on the bottom surface of the inner frame 22 to be seated on the fastening boss 155 of the upper frame 150 to fasten the screw.
  • the coupling boss 221 extends downward to contact the upper end of the fastening boss 155, and is formed to allow the screw to be fastened inside the inner frame 22.
  • the lower surface of the inner frame 22 may be provided with an injection motor 24.
  • the injection motor 24 provides power for the rotation of the water injection member 80 provided in the humidification assembly 3.
  • the injection motor 24 may penetrate the lower surface of the inner frame 22, and a shaft connecting member 242 may be provided on the rotating shaft 241 penetrating the inner center of the inner frame 22.
  • the shaft connecting member 242 is formed in a shape that narrows toward the top, the outer surface is formed in the radial direction a plurality of coupling protrusions (242a) is described below when the humidification assembly (3) is seated Can be combined with the shaft receiving member 84.
  • the lower surface of the inner frame 22 may be formed with a bracket support portion 222 extending downward.
  • the bracket support part 222 is formed outside the injection motor, and supports the motor bracket 543 supporting the injection motor 24.
  • a yuv module 25 may be mounted on the bottom surface of the inner frame 22.
  • the UV module 25 irradiates the UV to the inside of the water tank 72 when the humidifying assembly 3 is mounted to sterilize the water inside the water tank 72.
  • a bottom surface of the inner frame 22 protrudes from the bottom surface of the inner frame 22. 224 may be formed.
  • a circumferential surface of the inner frame 22 may extend upward, and an inlet 225 may be formed at an upper portion of the circumferential surface of the inner frame 22.
  • the inlet 225 may be opened at a position corresponding to the first humidifying member 60, and may be opened to occupy most of the upper portion of the inner circumferential surface of the inner frame 22. Therefore, the air blown by the fan 140 may be introduced into the humidification assembly 3 through the inner frame 22 through the inlet 225.
  • the inlet 225 may be divided into a plurality of vertical inlet 226 formed on the inner surface of the inner frame 22.
  • a plurality of vertical connecting portion 226 is formed along the inner frame 22 circumference but may have a size corresponding to a position corresponding to the frame of the first humidifying member 60.
  • the out frame 23 may be provided at an outer side of the inner frame 22 and fixedly mounted to an inner side surface of the second out case 201.
  • the out frame 23 and the inner frame 22 may be coupled to each other by an upper end coupled thereto, and the inner frame 22 and the out frame 23 may be supported by the sensor mounting part 232.
  • the inner frame 22 and the remaining part of the out frame 23 are spaced apart from each other to form a flow path of air.
  • the inner surface of the out frame 23 is rounded in a shape in which the inner diameter is narrowed upwards to guide the air flowing upward in the lower body assembly 10 toward the inlet 225 of the inner frame 22. Is formed. That is, the out frame 23 may be formed to have a predetermined curvature so as to be closer toward the inner frame 22 as it goes upward, so that air may naturally flow into the inlet 225.
  • the upper end of the out frame 23 may be formed to contact the upper end of the inner frame 22, that is, the inner circumferential surface of the display assembly 26.
  • recesses 231 recessed at corresponding positions may be formed at both inner sides of the out frame 23 so that the handle groove 201a of the second out case 201 may be formed.
  • a detection sensor mounting part 232 having a water level detection sensor 233 for detecting the water level inside the water tank 72 may be formed at one side of the inner surface of the out frame 23.
  • the detection sensor mounting portion 232 is formed long up and down, and the inside of the water level detection sensor 233 for sensing the magnet may be configured to detect the high water level and the low water level, respectively.
  • the sensor mounting portion 232 may be formed on the outer surface of the inner frame.
  • the display assembly 26 may be provided between the inner frame 22 and the out frame 23.
  • the display assembly 26 may connect an upper end of the inner frame 22 and the out frame 23 to shield between the inner frame 22 and the out frame 23. Therefore, all of the air introduced between the inner frame 22 and the out frame 23 may be introduced into the inner frame 22 through the inlet 225.
  • the display assembly 26 may be formed at a position corresponding to a position where the second out case 201 and the first window contact each other. Accordingly, the user may check the display assembly 26 through the first window 202.
  • the display assembly 26 may form a boundary between the second out case 201 and the first window 202 and shield the gap between the inner frame 22 and the out frame 23. .
  • a top power connection part 27 extending upward may be formed at one side of the display assembly 26 facing the detection sensor mounting part 232.
  • the top power connection part 27 extends upward, and when the humidification assembly 3 is mounted, one side of the humidification assembly 3 may be seated to supply power to the top cover 40.
  • top power connector 27 extends so that one side of the top cover 40 may be seated, and a pair of power terminals 271 may protrude from both ends of the top power connector 27.
  • the power terminal 271 may be inserted into the terminal hole 441 of the top cover 40, and may supply power to the top cover 40.
  • a body communication module 272 may be provided on an upper surface of the tower power connector 27.
  • the body communication module 272 may be configured to enable infrared communication with the top cover 40, and non-contact with the cover communication module 442 of the top cover 40 when the top cover 40 is mounted. It is configured to communicate in a manner. That is, the operation signal of the top cover 40 is transmitted to the body side, but is configured to be possible without the connection of a separate wire or connector, it can be configured to enable easy detachable mounting of the top cover 40.
  • the body communication module 272 may be applied to various structures such as near field communication capable of transmitting signals in a non-contact manner in addition to infrared communication.
  • the first window 202 is formed of a transparent material and extends upward from an upper end of the second out case 201.
  • a window coupling part 202a extending inwardly is formed at a lower end of the first window 202.
  • the out frame 23 and the inner frame 22 are coupled to the window coupler 202a, and the display assembly 26 may be seated.
  • the window coupling part 202a may be formed of an opaque plastic material different from the first window 202, and may be ultrasonically fused to the first window 202 or may be coupled or attached by a separate structure.
  • 16 is a view illustrating a display operation state of the upper body assembly.
  • an upper surface of the display assembly 26 may be exposed through the first window 202.
  • the display assembly 26 may be provided with a display 273.
  • the display 273 is for displaying an operating state of the humidified air cleaner 1, and a number or a letter may be displayed by lighting of an LED, and the user may confirm the information through the first window 202. do.
  • Top surfaces of the display 273 and the display assembly 26 may be formed in black. Therefore, when the display 273 is turned off, the information output from the display 273 may not be exposed to the outside, and may be formed to have a sense of unity with the top surface of the display assembly 26.
  • the display assembly 26 and the display 273 may be formed such that an upper surface thereof has an inclination. Thus, when viewed through the first window 202 from the outside, it is configured to more easily identify the information of the display 273.
  • the position of the display 273 may be formed at a position facing the top power connector 27, and may be positioned on the same extension line as the operation unit 422a of the top cover 40. Therefore, when the user manipulates the operation unit 422a of the top cover 40, the information output from the display 273 can be checked within the same line of sight.
  • the display 273 is positioned between the first window 202 and the second window 71 so that the second display together with information output from the display 273 during the operation of the humidification assembly 3. It is possible to check the water droplets that hit the window 71, and it is possible to simultaneously check the operating state.
  • 17 is a perspective view of a humidifying assembly according to an embodiment of the present invention.
  • 18 is an exploded perspective view of the humidifying assembly.
  • the humidifying assembly 3 has a structure that can be mounted through an open upper surface of the upper body assembly 20.
  • the humidification assembly 3 is wetted by a water reservoir 70 in which water for humidification is stored, a water spray member 80 spraying water in the water reservoir 70, and sprayed water.
  • the first humidifying member 60 and the second humidifying member 50 for performing substantial humidification, and the top cover 40 to form the appearance of the upper surface may be included.
  • the water reservoir 70 is a water tank 72 in which the water supplied for humidification and water sprayed by the water injection member 80 above the water tank 72 collides with each other.
  • the second window 71 may be included.
  • the first humidifying member 60 is formed so that the upper and lower surfaces are opened, and the circumferential surface is inclined.
  • the first humidifying member 60 may be seated inside the water reservoir 70 and may be formed to allow air that is forced to flow by the fan to pass therethrough.
  • the first humidifying member 60 may include a mesh or a porous material, and thus air passing through the first humidifying member 60 may be humidified by water included in the first humidifying member 60. It can be configured to be.
  • the first humidifying member 60 may be continuously supplied with water by the water injection member 80, and primary humidification may be performed while passing through the first humidifying member 60.
  • the second humidifying member 50 is formed in a disc shape and is seated on an upper end of the second window 71 to form an open upper surface of the second window 71.
  • the second humidification member 50 may also be formed of a mesh or a porous material and be wetted by water scattered by the water injection member 80.
  • the air flowing into the water reservoir 70 through the first humidifying member 60 passes through the second humidifying member 50, thereby allowing secondary humidification.
  • the air sufficiently humidified by the first and second humidification may be discharged into the indoor space through the discharge port 402 formed in the top cover 40.
  • the second humidifying member 50 may be fixedly mounted on the bottom surface of the top cover 40. Therefore, when the top cover 40 is detached, the second humidifying member 50 may be detached together to open and close the space inside the water reservoir 70.
  • the top cover 40 may have a size corresponding to the diameter of the second humidifying member 50, and may be mounted on an upper surface of the water reservoir 70 to form an upper surface of the humidifying assembly 3.
  • a water supply port 401 may be formed at the center of the top cover 40, and a plurality of discharge ports 402 may be formed along an outer circumference of the water supply port 401.
  • 19 is a view of the top cover according to the embodiment of the present invention as seen from above.
  • 20 is a view of the top cover viewed from below.
  • 21 is an exploded perspective view of the top cover.
  • 22 is a cutaway perspective view of the top cover.
  • the top cover 40 may include a cover grill 41 and a controller 42.
  • the cover grill 41 forms a lower portion of the top cover 40 and includes a plurality of discharge holes connecting the out ring 411 and the inner ring 412 and the out ring 411 and the inner ring 412.
  • the grill 413 may be configured.
  • the out ring 411 may be formed in a circular shape corresponding to or slightly larger than the diameter of the second humidifying member 50 so that the second humidifying member 50 may be disposed below.
  • the inner ring 412 may have a shape corresponding to or somewhat larger than that of the water inlet 401.
  • the inner ring 412 is positioned inside the out ring 411, and the inner ring 412 and the out ring 411 may be formed to be concentric.
  • the bottom of the out ring 411 may be provided with a magnet 411a.
  • the magnets 411a may be disposed at regular intervals along the circumference of the out ring 411, and may be positioned at the same position as the magnets 514 formed around the second humidifying member 50. Therefore, the second humidifying member 50 may maintain the state attached to the lower surface of the top cover 40 by magnetic force.
  • the outlet grille 413 connects the inner ring 412 and the out ring 411, but a plurality of the outlet grille 413 may be disposed radially with respect to the center of the inner ring 412.
  • a discharge port 402 may be formed between the plurality of discharge port grills 413, and air passing through the second humidifying member 50 may be discharged to the outdoor space.
  • the top cover connecting portion 43 is formed on one side of the discharge port grill 413.
  • the top cover connecting portion 43 may be formed at a position corresponding to the power connecting portion 27, and may be seated on the power connecting portion 27 when the top cover 40 is mounted.
  • the top cover connection part 43 is provided with a connection part cover 44 for shielding the opened lower surface.
  • the connection part cover 44 may be provided with a terminal hole 441 into which the power terminal 271 protruding from the top power connection part 27 is inserted. When the top cover 40 is mounted, the power supply terminal 271 is inserted into the terminal hole 441 so that the top cover 40 and the body 2 are electrically connected to each other. Supply is possible.
  • a cover communication module 442 for communicating with the body communication module 272 may be provided inside the top cover connection part 43.
  • the cover communication module 442 and the body communication module 272 are located at positions facing each other, and the short cover communication is possible in a state where the top cover 40 is adjacent to each other in a state where the top cover 40 is mounted on the body 2. It becomes a state. Accordingly, an operation signal of the operation unit 422a may be transmitted through the cover communication module 442 and the body communication module 272, and the display 273 may output information according to the received signal. .
  • a humidifying member detecting device 45 may be provided inside the top cover connecting part 43.
  • the humidifying member detecting device 45 may be configured as a magnetic sensor that detects a magnetic force, and may be configured to detect mounting of the second humidifying member 50.
  • the water supply port 401 is formed at the center of the top cover 40 to inject water for humidification into the humidifying assembly 3, and an operation unit capable of manipulating the operation of the humidifying air cleaner 1. 422a may be formed.
  • the controller 42 may include the control base 421 and the control cover 422.
  • the control base 421 may be coupled to the cover grill 41 and disposed concentrically with the cover grill 41.
  • the control base 421 may be formed in a ring shape having an open center, and may include a touch PCB 46 in which the touch sensor 461 is mounted. The open upper surface of the control base 421 may be shielded by the control cover 422.
  • the control cover 422 may be formed to shield the opened upper surface of the control base 421, and may be formed so that the center thereof is opened to correspond to the water inlet 401.
  • the upper surface of the control cover 422 may be composed of a first surface 422b and a second surface 422c which are formed to be inclined, respectively.
  • the first surface 422b is formed to be higher toward the outside from the water inlet 401 at the center of the control cover 422. Therefore, when water is poured into the water inlet 401, the water contacting the first surface 422b flows to the water inlet 401 along the inclination of the first surface 422b.
  • the second surface 422c extends outward from an upper end of the first surface 422b and is formed to lower toward the outside.
  • the second surface 422c extends to an end of the control base 421, and an operation unit 422a is formed at a position corresponding to the touch sensor 461. Therefore, the user can easily identify and recognize the operation unit 422a.
  • the manipulation unit 422a may display a portion touched by the user by printing or surface treatment. When the user touches the manipulation unit 422a, the touch sensor 461 recognizes the manipulation and performs the set operation.
  • the upper surface of the controller 42 is frequent water supply of the user to replenish the water for humidification, it can be water-repellent coating treatment. Therefore, the residual water generated when water is injected through the water inlet 401 of the top cover 40 may naturally flow along the inclined outer surface, and after the water supply is completed, the residual water may be left in the control cover 422. ) Do not remain on the surface.
  • FIG. 23 is a perspective view of a second humidifying member according to an embodiment of the present invention.
  • 24 is an exploded perspective view of the second humidifying member.
  • Figure 25 is an exploded cross-sectional view showing a coupling structure of the top cover and the second humidifying member.
  • the second humidifying member 50 may be seated on the inner side of the second window 71 and may be formed in a size that can be shielded by the top cover 40.
  • the second humidifying member 50 is provided between the upper prefilter 51 forming the upper surface and the low prefilter 52 forming the lower surface, and between the upper prefilter 51 and the low prefilter 52.
  • the second inner filter 53 is included.
  • the upper prefilter 51 includes an outer edge 511 and an inner edge 512 of a circular ring shape, and an upper mesh part 513 connecting between the outer edge 511 and the inner edge 512. It can be configured as.
  • the upper mesh part 513 may be formed of a plurality of openings and may be formed to fix the second inner filter 53 and to filter foreign matter having a large size.
  • An extended length of the outer edge 511 and the inner edge 512 may be formed to correspond to the thickness of the second inner filter 53.
  • a hook portion 511a may be formed at a lower end of the outer edge 511 to restrain the outer end of the low prefilter 52.
  • a plurality of magnets 514 may be disposed around the upper prefilter 51.
  • the magnet 514 may be located at a position corresponding to the magnet 411a provided on the bottom surface of the cover grill 41. And. According to the arrangement of the magnet 514, the second humidifying member 50 may be fixedly mounted to the lower surface of the top cover 40 in an aligned state.
  • the low prefilter 52 has a size and shape corresponding to that of the upper mesh part 513 and is coupled to a lower end of the upper prefilter 51. Accordingly, the second inner filter 53 may be disposed in a space formed by the combination of the upper prefilter 51 and the low prefilter 52.
  • the low prefilter 52 may be formed in a disc shape, and a low mesh part 521 having the same shape as the upper mesh part 513 may be formed on the entire surface except the central opening.
  • a center hole 522 may be formed in the center of the low prefilter 52, and a constraining rib 523 may be formed around the center hole 522.
  • the restraining rib 523 may extend upward of the upper prefilter 51 and may be in close contact with the side surface of the inner edge 512.
  • the upper end of the constraining rib 523 is inserted into the constraining groove 412a formed in the inner ring 412 of the cover grill 41 so that the second humidifying member 50 is on the top cover 40. It is fixed as well as preventing the water supply from overflowing.
  • the water supply guide member 54 may be mounted in the center hole 522 in the center of the low prefilter 52.
  • the water supply guide member 54 may be formed in a dome shape having an upper surface, and may protrude toward the water supply port 401, but may be located below the water supply port 401.
  • the center hole 522 may be formed by a guide seat 524 extending inward along a lower end of the restraining rib 523.
  • the water supply guide member 54 may be fixedly mounted to the guide seat 524.
  • a plurality of restraining pieces 541 protrude from the lower circumference of the water supply guide member 54.
  • the restraining piece 541 may be inserted into the restraining piece insertion part 52 formed around the center hole 522 when the water supply guide member 54 is mounted.
  • the restraint piece insertion part 52 is formed to protrude from the guide seating part 524 to accommodate the restraint piece 541. Then, the restriction piece 541 is opened in one direction to be inserted while being rotated. In addition, a locking protrusion 525a is formed inside the constraint piece inserting portion 52 so that the locking piece 541a may be restrained by the locking protrusion 525a in the inserted state.
  • the lower end of the water supply guide member 54 may be completely in contact with the guide seating portion 524, and is formed to be spaced apart from the outer surface of the water supply guide member 54 and the restriction rib 523.
  • a plurality of the water supply slits 526 may be formed in the guide seat 524 between the water supply guide member 54 and the restraining rib 523.
  • the water supply slit 526 extends along the guide seating portion 524 and may be formed in the remaining region except for the restraint piece insertion portion 52.
  • the water supply slit 526 is formed to correspond to the diameter of the case cover 83 of the water jetting member 80 to be described below, so that the water dropped by the water supply slit 526 is the case cover 83. It can be scattered while hitting the outer end of the.
  • the opening width of the water supply slit 526 is about 1mm to drain the water to the water supply port 401 is configured so that a large amount of water does not pour at a time without falling into the water reservoir 70 at a constant flow rate Can be.
  • a magnet mounting part 527 may be formed at one side of the low prefilter 52 at a position corresponding to the humidifying member detecting device 45.
  • the magnet mounting portion 527 is formed between the low prefilter 52 and the upper prefilter 51 to form a space in which the magnet 528 can be accommodated. Therefore, in the state where the first humidifying member 60 is mounted, the upper surface of the first humidifying member 60 is in contact with the lower surface of the top cover 40, and the humidifying member sensing device provided in the top cover 40 ( 45 detects the magnet 528 to detect the mounting of the first humidifying member 60.
  • the humidifying member detecting apparatus 45 When the humidifying member detecting apparatus 45 does not detect the mounting of the first humidifying member 60, an abnormality is output to the display 273, and if necessary, the humidifying member detecting apparatus 45 may be guided by voice. In addition, the first humidifying member 60 may be controlled so that the operation of the humidifying air cleaner 1 is not performed.
  • 26 is a perspective view of a first humidifying member according to an embodiment of the present invention.
  • 27 is an exploded perspective view of the first humidifying member.
  • 28 is a cross-sectional view of the first humidifying member.
  • the first humidifying member 60 may be formed in a cylindrical shape having an upper surface and a lower surface opened, and may be formed in a shape in which the diameter thereof becomes narrower from the upper side to the lower side. That is, the circumferential surface of the first humidifying member 60 may be formed to have an inclination, and upper and lower ends may be seated on the water tank 72 and the second window 71.
  • the first humidifying member 60 includes an inner prefilter 61 forming an inner side, an out prefilter 62 forming an outer side, and an inner prefilter 61 and an out prefilter 62. It may include a first inner filter 63 provided between the support frame 64 for supporting the inner pre-filter 61 and the out pre-filter 62.
  • the inner prefilter 61 includes an inner upper ring 611 and an inner lower ring 612, and a plurality of inner dividers 613 connecting the inner upper ring 611 and the inner lower ring 612. Can be.
  • An inner mesh part 614 may be formed in a space partitioned by the inner upper ring 611, the inner lower ring 612, and the plurality of inner dividers 613.
  • the hole size of the inner mesh portion 614 may be formed to have a size that allows the passage of air but does not directly pass through the water droplets, but the water droplets fill the hole to wet the surface of the inner mesh portion 614. Accordingly, the inner mesh part 614 may be wetted by water droplets injected into the first humidifying member 60, and the first inner filter 63 having a hole finer than the inner mesh part 614 may be formed. Moisture may be transferred from the inner mesh portion 614 surface.
  • a round portion 611a may be further formed on the upper surface of the inner upper ring 611.
  • the round portion 611a may be formed to be inclined or rounded toward the center and the bottom of the first humidifying member 60 from the outer side to the inner side. Accordingly, the water flowing along the second window 71 flows down the round portion 611a and then flows to the inner side surface of the first humidifying member 60.
  • a contact rib 611b protruding downward may be further formed on a lower surface of the round part 611a.
  • the close contact rib 611b is in close contact with the lower end of the second window 71 and the corner portion of the flange part 713 when the first humidifying member 60 is mounted. 2 to block the water flowing into the gap of the window (71). Therefore, most of the water flowing through the second window 71 is directed toward the inner side surface of the first humidifying member 60 through the round part 611a.
  • the upper surface of the round portion 611a may be further formed with a marker 611c for displaying the directionality when the first humidifying member 60 is mounted. Therefore, the user may check the marker 611c to align the first humidifying member 60 and mount the inside of the water reservoir 70.
  • the inner lower ring 612 may be supported by the supporting frame 64.
  • the inner divider 613 may protrude a humidifying member handle 613a protruding inward. Therefore, in order to separate-mount the first humidifying member 60, a user may move the first humidifying member 60 by holding the handle.
  • the first inner filter 63 may be formed of a material capable of adsorbing moisture while allowing air to pass through, such as fabric or sponge.
  • the first inner filter 63 may be formed of the same material as the second inner filter 53.
  • the first inner filter 63 is formed to be accommodated in a space formed when the inner prefilter 61 and the out prefilter 62 are coupled to each other.
  • the out prefilter 62 may include an out upper ring 621 and an out lower ring 622, and an out divider 623 connecting the out upper ring 621 and the out lower ring 622. .
  • the out prefilter 62 may be formed to have a size and a shape that can accommodate the inner prefilter 61 and the first inner filter 63 inside.
  • the out upper ring 621 may be coupled to a bottom surface of the inner upper ring 611.
  • protrusions 611d and grooves 621a inserted into each other may be formed around the outer upper ring 621 and the inner upper ring 611.
  • a seating groove is formed in a lower surface of the outer upper ring 621 to be seated in a flange portion 713 at a lower end of the second window 71 when the first humidifying member 60 is mounted. The upper end of 60 can be supported.
  • the out lower ring 622 may be formed with a drain groove 625 into which an end of the inner lower ring 612 is inserted, and may be coupled to each other. Therefore, the outer lower ring 622 has a structure capable of supporting the first inner filter 63 and the inner prefilter 61 from below.
  • the out prefilter 62 includes an out upper ring 621 and an out lower ring 622, and a plurality of out dividers 623 connecting the out upper ring 621 and the out lower ring 622. Can be.
  • An out mesh part 624 may be formed in a space partitioned by the out upper ring 621, the out lower ring 622, and the plurality of out dividers 623.
  • the out mesh part 624 of the out prefilter 62 may be configured in the same manner as the inner mesh part 614 of the inner prefilter 61.
  • the mesh units 614 and 624 are provided at both sides of the inner prefilter 61 and the out prefilter 62, thereby enabling stable support of the first inner filter 63.
  • the inner prefilter 61 prevents water droplets from splashing so that the first inner filter 63 is locally wetted or excessively excessive moisture is supplied to the first inner filter 63, and the first inner filter 63 is prevented. The water is evenly distributed throughout the filter 63.
  • the out prefilter 62 prevents water droplets from splashing out of the out prefilter 62 even when the first inner filter 63 is completely wet.
  • the out prefilter 62 may further include a drain guide 626 connecting the out upper ring 621 and the out lower ring 622.
  • the drain guide 626 may be opened toward the inner side of the first humidifying member 60, and a lower end thereof may communicate with the drain groove 625.
  • the outer surface of the drain guide 626 is formed to protrude outward, it is formed to be inserted into the drain portion 715 to be described below.
  • the outer surface of the drain guide 626 is guided by the side wall 716 forming both sides of the drain portion 715 can be inserted downward. Therefore, when the first humidifying member 60 is mounted, the first humidifying member 60 may be inserted in an aligned state by the structure of the drain guide 626 and the drain 715.
  • a guide hole 626a is formed at the lower end of the outer surface of the drain guide 626 and may communicate with the inside of the guide insertion groove 641 formed in the supporting frame 64. Therefore, when excessive amount of water is supplied to the first inner filter 63 or water is accumulated in the drain groove 625, the water flows into the drain guide 626. Water introduced into the drainage guide flows into the guide insertion groove 641 of the supporting frame 64 through the guide hole 626a and flows into the water tank 72.
  • the supporting frame 64 may be coupled to the bottom of the out prefilter 62 by the structure of the protrusion 622a and the groove 644.
  • the supporting frame 64 is inserted into the water tank 72 when the first humidifying member 60 is mounted, and is formed in a shape corresponding to a cross-sectional shape of the water tank 72 so that the water tank ( The first humidifying member 60 may be seated while contacting the inner surface of the 72.
  • the supporting frame 64 is provided with a plurality of guide insertion grooves 641.
  • the guide insertion groove 641 is formed at a position corresponding to the drain guide 626 and is formed to be in communication with the guide hole 626a when the drain guide 626 is inserted. In addition, at least a portion of the lower surface of the guide insertion groove 641 is opened to allow water introduced through the drain guide 626 to be discharged into the water tank 72.
  • the inner circumferential surface of the supporting frame 64 is coupled to the lower end of the inner prefilter 61 and the out prefilter 62.
  • the barrier 642 may protrude from the outer circumferential surface of the supporting frame 64.
  • the barrier 642 may protrude upward from an outer circumferential surface of the supporting frame 64.
  • the height of the barrier 642 may be formed at a position higher than the height of the row hole 814 formed in the water injection member 80. Therefore, even if the water sprayed from the low hole 814 passes through the out prefilter 62, the water may hit the barrier 642 and may not splash or overflow outside the water reservoir 70.
  • barrier grooves 643 are formed on the outer surface of the barrier 642.
  • the barrier groove 643 communicates with a space inside the barrier 642 in a state where the barrier 642 is in contact with the inner surface of the water tank 72, so that water accumulated inside the barrier 642 is formed. It can be drained while flowing along the wall of the water tank (72).
  • 29 is a perspective view of a water reserve according to an embodiment of the present invention.
  • 30 is an exploded perspective view of the water reserve.
  • the water reservoir 70 may include a water tank 72 coupled to the second window 71 and a lower end of the second window 71.
  • the second window 71 may be formed of a transparent material, and may be formed in a shape in which the diameter becomes narrower from the upper side to the lower side.
  • the upper end of the second window 71 may be formed in a round shape to have a predetermined curvature and may be seated on the upper end of the first window 202.
  • a window step portion 711 may be formed on an inner side surface of the second window 71.
  • the window step 711 may be formed to have a width corresponding to the handle frame 73 on which the carrying handle 731 is mounted. Accordingly, the handle frame 73 may be mounted on the upper surface of the window step portion 711 and may be firmly coupled to the second window 71 by ultrasonic welding.
  • the carrying handle 731 may be rotatably mounted to the handle frame 73, and may be inserted into the handle receiving part 730 formed in the handle frame 73. Therefore, when the carrying handle 731 is inserted into the handle receiving portion 730, the handle frame 73 and the upper surface of the handle may form a flat surface.
  • a plurality of magnets may be provided on upper surfaces of the carrying handle 731 and the handle frame 73, and formed at positions corresponding to the magnet 514 disposed along the circumference of the second humidifying member 50.
  • the second humidifying member 50 may be attached to the upper surface of the handle frame 73 by magnetic force.
  • one side of the window step portion 711 is recessed to the outside is formed with a connection portion receiving portion 712, the top cover connecting portion 43 of the top cover 40 is accommodated.
  • a hole 712a corresponding to the terminal hole 441 may be formed on a bottom surface of the connection part accommodating part 712. Therefore, when the top cover 40 is mounted while the water reservoir 70 is mounted to the body 2, the power terminal 271 passes through the hole 712a and the terminal hole 411. Can be inserted in
  • a flange portion 713 bent to the inner side of the second window 71 is formed at a lower end of the second window 71.
  • the flange portion 713 may be coupled to the upper end of the extension portion 722 of the water tank 72.
  • a flange rib 714 extending upward may be formed at an inner end of the flange portion 713.
  • the flange rib 714 guides the flow of water flowing along the inner wall of the second window 71 while allowing the first humidifying member 60 to be seated.
  • the flange rib 714 extends upward along the flange portion 713, and may be spaced apart from the inner wall of the second window 71 by a predetermined distance. In addition, an upper end of the first humidifying member 60 may be seated on the flange portion 713.
  • the flange rib 714 may be formed along a circumference of the lower end of the second window 71, and a drain portion 715 may be formed by being cut at a portion that is coupled to the water tank 72.
  • a drain portion 715 may be formed by being cut at a portion that is coupled to the water tank 72.
  • the water tank 72 forms a predetermined space so that water supplied for humidification can be stored.
  • the water tank 72 is formed to have a size that can be accommodated inside the upper body assembly 20, and may be formed to be seated inside the inner frame 22.
  • the water tank 72 has a reservoir 721 for receiving water, an extension 722 extending upward from an upper end of the reservoir 721 and connected to the second window 71, and the reservoir It may be configured to include a bottom cover 74 is coupled to the bottom surface of the (721).
  • the reservoir 721 may extend to a height corresponding to a lower end of the first humidifying member 60, and a shaft accommodating part 724 for mounting the water injection member 80 may be formed at the center of the first humidifying member 60. It can extend upwards.
  • the water injection member 80 may have an open lower surface, and the shaft receiving portion 724 may be inserted into an open lower surface of the water injection member 80.
  • a predetermined interval is formed between the shaft receiving portion 724 and the water injection member 80, the inner surface of the water injection member 80 by the centrifugal force during the rotation of the water injection member 80. Accordingly, water may rise and may be sprayed toward the side through the row hole 814 and the upper hole formed in the water injection member 80.
  • a plurality of jetting blades 828 are formed on the outer surface of the water jetting member 80 to scatter the jetted water or to pulverize it into smaller droplets.
  • the tank extension part 722 may be formed in plural at regular intervals, and may be formed at a position corresponding to the drain part 715 of the second window 71. Accordingly, an upper end of the tank extension 722 may be connected to the drain 715, and the water drained through the drain 715 may flow along the tank extension 722 to allow the water tank ( 72) can be introduced inside.
  • an opening is spaced apart between an upper end of the reservoir 721 and a lower end of the second window 71.
  • 701 may be formed.
  • the air passing through the inlet 225 of the inner frame 22 when the fan 140 is driven may pass through the opening 701 and pass through the first humidifying member 60.
  • the inlet 225, the opening 701 and the first humidifying member 60 may be located at the same height.
  • 31 is a plan view of a water tank according to an embodiment of the present invention.
  • 32 is a cutaway perspective view of the water tank.
  • 33 is a cutaway perspective view illustrating a coupling between the water tank and the second window.
  • 34 is an enlarged view of a portion A of FIG. 33.
  • the shaft receiving portion is formed in the center of the bottom surface of the water tank.
  • a lower end of the shaft accommodating part 724 is formed to be rounded, and the shaft accommodating part 724 is formed in a shape in which the diameter thereof becomes narrower as it goes upward, so that the water of the reservoir part 721 is more smoothly. It may be introduced into the injection member 80.
  • the lower end of the water injection member 80 is the water tank
  • the water stored in the water tank 72 is also spaced apart from the bottom of the 72 can be introduced through the opened lower surface of the water injection member (80).
  • a tank transmission window 725 is formed on the bottom surface of the water tank 72.
  • the tank transmission window 725 may be formed of a transparent material by shielding an opening formed at the bottom of the water tank 72.
  • the yuv may be formed at a position corresponding to the module 25. Therefore, while the UV module 25 is operated, ultraviolet rays irradiated from the UV module 25 are irradiated into the water tank through the tank transmission window 725 and stored in the water tank 72. Can be sterilized.
  • the UV module 25 is operated for a predetermined period or a predetermined time so that the water stored in the water tank 72 maintains sterilization.
  • an antifouling coating may be formed on the entire inner surface of the water tank 72 to facilitate the washing of the water tank 72, and a sterilizing coating may be formed to prevent the growth of bacteria.
  • a bottom protrusion 726 may be further formed on the bottom surface of the water tank 72.
  • the bottom protrusion 726 suppresses the rotation of the stored water inside the water tank 72 which is rotated when the water injection member 80 rotates, and at the same time causes the stored water to run up and down in the vertical direction. Even in the low water level of the 72) to facilitate the inflow of water into the water injection member (80).
  • the bottom protrusion 726 may protrude upward from the bottom of the reservoir 721, and may extend radially from the center of rotation of the water injection member 80, that is, the center of the shaft receiving part 724. That is, the bottom protrusion 726 may extend from the outside of the shaft receiving portion 724 to the inner circumference of the water storage portion 721.
  • a plurality of the bottom protrusions 726 may be formed, and the plurality of the bottom protrusions 726 may be disposed in an asymmetrical position.
  • the bottom protrusion 726 may be molded together when the water tank 72 is formed, or the bottom protrusion 726 may be configured to be attached to the water storage part 721.
  • Curved portions 726a and inclined portions 726b may be formed on both surfaces of the bottom protrusion 726.
  • the curved portion 726a is formed in a shape that is curved in a direction in which the water spraying member 80 rotates, so that water rotated about the water spraying member 80 flows along the curved portion 726a. To the bottom protrusion 726.
  • an inclined portion 726b having a downward slope may be formed at an upper end of the curved portion 726a.
  • the inclined portion 726b may form an obtuse angle with the bottom of the water storage portion 721 such that the water passing through the curved portion 726a may drop rapidly.
  • the water rotated by the water jetting member 80 during the rotation of the water jetting member 80 can be quickly rotated by the resistance of the bottom protrusion 726 to be suppressed from swirling, and is swung upward. This will be. In addition, this phenomenon can be more effectively achieved by the plurality of bottom protrusions 726.
  • a plurality of reinforcing ribs 727 may be formed on the bottom surface of the reservoir 721 to prevent deformation of the reservoir and to reinforce the strength.
  • the reinforcing rib 727 may be formed over the entire surface of the reservoir 721, and may be formed in a shape in which a plurality of grids cross each other.
  • a bottom cover 74 may be mounted on the bottom surface of the reservoir 721.
  • the bottom cover 74 may form a bottom surface of the water tank 72 by shielding a configuration including a reinforcement rib 727 on the bottom surface of the water storage part 721.
  • the bottom cover 74 may fix a configuration inside the shaft accommodating part 724.
  • the bottom cover after inserting the drive shaft 89, the sealing members (871, 872) and the bearings (861, 862) for the rotation of the water injection member 80 in the shaft accommodating portion (724).
  • a portion of the lower surface of the shaft receiving portion 724 is shielded by 74 to fix these configurations.
  • the bottom cover 74 may be coupled to the water tank 72 by screwing. The configuration and coupling structure inside the shaft receiving portion 724 will be described in more detail below.
  • the bottom cover 74 is provided with a bottom sealing member 741.
  • the bottom sealing member 741 is mounted on a lower surface adjacent to the outer end of the bottom cover 74 and is formed along the circumference of the bottom cover 74. Therefore, the water tank 72 and the inner frame 22 are hermetically sealed, and the injection motor 24 and the yub block water from flowing into the module 25.
  • the bottom sealing member 741 may minimize vibration noise generated when the fan motor 160 and the injection motor 24 are driven by the elasticity of the bottom sealing member 741.
  • an inner surface of the tank connection portion 722 may be formed with a recessed flow path forming portion 728 and the tank fastening portion 729 protruding from the center of the flow path forming portion 728.
  • the flow path forming part may extend downward from the upper end of the tank connection part 722 and may be formed to have a predetermined slope.
  • the drain 715 of the second window 71 and an upper end of the flow path forming part 728 are connected so that the water of the drain 715 flows along the flow path forming part 728. Can flow).
  • the tank fastening portion 729 has a fastener 729a formed on an upper surface thereof, and a fastening protrusion (not shown) formed at a lower end of the second window 71 is inserted or a screw is fastened through the fastener 729a.
  • a fastening protrusion not shown
  • the tank fastening part 729 and the second window 71 may be coupled.
  • One side of the flange portion 713 in which the drain portion 715 is formed is formed with a side wall 716 extending inwardly of the flow path forming portion 728.
  • the side wall 716 extends downward from both ends of the drain 715 and protrudes to a predetermined height.
  • the width between the side walls 716 is formed to correspond to the drain guide 626 of the first humidifying member 60, the pair of drain guide 626 when the first humidifying member 60 is mounted May pass between sidewalls 716.
  • a flange protrusion 717 is formed between the pair of side walls 716, and the flange protrusion 717 is coupled to the tank coupling part 729.
  • a drain passage 715a may be formed at both sides of the flange protrusion 717 to communicate with the passage 728a at both sides of the tank fastening portion 729.
  • water flowing along the flange portion 713 flows downward along the drain passage 715a formed in the drain portion 715 and flows along the passage 728a on both sides of the passage forming portion 728. You can get off.
  • the tank fastening part 729 extends downward across the center of the flow path forming part at the upper end of the tank connection part 722. Water flowing into the flow path forming part 728 through the drainage part 715 flows downward along the flow path 728a formed at both sides of the tank fastening part 729. Therefore, the water of a certain flow rate can flow along the surface of the flow path 728a which is formed inside the flow path forming part 728 without a large amount of water flowing at a time, thereby minimizing noise generated when the water flows. Can be.
  • a drainage rib 723 may be further formed inside the flow path forming part 728.
  • the drain rib 723 is to increase the surface area of the water flowing along the flow path forming portion 728 to contact, and to slow down the flow rate of water falling into the reservoir 721 to minimize noise generated when the water falls. You can do it.
  • 35 is a perspective view of the water jetting member.
  • 36 is an exploded perspective view of the water jetting member.
  • 37 is a sectional view of the water jetting member.
  • the water jetting member 80 may be formed in a cylindrical shape, the diameter of which is generally increased upward, and may include a low case 81, an upper case 82, and a case cover 83. Can be. Each of these components may be configured to be separated from each other to facilitate the washing of the water injection member 80 and the water reservoir 70 by a user.
  • the row case 81 forms a lower shape of the water injection member 80 and extends upward. An upper end of the row case 81 may extend to a height higher than a lower end of the first humidifying member 60 when the first humidifying member 60 is mounted.
  • the row case 81 may be formed in a cylindrical shape in which an upper surface and a lower surface thereof are opened, and may be formed to have a larger diameter toward the upper side.
  • the shaft accommodating part 724 may be inserted through the opened lower surface of the row case 81.
  • a lower case inlet portion 811 is formed at the lower end of the row case 81 to be inclined toward the shaft receiving portion 724 to narrow the lower portion between the lower case 81 and the shaft receiving portion 724. The space can be flowed more smoothly.
  • a plurality of lower ribs 812 may be formed on an inner circumferential surface of the row case 81.
  • the lower rib 812 guides the water of the reservoir 721 to move upwardly while rotating along the inner surface of the row case 81 by the rotation of the water injection member 80.
  • the lower rib 812 may extend upward from the lower end of the row case 81, and may have a shape protruding toward a center of the row case 81 by a predetermined height.
  • a plurality of the lower ribs 812 may be continuously formed at regular intervals, and may be disposed on the entire inner surface of the row case 81.
  • the lower rib 812 may extend to the lower end of the row case 81 as shown in FIG. 37 (a), and as shown in FIG. 37 (b), the lower end of the row case 81. It can also be extended to a higher point.
  • the lower case when the spacer 810 is formed on the inner lower end of the lower case so that the lower end of the lower rib 813 is spaced apart from the lower end of the low case 81, the lower case
  • the lower ribs 813 may be prevented from generating noise by hitting the lower ribs 813. That is, when water flows into the lower surface of the lower case 81, the lower rib 813 and the water do not collide with each other, and are moved upward along the lower end of the lower case 81 and then the lower rib 813. The upward movement can be guided by.
  • the lower rib 812 may protrude to the same height up to the height corresponding to the lower hole 814, and the inclined portion 812a so that the height protruding from the height corresponding to the lower hole 814 gradually decreases. ) Is formed so that the raised water can be sprayed along the wall surface of the low case 81 to the lower hole (814).
  • the lower hole 814 may be provided at an upper portion of the row case 81, and at least one or more holes may be formed. When the plurality of lower holes 814 is formed, the lower holes 814 may be formed to face each other.
  • the size of the lower hole 814 is formed to have a diameter of approximately 0.5mm ⁇ 1mm so that water introduced into the row case 81 can be injected to the first humidifying member 60 by the centrifugal force. .
  • the height of the lower hole 814 is located at a position higher than the lower end of the first humidifying member 60 may be formed at a position lower than the height of the top of the barrier 642 of the first humidifying member 60. . Accordingly, water is sprayed toward the lower end of the first humidifying member 60 to wet the first humidifying member 60 from the bottom, and water is transferred to the entire surface of the first humidifying member 60. Can be.
  • a lower coupling part 815 may be formed around the upper end of the row case 81 to be coupled to the upper case 82 in a rotational manner.
  • the lower coupling part 815 may have a spiral protrusion 816, and may be rotatably coupled with the upper coupling part 821 formed in a shape corresponding to a lower end of the upper case 82.
  • a lower support part 817 supporting the lower end of the upper case 82 may protrude around the lower end of the lower coupling part 815.
  • the upper case 82 may be coupled to an upper end of the low case 81 to form an upper portion of the water injection member 80.
  • the upper case 82 may extend upwardly of the first humidifying member 60 and may extend by a predetermined height so that the upper case 82 may be positioned in an area of the second window 71. Therefore, the upper case 82 can be seen from the outside through the second window 71, and the rotation state and the water injection state of the water injection member 80 can be confirmed.
  • the upper case 82 is formed in a shape in which an upper surface and a lower surface are opened, and an upper coupling portion 821 coupled to the lower coupling portion 815 is formed at the lower end of the inner surface of the upper case 82.
  • the upper coupling portion 821 may be formed with a protrusion 822 protruding in a spiral shape.
  • an upper support part 823 for supporting the upper end of the row case 81 may be formed to protrude inward from the upper coupling part 821 along the inner surface of the upper case 82.
  • the lower coupling part 815 and the upper coupling part 821 are rotatably coupled to each other for coupling the row case 81 and the upper case 82, and the row case 81 and the upper case 82 are coupled to each other.
  • the upper end of the low case 81 and the lower end of the upper case 82 come into contact with the upper support part 823 and the lower support part 817, respectively, to thereby complete the coupling.
  • the fat groove 824 may be further formed along the outer side of the upper surface of the upper case 82, that is, around the outer surface corresponding to the upper coupling part 821. By shaping the fat groove 824, it is possible to prevent deformation and defects of the outer surface of the upper case 82 due to shrinkage that may occur during molding of the upper coupling part 821.
  • a case supporter 825 may be provided inside the upper case 82.
  • the case supporter 825 is provided on the inner surface of the upper case 82 and is formed to be coupled to the drive shaft 89 for rotation of the water injection member 80.
  • the case supporter 825 is connected to a plurality of connection parts 825a extending from the lower side of the inner side of the upper case 82 toward the rotation center of the upper case 82, and the ends of the plurality of connection parts 825a. And a supporter boss 825b through which the drive shaft 89 penetrates at the rotation center of the upper case 82.
  • connection part 825a may include an inner rib 825c extending upward along the inner surface of the upper case 82.
  • the inner rib 825c may protrude toward the center of the upper case 82, and may extend from an upper end of the upper case 82 to the connection part 825a.
  • the liquid film when the liquid film is formed on the inner surface of the upper case 82, the liquid film may rotate at a different speed than the rotation of the water injection member 80 due to the characteristics of the water spray member 80 being rotated. At this time, vibration of the water injection member 80 may be generated by the liquid film, and thus a problem of lowering noise and durability may occur.
  • the inner rib 825c may be formed to prevent the formation of the liquid film, and the inner rib 825c may cause water to rotate along the upper case 82 to be hit by the inner rib 825c. The vortex is broken and the liquid film is prevented from being formed to enable smooth rotation of the water injection member 80.
  • a plurality of injection blades 828 may be provided on the outer circumferential surface of the upper case 82.
  • the injection blade 828 extends from the upper half of the outer circumferential surface of the upper case 82 to the lower end thereof, and may be inclined or bent to have a curvature in the direction in which the water injection member 80 rotates.
  • the injection blade 828 may be formed in a shape in which the upper width is wider and narrows toward the lower end.
  • the upper hole may be formed on the upper case 82.
  • the upper hole sprays water drawn into the upper case 82 toward the second window 71.
  • a plurality of upper holes may be provided, and the upper and lower heights may be positioned at different positions so that even water spraying may be performed on the entire surface of the second window 71 and the space in the side of the upper case 82.
  • the upper hole may include a first upper hole 826 and a second upper hole 827.
  • the first upper hole 826 may be formed in the upper case 82 between the injection blades 828.
  • the upper hole may be formed on an upper portion of the upper case 82 corresponding to a portion of the high injection blade 828 having a high height. Therefore, the water droplets sprayed from the upper hole during the rotation of the water jetting member 80 are hit by the jetting blade 828 in accordance with the rotation of the water jetting member 80 to be pulverized into fine droplets. At the same time, it can be scattered toward the second window 71.
  • the second upper hole 827 may be formed at a position higher than the first upper hole 826.
  • the second upper hole 827 may be formed at an upper end of the upper case 82 to which the case cover 83 is coupled. Therefore, when the case cover 83 is fastened, the second upper hole 827 may be shielded by the case cover 83.
  • the inner surface of the case cover 83 and the second upper hole 827 may be spaced apart by a predetermined interval. Therefore, water sprayed through the second upper hole 827 may be scattered toward the second window 71 after hitting the case cover 83.
  • the water sprayed by the first upper hole 826 and the second upper hole 827 hits the inner surface of the second window 71 and then flows downward along the second window 71. do. Therefore, when the user looks at the transparent second window 71 from the outside, it is possible to produce an image as if it is raining on the second window 71.
  • the case cover 83 may be fastened to an upper surface of the upper case 82.
  • the case cover 83 shields the opened upper surface of the upper case 82, and a case extension 722 extending downward is formed around the upper case 82 to form an upper end of the upper case 82. Can be coupled to rotate.
  • the case extension part 722 may shield the second upper hole 827 while being spaced apart from the second upper hole 827.
  • a plurality of case grooves 832 may be formed around the cover extension part 831 along the case cover 83 at regular intervals. Accordingly, when the case cover 83 is rotated and coupled, the user can easily rotate the case cover 83.
  • the outer end of the case cover 83 may be positioned on the same extension line as the water supply slit 526 formed in the second humidifying member 50. That is, the water supplied by the water supply slit 526 falls downward to hit the outer end of the upper surface of the case cover 83 or the upper surface of the case cover 83, the water injection member 80 Water supplied by the rotation of water is scattered and is directed to the second window 71.
  • a cover boss 833 may be further formed at the center of the lower surface of the case cover 83, in which an upper end of the driving shaft 89 may be screwed. Therefore, when the water jetting member 80 or the water jetting member 80 is disassembled for cleaning the water tank 72, the case cover 83 is separated from the upper end of the drive shaft 89. The upper case 82 and the low case 81 can be separated.
  • 38 is a view illustrating a state in which water is injected from the low hole of the water injection member.
  • the height of the lower hole 814 is between the lower end of the first humidifying member 60 and the barrier 642, and thus directly sprays water toward the lower region of the first humidifying member 60.
  • the lower hole 814 may be provided in plural, and continuous water supply may be provided along a lower portion of the first humidifying member 60 due to the property of the water spraying member 80 being rotated.
  • the water sprayed toward the first humidifying member 60 wets the inner prefilter 61 first and wets the first inner filter 63 in contact with the surface of the inner prefilter 61. do.
  • Water directly injected into the first humidifying member 60 may pass through the first humidifying member 60 in some cases.
  • the water that has passed through the first humidifying member 60 hits the barrier 642, so that water does not splash or overflow outside of the water tank 72.
  • water hitting the barrier 642 flows along the supporting frame 64, and flows downward along the wall surface of the water tank through the barrier groove 643 of the supporting frame 64 to the water tank 72. ) Can be recovered again.
  • a portion of the water injected into the first humidifying member 60 may flow downward along the inner prefilter 61, and may be disposed along the drain groove 625 formed in the outer lower ring 622. After entering the guide 626 may be drained to the water tank 72 through the opening of the supporting frame 64.
  • 39 is a view illustrating a state in which water is injected from the first upper hole of the water injection member.
  • the water injection member 80 when the water injection member 80 is rotated, the water in the water tank 72 is introduced through the lower surface of the row case 81, it is moved upward by the centrifugal force.
  • the water moved to the upper case 82 rises up to the first upper hole 826 formed in the upper case 82, and the water sprayed through the first upper hole 826 passes through the second window ( 71).
  • Water sprayed through the first upper hole 826 hits the jetting blade 828 according to the rotation of the water jetting member 80 and is scattered, and in the process of splashing, water of the second window 71 is scattered. Evenly sprayed on the inner side.
  • some of the water droplets scattered by the jetting blade 828 may be directed to the lower surface of the second humidifying member 50, and the second humidifying member 50 is wetted to wet the second humidifying member 50. 50) further humidification is possible.
  • water droplets formed on the second window 71 by the water jetting member 80 are along the inner surface of the second window 71 due to airflow and sound pressure generated by the rotation of the jetting blade 828. Will flow down.
  • Water flowing along the first humidifying member 60 may be recovered to the water storage part 721 along the wall surface of the water tank 72 through the supporting frame 64 at the lower end of the first humidifying member 60. It becomes possible. Therefore, the water sprayed from the first upper hole 826 as a whole passes through the second window 71 and the first humidifying member 60 in sequence and along the wall surface of the water tank 72 inside the water tank 72. Can be recovered.
  • FIG 40 is a view illustrating a state in which water is injected from the second upper hole of the water injection member.
  • the water raised to the inner surface of the upper case 82 by the rotation of the water injection member 80 may be injected to the outside through the second upper hole 827.
  • Water sprayed through the second upper hole 827 hits the cover extension part 831 around the case cover 83 as soon as it passes the second upper hole 827, and the water droplets splash in a finely broken state. Can be.
  • some of the water droplets may hit the jetting blade 828 again, and the water droplets scattered again by the jetting blade 828 may face the inner surface of the second window 71.
  • water flowing down to the lower end of the second window 71 flows down to the inside of the first humidifying member 60 along the round part 611a formed at the upper end of the first humidifying member 60. . Then, it flows down along the inner divider 613 through the opening between the round ribs 611c.
  • Water flowing down along the first humidifying member 60 is recovered into the water tank 72 along the wall surface of the water tank 72 through the supporting frame 64 at the lower end of the first humidifying member 60. Can be. Therefore, the water sprayed from the second upper hole 827 as a whole passes through the second window 71 and the first humidifying member 60 in sequence and along the wall surface of the water tank 72 inside the water tank 72. Can be recovered.
  • 41 is a view showing the water flow state of the entire inside of the water reservoir by the water injection member.
  • Centrifugal force is generated inside the water jetting member 80 by the rotation of the water jetting member 80, and water introduced into the water jetting member 80 is along the inner wall surface of the row case 81. Will rise. At this time, the water raised along the lower rib 812 is injected to the outside through the row hole 814. The water sprayed through the row hole 814 is directly sprayed to the lower end of the first humidifying member 60, the water sprayed on the first humidifying member 60 timely wets the first humidifying member 60. To be humidified. The water flowing along the first humidifying member 60 may flow along the supporting frame 64 and then flow down along the wall surface of the water tank 72 to be recovered to the water tank 72. have.
  • a part of the water introduced into the water injection member 80 by the rotation of the water injection member 80 may be raised to the upper portion of the upper case 82 through the low case 81.
  • Water raised to the upper portion of the upper case 82 may be sprayed to the outside by the first upper hole 826 and the second upper hole 827.
  • Water sprayed by the first upper hole 826 and the second upper hole 827 is scattered by the spraying blade 828 and the cover extension 831 and is formed on the entire surface of the second window 71. It can be sprayed evenly. In addition, some of the water sprayed by the first upper hole 826 and the second upper hole 827 may be scattered to wet the lower surface of the second humidifying member 50.
  • water sprayed on the second window 71 forms water droplets on the second window 71, and when rain is formed and flows down when the second window 71 is viewed from the outside, the rain falls. You can produce an image.
  • Water drops formed on the second window 71 flow downward along the second window 71, and water flowing downward flows through the first humidifying member 60 to the water tank 72. Can be.
  • the water spray member 80 When the water spray member 80 is continuously rotated, the water of the water tank 72 is discharged by the water spray member 80, the second window 71, the first humidifying member 60 and the first 2 is continuously spraying the water to the humidifying member 50, the sprayed water flows down and is recovered to the water tank 72 can be circulated again.
  • the water of the second window 71 and the first humidifying member 60 may be uniformly supplied by the water droplets scattered, and the dispersed fine water droplets may be disposed inside the second window 71. Filling an area may have the same effect as washing the air passing through the inside of the second window 71.
  • FIG. 42 is a cutaway perspective view illustrating a mounting state of the humidifying assembly.
  • 43 is a cutaway perspective view illustrating a detached state of the humidification assembly.
  • Figure 44 is a partial cutaway perspective view showing a connection state of the injection motor and the power connection unit according to an embodiment of the present invention.
  • the drive shaft 89 connected to the water injection member 80 is connected to the injection motor 24 so as to rotate.
  • the water injection member 80 is provided on the inside of the humidifying assembly 3
  • the injection motor 24 is provided in the upper body assembly 20
  • the humidifying assembly 3 has a structure that is removable Have Accordingly, the drive shaft 89 may also be configured to selectively enable power connection with the injection motor 24 in accordance with the detachment of the humidification assembly 3.
  • the injection motor 24 is capable of transmitting rotational power to the drive shaft 89 while the humidifying assembly 3 is mounted inside the upper body assembly 20.
  • the injection motor 24 and the driving shaft 89 are mutually different. It is separated, and it becomes a state which cannot transmit rotational power.
  • the injection motor 24 may be mounted on the lower surface of the inner frame 22 in which the humidifying assembly 3 is accommodated. Therefore, even if water overflows or flows into the inner frame 22, the injection motor 24 may prevent damage due to infiltration of water at its source.
  • the rotating shaft 241 of the injection motor 24 protrudes through the inner frame 22, and the shaft connecting member 242 is fastened to the protruding end.
  • the shaft connecting member 242 is configured to be coupled to each other and the shaft receiving member 84 provided in the humidifying assembly 3 when the humidifying assembly 3 is mounted.
  • the shaft receiving portion 724 is formed on the inner surface of the water tank 72, and the drive shaft 89 is mounted inside the shaft receiving portion 724.
  • the drive shaft 89 may extend upward through the center hole 522 of the shaft receiving portion 724 and may be fastened to the cover boss 833 through the boss 825b.
  • a screw portion 833 which is fastened to the cover boss 833 may be further formed at an upper end of the drive shaft 89.
  • an inner side surface of the boss portion 825b may be formed with a stepped or tapered shaft restraint portion 825d, and a portion of the outer side surface of the drive shaft 89 may correspond to the shaft restraint portion 825d.
  • the shaft guide 85 may be inserted into the shaft accommodating part 724.
  • the shaft guide 85 penetrates the center by the drive shaft 89 and is configured to be inserted into the shaft receiving portion 724.
  • the shaft guide 85 may be formed to contact the inner surface of the shaft receiving portion 724 in a state of being inserted into the shaft receiving portion 724.
  • a lower end of the shaft guide 85 may be formed with a guide base 110 extending outward and supported by the bottom surface of the water storage part 721.
  • the guide base 110 may be fixed between the bottom cover 74 and the bottom surface of the water storage part 721, and the center portion of the guide base 110, that is, the opened lower surface of the shaft guide 85 may be Exposed through the center of the bottom cover 74 may be formed so that the shaft connecting member 242 can be inserted.
  • the shaft guide 85 may be hollow to accommodate a plurality of bearings 861 and 862 for supporting the driving shaft 89. Therefore, the drive shaft 89 is continuously maintained in the state in which the shaft guide 85 is fixedly mounted inside the shaft receiving portion 724.
  • An upper sealing member 871 may be provided between the upper end of the shaft guide 85 and the inner upper end of the shaft accommodating part 724 to seal between the driving shaft 89 and the shaft accommodating part 724. have.
  • the upper sealing member 871 may be further provided in a space between the guide cap 852 mounted on the shaft guide 85 and the inner upper end of the shaft receiving portion 724.
  • an upper bearing 861 may be provided at an inner upper portion of the shaft guide 85.
  • the upper bearing 861 rotatably supports the drive shaft 89 to prevent the drive shaft 89 from being eccentric and to rotate more smoothly.
  • a spring 88 may be mounted at a lower end of the shaft receiving member 84 and an upper portion of the upper bearing 861, and the upper sealing member 871 may be mounted on the shaft receiving portion by an elastic force of the spring 88. Closer to the inner side of 724, the upper bearing 861 also remains fixed to the drive shaft 89.
  • Steps 831 and 832 are further formed on the driving shaft 89 in the shaft guide 85, and the upper and lower bearings 861 and 862 are formed by the stepped portions 831 and 832. Can be supported.
  • the upper bearing 861 and the lower bearing 862 may support the drive shaft 89 from above and below, so that the drive shaft 89 is rotatable in a stable state.
  • the lower bearing 862 may be seated on an upper surface of the bearing seating portion 851 protruding from the lower side of the inner surface of the shaft guide 85.
  • a lower sealing member 872 may be mounted on the lower surface of the bearing seating portion 851. The lower sealing member 872 may seal between the inside of the shaft guide 85 and the outside of the drive shaft 89.
  • the lower end of the drive shaft 89 extends through the lower bearing 862 and the lower sealing member 872, and the shaft receiving member 84 is mounted at the lower end of the driving shaft 89.
  • a lower end of the drive shaft 89 may be further formed with a threaded portion 834, and the shaft receiving member 84 may be coupled to the threaded portion 834.
  • the shaft receiving member 84 has an upper portion coupled with the screw portion 834, and the lower portion forms a space into which the shaft connecting member 242 is inserted. To this end, the shaft receiving member 84 is formed in a shape in which the diameter becomes wider toward the bottom, the central portion may be recessed upward. In this case, the inner space of the shaft receiving member 84 may have a shape corresponding to the outer surface of the shaft connecting member 242.
  • the shaft receiving member 84 may be formed such that the circumferential surface is inclined like the shaft connecting member 242.
  • a plurality of receiving member protrusions 822 may be formed on a circumferential surface of the shaft receiving member 84, and the receiving member protrusions 822 extend from an upper end to a lower end of the shaft receiving member 84 in a vertical direction. Can be extended.
  • the shaft connecting member 242 may be inserted into the shaft receiving member 84, and the shaft connecting member 242 may be disposed on the shaft due to the inclined peripheral surface.
  • the shaft connecting member 242 and the shaft receiving member 84 may naturally be aligned when inserted into the receiving member 84.
  • connection member protrusion 822 and the receiving member protrusion 822 extend in the detachable direction of the humidifying assembly 3, so that the connecting member protrusion 822 and the receiving member when the humidifying assembly 3 is mounted.
  • the protrusions 822 may be coupled to engage with each other, and thus, the driving shaft 89 may also rotate together when driving the rotation shaft 241 of the injection motor 24.
  • 45 is a partially cutaway perspective view illustrating a mounting state of the top cover and the second humidifying member.
  • the top cover connection portion is connected to the connection portion receiving portion 712 corresponding to the position of the top cover connection portion 43. Allow 43 to be seated.
  • the power supply terminal 271 of the top power connection part 27 is inserted into the terminal hole 441 so that power can be supplied to the top cover connection part 43.
  • Electrical components, including touch sensor 461 of 40, can be activated.
  • the body communication module 272 and the cover communication module 442 are in a state in which communication is possible, and an operation signal of the operation unit 422a is transmitted to the body ( 2), the operation corresponding to the operation can be performed.
  • the second humidifying member 50 is seated on the upper body assembly 20 together with the top cover 40.
  • the second humidifying member 50 recognizes the magnet 528 of the second humidifying member 50 by the humidifying member detecting device 45 of the top cover 40 when the second humidifying member 50 is mounted in the correct position. It is possible to determine whether the second humidifying member 50 is mounted.
  • 46 is a view showing the operating state of the UV lamp according to an embodiment of the present invention.
  • the yuv module 25 is operated to sterilize the water stored in the water tank 72.
  • the UV module 25 is provided below the UV window 253 that shields the opening formed in the bottom surface of the inner frame 22.
  • the UV module 25 is provided above the UV PCB 251 having the LEDs 251a mounted thereon to emit ultraviolet rays and the UV PCB 251, and the ultraviolet rays irradiated from the LEDs 251a are irradiated. It includes a reflecting plate 252 that is reflected to pass through the UV window 253. The reflection plate 252 fixes the UV window 253.
  • the tank transmission window 725 may be formed above the UV window 253.
  • the tank transmission window 725 is constrained downward by the bottom cover 74 to shield the opening of the water tank 72.
  • the tank transmission window 725 and the UV window 253 may be aligned when the humidification assembly 3 is mounted, so that the ultraviolet rays irradiated from the UV module 25 are transmitted through the UV window 253 and the tank transmission.
  • the window 725 in turn and irradiated into the water tank 72, the water stored in the water tank 72 can be sterilized.
  • FIG. 47 is a view showing an operating state of the water level detecting apparatus according to an embodiment of the present invention.
  • the water stored in the water tank 72 is sprayed to the first humidifying member 60 and the second humidifying member 50 and then recovered to the water tank 72 to be circulated again. Can be.
  • the water level of the water tank 72 is changed over time due to the characteristic of the structure of humidifying and discharging the air introduced during the long-term operation of the humidified air cleaner (1).
  • the water level sensor 233 detects the level and displays it on the display 273.
  • the water level sensor 233 is provided on the sensor mounting portion 232 provided on one side of the inner frame 22, a pair may be disposed at points corresponding to the full water level and the low water level, respectively.
  • a plotter accommodating part 720 is formed inside the water tank 72, and a plotter 720a is disposed to move up and down inside the plotter accommodating part 720.
  • the plotter accommodating part 720 communicates with the water tank 72, so that the plotter 720a moves up and down according to the water level of the water tank 72.
  • the plotter 720a may be formed of a material that can float on water, and a magnet 720b may be embedded therein. Therefore, the position of the plotter 720a is changed according to the water level of the water tank 72, and the high water level and the low water level can be detected by the water level sensor 233 which detects a magnet inside the plotter 720a. .
  • the detected water level may be displayed by the display assembly 26, and thus, the display assembly 26 may display a water shortage situation or a high water level during water supply.
  • FIG. 48 is a block diagram showing a flow of a control signal of the humidified air cleaner.
  • Figure 49 is a view showing a state before separation of the humidifying assembly.
  • Figure 50 is a view showing a separated state of the humidifying assembly.
  • the humidifying air purifier 1 according to an embodiment of the present invention to suck the air for purification and humidification from the suction port 101 formed between the bottom of the body 2 and the base 110 do. Air sucked by the fan motor 160 is introduced into the lower body assembly 10 and is purified while passing through the filter assembly 30 in the inflow process.
  • the purified air flows through the lower body assembly 10 to the upper body assembly 20, and flows upward along the inner side of the body 2 mounted to the upper body assembly 20, and the upper body assembly ( It is supplied to the inside of the humidification assembly 3 mounted to 20).
  • the water jetting member 80 rotates to spray water inside the water tank 72 toward the second window 71, and at the same time the first humidifying member 60 Water may be supplied to the second humidifying member 50.
  • Water supplied to the humidifying assembly 3 is humidified while passing through the first humidifying member 60 and the second humidifying member 50.
  • the water supplied to the humidifying assembly 3 may be washed by the water sprayed while passing through the inner region of the second window 71.
  • the humidified and washed air may be discharged to the outside through the discharge port 402 of the top cover 40.
  • the first window 202 and the second window 71 may be visualized by rain through the water sprayed by the water spray member 80.
  • the humidification air cleaner 1 includes a humidity sensor 177, a dust sensor 175, and a gas sensor 176, and the fan motor 160 is sprayed by the control unit 172 according to a state of inhaled air.
  • the motor 24 is controlled to discharge in an optimal state.
  • the state of air and the operation state of the humidifying air cleaner 1 during operation may be displayed through the display 273, and the user operates the operation unit 422a to appropriately operate the humidifying air cleaner 1. Can be operated in a state.
  • the humidification air purifier 1 may be provided with a Wi-Fi module 178, so that a remote user can check the indoor air condition and the operating state of the humidification air purifier 1, and the humidification air purifier. (1) can be operated in the desired state.
  • the humidifying air purifier 1 can separate the humidifying assembly (3) from the body (2) in a situation in which water or washing or service is required.
  • the humidifying assembly 3 can be easily separated from the body 2 by a simple operation of lifting the basket-shaped water reservoir 70 using the carrying handle 731.
  • the humidifying assembly 3 may be simply mounted on the opened upper surface of the body 2 using the carrying handle 731.
  • the top cover connecting portion 43 may be seated on the power connecting portion 27, and may be connected to each other so that power can be supplied.
  • the humidified air cleaner 1 is operable in the state where the humidification assembly 3 is mounted.
  • 51 is a view showing the air flow state of the humidifier air cleaner.
  • the fan motor 160 is driven by the user's operation and the fan 140 is rotated.
  • Air is sucked in from the suction port 101 by the rotation of the fan 140, and the air is purified while passing through the filter assembly 30. Inhaled air may be purified in turn while passing through the air filter 32 and the deodorization filter 33.
  • the air sucked through the fan 140 is discharged in the circumferential direction by the blade 147, and in this case, the air may be discharged in the lateral direction, that is, the circumferential direction due to the characteristics of the fan 140.
  • the discharged air allows the upward flow to be made more efficiently by the fixed blade 156 provided in the upper frame 150.
  • the fixed blade 156 is provided to improve the air flow in the lower upward direction due to the characteristics of the centrifugal fan 140 discharged laterally, and the air flows more smoothly through the fixed blade 156. Be sure to
  • the air flowing upward flows into the space between the inner frame 22 and the out frame 23, and air is introduced through the inlet 225 formed inside the inner frame 22 to allow the humidification assembly 3 to flow. ) May flow into the inside.
  • the first humidifying member 60 at a position corresponding to the inlet 225 passes through, and the air introduced into the humidifying assembly 3 is
  • the second humidifying member 50 may be discharged to the discharge hole 402 while being additionally humidified.
  • the humidified air cleaner 1 purifies the air sucked through the filter assembly 30 and then passes through the humidification assembly 3 provided above to discharge the purified and humidified air upward. Be sure to
  • FIG. 52 is a view showing a water supply state of the humidified air cleaner.
  • the humidifying air cleaner 1 is capable of supplying water for humidification even when the humidifying assembly 3 is mounted to the body 2.
  • the user may additionally supply water.
  • the water injection member 80 may be continuously rotated, and the user may supply water through the water supply port 401 of the top cover 40 in such a state.
  • a constraining rib 523 is formed at an outer circumference away from the water supply guide member 54 so that water does not overflow and fills the circumferential space of the water supply guide member 54.
  • the water supplied through the water supply slit 526 of the guide seating portion 524 falls into the water reservoir 70. At this time, the water supply slit 526 is formed so that the flow rate of the falling water is kept constant.
  • Water falling through the water supply slit 526 hits the circumference of the water jetting member 80, and water hitting the case cover 83 by the water jetting member 80 rotated is the second window. 71 may be scattered toward the second humidifying member 50. Of course, some of the water may not hit the water injection member 80 or in this case may be supplied directly into the water tank 72.
  • Water supplied to the second window 71 flows down along the second window 71, and may be supplied to the water tank 72 after passing through the first humidifying member 60.
  • the plotter 720a rises.
  • the water level sensor 233 detects the full water level and displays the display 273. Will print this out.
  • FIG. 53 is a view showing a humidified state of the humidified air cleaner.
  • 54 is an enlarged view of a portion B in FIG. 53.
  • Figure 55 is a view showing a state visualized through the out window during the operation of the humidifier air cleaner.
  • the fan motor 160 and the injection motor 24 may be rotated at the same time.
  • the air sucked by the rotation of the fan motor 160 is purified while passing through the filter assembly 30 and then discharged upward through the humidification assembly 3.
  • the water injection member 80 is rotated by the rotation of the injection motor 24 to lift and spray the water of the water tank 72, and the injected water is circulated while being recovered to the water tank 72 again. .
  • the water stored in the water tank 72 during the rotation of the water jet member 80 is moved upward along the inner surface of the water jet member 80 by the centrifugal force.
  • the water moved upward may be sprayed through the lower hole 814 of the lower case 81, the first upper hole 826 of the upper case 82, and the second upper hole 827. .
  • Water sprayed from the lower hole 814 is sprayed to the lower end of the first humidifying member 60 to wet the first humidifying member 60.
  • the water sprayed from the first upper hole 826 and the second upper hole 827 is scattered by the spray blade 828 and the case cover 83 while being sprayed to the side, so that the second window ( 71) and the second humidifying member 50 may be injected.
  • Water sprayed into the second window 71 forms water droplets on the inner surface of the second window 71 or flows down along the second window 71, and the transparent second window 71
  • One window 202 can provide an image such as rain when viewed from the outside.
  • water flowing along the second window 71 flows down the inner wall of the water tank 72 after passing through the first humidifying member 60, and is recovered and stored in the water tank 72. Can be.
  • the first humidifying member 60 and the second humidifying member 50 may be always kept wet by the continuous rotation of the water jet member 80, and the second window 71 may be in FIG. 55.
  • rain may provide an image such as water droplets on a window.
  • the fan motor 160 may also be rotated when the water injection member 80 is rotated.
  • the user does not want to humidify and only want to purify the air may be rotated only the fan motor 160, if only the visual effect such as rain without air purification only the injection motor 24 is to be rotated It may be.
  • 53 and 54 illustrate a state in which the injection motor 24 and the fan motor 160 are rotated together, and the outside air sucked by the rotation of the fan motor 160 is used to remove the first humidifying member 60. It passes through and flows into the humidification assembly 3.
  • the air passing through the first humidifying member 60 flows upward from the inside of the water reservoir 70. At this time, the flow of air is passed between the second window 71 and the water injection member 80, it can be washed while passing through the water splashed inside the weather reservoir 70. That is, the air flowing upward as shown in FIG. 54 may be washed while passing through the droplets scattered. Thus, it becomes possible to provide a feeling of fresh air when it rains.
  • the air flowing upward may be further humidified while passing through the second window 71, and may be discharged to the outside in a humidified and purified state through the discharge port 402.
  • an operation state and an air state may be displayed through the display 273, and a user may operate the operation unit 422a with reference thereto to enable proper operation. do.

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Air Humidification (AREA)

Abstract

Un purificateur d'air à humidification d'après un mode de réalisation de la présente invention comprend : un corps pourvu d'une entrée ; un ensemble filtre à l'intérieur du corps ; un ventilateur qui est situé sur la surface supérieure de l'ensemble filtre et qui fait circuler l'air ; et un ensemble d'humidification fixé et détaché par rapport au corps par l'intermédiaire de la partie supérieure ouverte du corps et ayant une sortie à travers laquelle l'air humide est distribué, l'ensemble d'humidification monté sur le corps conférant à ce dernier l'apparence externe de sa partie supérieure.
PCT/KR2016/012313 2015-10-30 2016-10-28 Purificateur d'air à humidification Ceased WO2017074128A1 (fr)

Applications Claiming Priority (8)

Application Number Priority Date Filing Date Title
US201562248463P 2015-10-30 2015-10-30
US62/248,463 2015-10-30
KR20150156254 2015-11-07
KR10-2015-0156254 2015-11-07
KR1020160037235A KR20170051142A (ko) 2015-10-30 2016-03-28 가습청정장치
KR10-2016-0037235 2016-03-28
KR10-2016-0137458 2016-10-21
KR1020160137458A KR102770955B1 (ko) 2015-10-30 2016-10-21 가습공기청정기

Publications (1)

Publication Number Publication Date
WO2017074128A1 true WO2017074128A1 (fr) 2017-05-04

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PCT/KR2016/012313 Ceased WO2017074128A1 (fr) 2015-10-30 2016-10-28 Purificateur d'air à humidification

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Country Link
WO (1) WO2017074128A1 (fr)

Cited By (19)

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Publication number Priority date Publication date Assignee Title
CN107270503A (zh) * 2017-07-25 2017-10-20 珠海格力电器股份有限公司 连接组件及加湿器
CN108195012A (zh) * 2018-02-24 2018-06-22 深圳市康弘环保技术有限公司 可拆卸式加湿空气净化器
CN109673148A (zh) * 2016-08-19 2019-04-23 三星电子株式会社 空气净化器
CN110425676A (zh) * 2019-07-16 2019-11-08 佛山市顺德区德尔玛电器有限公司 一种折叠加湿器
KR102076058B1 (ko) * 2018-11-12 2020-02-11 (주)퓨전디자인 가습 및 공기 정화기능을 갖는 복합형 공조기기
CN111089378A (zh) * 2020-02-20 2020-05-01 成都中邦智能科技有限责任公司 静音式空气净化与蒸发加湿一体机
CN111720912A (zh) * 2019-03-19 2020-09-29 Lg电子株式会社 空气净化器
CN111947245A (zh) * 2020-04-28 2020-11-17 广州市新颐科技有限公司 一种空气加湿组件和空气净化加湿一体机
CN114811806A (zh) * 2022-02-28 2022-07-29 青岛海尔空调器有限总公司 加湿净化器
US11402109B2 (en) 2019-03-19 2022-08-02 Lg Electronics Inc. Air purifier
CN114838441A (zh) * 2022-06-07 2022-08-02 华北电力大学(保定) 一种基于人工智能控制的物联网空气净化器
CN115218277A (zh) * 2021-04-16 2022-10-21 宁波奥克斯电气股份有限公司 一种扫风机构以及空调器
US11674714B2 (en) 2019-03-19 2023-06-13 Lg Electronics Inc. Air purifier
EP4306865A1 (fr) * 2022-07-14 2024-01-17 LG Electronics Inc. Épurateur d'air
EP4306864A1 (fr) * 2022-07-14 2024-01-17 LG Electronics Inc. Purificateur d'air
EP4306859A1 (fr) * 2022-07-14 2024-01-17 LG Electronics Inc. Épurateur d'air
EP4306856A1 (fr) * 2022-07-14 2024-01-17 LG Electronics Inc. Épurateur d'air
EP4306863A1 (fr) * 2022-07-14 2024-01-17 LG Electronics Inc. Épurateur d'air
US12044429B2 (en) 2022-07-14 2024-07-23 Lg Electronics Inc. Air purifier

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JP2015075285A (ja) * 2013-10-09 2015-04-20 バルミューダ株式会社 気化式加湿器

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JPH1124759A (ja) * 1997-06-30 1999-01-29 Aiwa Co Ltd 異常検出装置、空気清浄装置、マイナスイオン発生装置及び加湿器
KR20060055006A (ko) * 2004-11-17 2006-05-23 주식회사 대우일렉트로닉스 습식 공기청정기의 수조
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Publication number Priority date Publication date Assignee Title
CN109673148A (zh) * 2016-08-19 2019-04-23 三星电子株式会社 空气净化器
CN109673148B (zh) * 2016-08-19 2022-02-18 三星电子株式会社 空气净化器
CN107270503A (zh) * 2017-07-25 2017-10-20 珠海格力电器股份有限公司 连接组件及加湿器
CN107270503B (zh) * 2017-07-25 2024-01-12 珠海格力电器股份有限公司 连接组件及加湿器
CN108195012A (zh) * 2018-02-24 2018-06-22 深圳市康弘环保技术有限公司 可拆卸式加湿空气净化器
KR102076058B1 (ko) * 2018-11-12 2020-02-11 (주)퓨전디자인 가습 및 공기 정화기능을 갖는 복합형 공조기기
CN111720912A (zh) * 2019-03-19 2020-09-29 Lg电子株式会社 空气净化器
CN111720912B (zh) * 2019-03-19 2022-04-19 Lg电子株式会社 空气净化器
US11402109B2 (en) 2019-03-19 2022-08-02 Lg Electronics Inc. Air purifier
US11471810B2 (en) 2019-03-19 2022-10-18 Lg Electronics Inc. Air purifier
US11674714B2 (en) 2019-03-19 2023-06-13 Lg Electronics Inc. Air purifier
CN110425676A (zh) * 2019-07-16 2019-11-08 佛山市顺德区德尔玛电器有限公司 一种折叠加湿器
CN111089378A (zh) * 2020-02-20 2020-05-01 成都中邦智能科技有限责任公司 静音式空气净化与蒸发加湿一体机
CN111947245A (zh) * 2020-04-28 2020-11-17 广州市新颐科技有限公司 一种空气加湿组件和空气净化加湿一体机
CN115218277A (zh) * 2021-04-16 2022-10-21 宁波奥克斯电气股份有限公司 一种扫风机构以及空调器
CN114811806A (zh) * 2022-02-28 2022-07-29 青岛海尔空调器有限总公司 加湿净化器
CN114811806B (zh) * 2022-02-28 2023-10-20 青岛海尔空调器有限总公司 加湿净化器
CN114838441A (zh) * 2022-06-07 2022-08-02 华北电力大学(保定) 一种基于人工智能控制的物联网空气净化器
EP4306865A1 (fr) * 2022-07-14 2024-01-17 LG Electronics Inc. Épurateur d'air
EP4306864A1 (fr) * 2022-07-14 2024-01-17 LG Electronics Inc. Purificateur d'air
EP4306859A1 (fr) * 2022-07-14 2024-01-17 LG Electronics Inc. Épurateur d'air
EP4306856A1 (fr) * 2022-07-14 2024-01-17 LG Electronics Inc. Épurateur d'air
EP4306863A1 (fr) * 2022-07-14 2024-01-17 LG Electronics Inc. Épurateur d'air
US12044429B2 (en) 2022-07-14 2024-07-23 Lg Electronics Inc. Air purifier

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