WO2019177414A1 - Unité intérieure pour climatiseur - Google Patents

Unité intérieure pour climatiseur Download PDF

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Publication number
WO2019177414A1
WO2019177414A1 PCT/KR2019/003022 KR2019003022W WO2019177414A1 WO 2019177414 A1 WO2019177414 A1 WO 2019177414A1 KR 2019003022 W KR2019003022 W KR 2019003022W WO 2019177414 A1 WO2019177414 A1 WO 2019177414A1
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WO
WIPO (PCT)
Prior art keywords
disposed
assembly
steam
air
diffuser
Prior art date
Application number
PCT/KR2019/003022
Other languages
English (en)
Korean (ko)
Inventor
배준석
이정우
김강영
이은순
장환학
천인범
Original Assignee
엘지전자 주식회사
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 KR1020180030777A external-priority patent/KR102053125B1/ko
Priority claimed from KR1020190017448A external-priority patent/KR102643576B1/ko
Application filed by 엘지전자 주식회사 filed Critical 엘지전자 주식회사
Publication of WO2019177414A1 publication Critical patent/WO2019177414A1/fr

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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
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0087Indoor units, e.g. fan coil units with humidification means
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0059Indoor units, e.g. fan coil units characterised by heat exchangers
    • F24F1/0063Indoor units, e.g. fan coil units characterised by heat exchangers by the mounting or arrangement of the heat exchangers
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station
    • F24F1/0007Indoor units, e.g. fan coil units
    • F24F1/0071Indoor units, e.g. fan coil units with means for purifying supplied air
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • 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
    • F24F13/08Air-flow control members, e.g. louvres, grilles, flaps or guide plates
    • 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
    • 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
    • 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
    • F24F6/00Air-humidification, e.g. cooling by humidification
    • F24F6/12Air-humidification, e.g. cooling by humidification by forming water dispersions in the air

Definitions

  • the present invention relates to an indoor unit of an air conditioner, and more particularly, to an indoor unit of an air conditioner capable of providing humidified air indoors.
  • the separate air conditioner may include an indoor unit disposed indoors, an outdoor unit disposed outdoors, and cool, heat, or dehumidify the indoor air through a refrigerant circulating in the indoor unit and the outdoor unit.
  • the indoor unit of the separate air conditioner includes a stand type indoor unit installed upright on the indoor floor according to the installation form, a wall-mounted indoor unit installed on the indoor wall, and a ceiling type indoor unit installed on the indoor ceiling.
  • Conventional stand type indoor unit can dehumidify indoor air when cooling, but it cannot humidify indoor air when heating.
  • Korean Patent Publication No. 10-2013-0109738 (referred to as Prior Art 1) is known a stand type indoor unit equipped with a humidification device capable of providing humidification.
  • Stand-type indoor unit of the prior art 1 is provided with a humidifier inside the body to form the appearance of the indoor unit.
  • the humidifying device of the prior art 1 is a structure for storing the water of the drain pan in the water tank, wet the absorbing member through the stored water, and naturally evaporates the water absorbed by the absorbing member.
  • the humidifier of prior art 1 does not use clean water, but uses condensate flowing from a heat exchanger.
  • Water stored in the water tank may contain a large amount of foreign matter separated from the surface of the heat exchanger, there was a problem that the probability of the growth of mold or bacteria in the foreign matter very high.
  • the humidifier device of the prior art 1 evaporates water inside the main body, the evaporated water may be attached to a part or an inner wall of the main body, and there is a problem of causing mold or bacteria to propagate inside the main body.
  • the humidifier of the prior art 1 provides humidification by using condensed water of an indoor heat exchanger, it can provide humidification only when cooling, and there is a problem in that humidification cannot be provided because condensed water is not generated during heating.
  • An object of the present invention is to provide an indoor unit of an air conditioner that can generate steam by using filtered air, and can provide humidified air with the generated steam.
  • An object of the present invention is to provide an indoor unit of an air conditioner that can generate steam by using filtered air, and can provide humidified air with the generated steam.
  • An object of the present invention is to provide an indoor unit of an air conditioner that can flow in an independent flow path structure before the humidified air generated in the steam generator is discharged to the room.
  • An object of the present invention is to provide an indoor unit of an air conditioner capable of injecting the humidifying air generated by the steam generator into a plurality of independent flow paths, and then injecting each side discharge port of the cabinet assembly.
  • An object of the present invention is to provide an indoor unit of an air conditioner that can minimize the occurrence of dew condensation on the cabinet assembly surface due to the humidified air generated in the steam generator.
  • a humidifying module assembly for generating steam, mixing the generated steam with filtered air to generate humidifying air, and spraying the generated humidifying air through a separate flow path from a discharge port to provide humidifying air in the room is arranged. Therefore, it can be operated in at least one mode of cooling, heating, air cleaning or humidification.
  • the steam generator converts the stored water into steam to generate humidified air
  • a humidifying fan supplies the filtered air passed through the filter assembly to the steam generator, and the steam guide discharges the humidified air discharged from the steam generator. Since it guides to the discharge port through, the generated humidifying air can be discharged directly into the room.
  • the humidification air Since the generated humidifying air flows through the steam guide to the discharge port in an independent flow path and then is discharged from the discharge port, the humidification air is prevented from spreading inside the cabinet assembly, and condensed water is prevented from forming in the cabinet assembly due to the humidifying air. can do.
  • the steam generator may be provided with the pressure provided by the humidification fan. Steam and humidifying air can be flowed into the steam guide.
  • the humidifying air of the steam generator is flowed through the air flow of the humidifying fan, the humidifying air can be flowed up to the discharge port even when an independent flow path of the steam guide is formed.
  • the humidifying fan is disposed above the steam generator and the supply suction port is disposed above the steam generator, the length of the flow path through which the filtered air is supplied can be minimized.
  • the steam guide is disposed above the steam generator and the steam discharge unit is disposed above the steam generator, heated steam and humidified air can be easily discharged to the steam discharge port by a difference in density of air. .
  • the steam discharge port Since the steam discharge port is disposed upward, even if condensed water is generated during the flow of humidified air, the steam discharge port may be recovered to the steam discharge port by the weight of the condensate.
  • the heat exchange assembly is disposed in front of the suction port, and the air suction port is disposed behind the steam discharge port, the length of the flow path from the suction port disposed at the rear side to the air suction port can be minimized.
  • the clean suction duct for providing the filtered air passing through the heat exchange assembly to the humidification fan is disposed, and the clean suction duct is coupled to the humidification fan, the filtered air is supplied through the clean suction duct during operation of the humidification fan. Inhalation can be effective.
  • the clean suction duct is located in front of the heat exchange assembly and is in close contact with the front surface of the heat exchange assembly, it is possible to forcibly suck the filtration air through the clean suction duct during the operation of the humidification fan.
  • the clean suction duct further includes a first clean duct opening surface through which the filtration air is sucked, and a second clean duct opening surface coupled to the humidification fan and providing the filtered air to the humidification fan, wherein the first clean duct opening surface is provided. Since the clean duct opening face is disposed toward the heat exchange assembly, the filtration air can be introduced efficiently. Since the first clean duct opening surface is in close contact with the heat exchange assembly, the filtration air can be introduced efficiently.
  • the steam guide includes a branch guide for guiding the humidifying air discharged from the steam generator to the discharge port and a diffuser disposed in the discharge port, and a diffuser for discharging the humidified air supplied through the branch guide to the discharge port, the branch guide Since is coupled to the steam discharge unit, the humidifying air discharged from the steam discharge unit may be flowed to the discharge port through an independent flow path such as a branch guide and a diffuser.
  • Humidified air discharged to the discharge port can be effectively diffused into the room by the discharge air. Since the humidified air is diffused into the room by the discharged air, the humidified air can be diffused more effectively by using the output of the large fan assembly even if the output of the humidified fan is small.
  • a part of the humidified air may be guided to the first side discharge port through the first branch guide and the first diffuser, and the other part of the humidified air may be guided to the second discharge port through the second branch guide and the second diffuser.
  • the diffuser is arranged to extend in the longitudinal direction of the side discharge port, it is possible to provide a humidified air in the whole in the side discharge port.
  • the humidification air is provided to the entire side discharge port, dew condensation of the humidifying air can be minimized, and the natural evaporation of steam can be effectively realized.
  • the diffuser outlet of the diffuser is disposed in the side discharge port, and the diffuser outlet is disposed in the front side in the side discharge port, the humidifying air is discharged in front of the discharge air discharged from the side discharge port, and the discharge air is discharged. Humidification air can be effectively diffused into the room by the flow.
  • the diffuser is formed in a wedge shape with a flat cross section, and the diffuser outlet is disposed at a pointed portion, thereby minimizing an area occupied by the diffuser outlet at a side discharge port.
  • the flat cross section of the diffuser is formed in a wedge shape, resistance to discharged air can be minimized.
  • the steam generator the steam housing; A steam heater disposed in the steam housing and generating heat by an applied power source; A water supply unit disposed in the steam housing and receiving water from the water tank; A steam discharging unit disposed in the steam housing and connected to the steam guide and supplying steam generated therein to the steam guide; And an air suction unit disposed in the steam housing, connected to the humidification fan, and receiving the filtered air from the humidification fan.
  • the humidification fan the humidification fan housing coupled to the steam generator, and suctions the filtered air, and guides the suctioned filtered air to the steam generator;
  • a humidification impeller disposed inside the humidification fan housing and configured to flow the filtration air of the humidification fan housing to the steam generator;
  • a humidification motor disposed in the humidification fan housing, assembled with the humidification impeller, and rotating the humidification impeller.
  • the indoor unit of the air conditioner according to the present invention has one or more of the following effects.
  • the present invention has the advantage that it can be used for four seasons by operating in at least one mode of cooling, heating, air cleaning or humidification.
  • the present invention minimizes the possibility of contaminating the generated humidified air by heating and sterilizing the stored water or supplied water, converting the sterilized water into steam, and providing the humidified air by mixing the sterilized steam and filtered air. And, there is an advantage to ensure the reliability of the humidified air.
  • the present invention has the advantage of minimizing the growth of bacteria or fungi because it supplies humidified air to sterilized steam and filtered air.
  • the present invention because the humidifying air flows through the independent flow path to the discharge port, and then discharged to the room, it is possible to prevent the dew condensation generated inside the cabinet assembly due to the humidified air.
  • the present invention has an advantage of generating clean humidified air because the humidifying fan sucks the filtration air passed through the filter assembly and supplies it into the steam generator.
  • the present invention because it is possible to prevent the growth of bacteria or mold inside the cabinet assembly due to the humidified air because the flow through the independent flow path structure including a branch guide and a diffuser to the discharge port. There is an advantage.
  • the present invention is because the air is discharged from the air discharged from each side discharge port, so that the diffusion of the humidified air without the dependence of the capacity of the humidification fan can utilize the output of the fan assembly having a larger capacity than the humidification fan There is this.
  • the present invention spreads the humidified air in the wind discharged from each side discharge port, it is possible to flow the humidified air far away from the cabinet assembly, thereby minimizing the occurrence of dew condensation on the cabinet assembly surface. There is an advantage.
  • the present invention has the advantage that can be recovered back into the steam generator through the diffuser, the steam guide, the main steam guide to guide the humidified air generated when the condensed water generated during the flow of the humidified air.
  • the present invention has the advantage that since the steam discharge port is disposed upward, even if condensed water is generated during the flow of humidified air can be recovered back to the steam discharge port by the weight of the condensate.
  • the present invention has the advantage of flowing the steam and humidified air in the steam generator to the steam guide through the pressure provided from the humidifying fan.
  • the present invention because the humidification air of the steam generator flows through the air flow of the humidification fan, even if the independent flow path of the steam guide has an advantage that can flow the humidification air to the discharge port.
  • the present invention has an advantage of minimizing the length of the flow path for receiving the filtration air because the humidification fan is disposed above the steam generator and the supply suction port is disposed above the steam generator.
  • the steam guide is disposed above the steam generator, and the steam discharge portion is disposed above the steam generator, the heated steam and the humidified air are discharged to the steam discharge port by the density difference of air.
  • the present invention is the clean suction duct is located in front of the heat exchange assembly, because it is in close contact with the front surface of the heat exchange assembly, the advantage of being forced to suction the filtration air through the clean suction duct during the operation of the humidification fan. There is this.
  • the present invention has an advantage that the diffuser is provided to extend in the longitudinal direction of the side discharge port, it is possible to provide a humidified air in the whole in the side discharge port.
  • the humidifying air is provided to the entire side discharge port, the dew condensation of the humidifying air can be minimized, and there is an advantage that the natural evaporation of steam can be effectively implemented.
  • the diffuser outlet of the diffuser is disposed in the side outlet, and the diffuser outlet is disposed in the front side in the side outlet, the humidifying air is discharged from the side outlet. Discharged, there is an advantage that the humidified air can be effectively diffused into the room by the flow of the discharged air.
  • the present invention has the advantage that the diffuser is formed in a wedge shape in a flat cross-section, the diffuser outlet is disposed on the pointed portion, it can minimize the area occupied by the diffuser outlet in the side outlet.
  • the present invention has the advantage that the flat cross section of the diffuser is formed in a wedge shape, thereby minimizing resistance to discharged air.
  • FIG. 1 is a perspective view of an indoor unit of an air conditioner according to an embodiment of the present invention.
  • FIG. 2 is a perspective view of the door assembly is removed in Figure 1;
  • FIG. 3 is an exploded perspective view of FIG. 1.
  • Figure 4 is a perspective view of the humidifying assembly and the water tank shown in Figure 3 assembled in the lower cabinet.
  • Figure 5 is a rear side perspective view of the humidifying assembly according to an embodiment of the present invention.
  • FIG. 6 is an exploded perspective view of the water tank and the water supply assembly according to an embodiment of the present invention.
  • FIG. 7 is an exploded perspective view seen from the bottom of FIG. 6.
  • FIG. 8 is a left cross-sectional view of FIG. 6.
  • FIG. 9 is a front sectional view of FIG. 6.
  • FIG. 10 is a perspective view of the water tank shown in FIG.
  • FIG. 11 is a cross-sectional view of the water tank and the water supply assembly according to an embodiment of the present invention.
  • FIG. 12 is an enlarged view of FIG. 11.
  • FIG. 13 is a front view showing the inside of the lower cabinet shown in FIG. 2.
  • FIG. 14 is a cross-sectional view showing the humidifying assembly and the water tank shown in FIG.
  • FIG. 15 is a perspective view of FIG. 14.
  • FIG. 16 is a partial cutaway cross-sectional view of the humidifying fan illustrated in FIG. 5.
  • 17 is a front view of the pair of diffusers shown in FIG. 5.
  • FIG. 18 is a rear view of the pair of diffusers shown in FIG. 5.
  • FIG. 19 is an exemplary view illustrating installation of the diffuser shown in FIG. 5.
  • FIG. 20 is an enlarged view of the diffuser of FIG. 17.
  • FIG. 21 is a top cross-sectional view of the diffuser outlet of the diffuser housing illustrated in FIG. 17.
  • FIG. 22 is a bottom cross-sectional view of the diffuser outlet of the diffuser housing illustrated in FIG. 17.
  • FIG. 1 is a perspective view of an indoor unit of an air conditioner according to an embodiment of the present invention.
  • 2 is a perspective view of the door assembly is removed in Figure 1;
  • 3 is an exploded perspective view of FIG. 1.
  • the air conditioner according to the present embodiment includes an outdoor unit (not shown) connected to the indoor unit and circulating a refrigerant through an indoor unit and a refrigerant pipe.
  • the outdoor unit includes a compressor (not shown) for compressing a refrigerant, an outdoor heat exchanger (not shown) for receiving and condensing refrigerant from the compressor, an outdoor fan (not shown) for supplying air to the outdoor heat exchanger, and the indoor unit. It includes an accumulator (not shown) for providing only the gas refrigerant to the compressor after receiving the refrigerant discharged from the.
  • the outdoor unit may further include a four-way valve (not shown) to operate the indoor unit in a cooling mode or a heating mode.
  • a four-way valve (not shown) to operate the indoor unit in a cooling mode or a heating mode.
  • the indoor unit 101 evaporates the refrigerant to cool the indoor air.
  • the indoor unit condenses refrigerant to heat the indoor air.
  • the indoor unit has a front opening and a cabinet assembly 100 having a suction port 101 formed at a rear surface thereof, assembled to the cabinet assembly 100, and covers the front surface of the cabinet assembly 100, and the cabinet assembly 100.
  • Door assembly 200 for opening and closing the front of the) and the fan assembly (300, 400) disposed in the interior space (S) of the cabinet assembly (100) for discharging the air of the interior space (S) to the room
  • a heat exchange assembly 500 disposed between the fan assemblies 300 and 400 and the cabinet assembly 100 to heat-exchange the sucked indoor air and the refrigerant, and disposed in the cabinet assembly 100.
  • the indoor unit includes a suction port 101 disposed on the rear surface of the cabinet assembly 100, side discharge ports 301 and 302 disposed on the side surface of the cabinet assembly 100, and the cabinet assembly 100. It includes a front discharge port 201 disposed in front of the.
  • the suction port 101 is disposed on the rear surface of the cabinet assembly 100.
  • the side discharge ports 301 and 302 are disposed on the left and right sides of the cabinet assembly 100, respectively.
  • the side discharge port disposed on the left side is defined as the first side discharge port 301
  • the side discharge outlet disposed on the right side is defined as the second side discharge port 302. .
  • the front discharge port 201 is disposed in the door assembly 200, and the door assembly 200 further includes a door cover assembly 1200 that automatically opens and closes the front discharge port 201.
  • the door cover assembly 1200 may be moved downward along the door assembly 200 after opening the front discharge port 201.
  • the door cover assembly 1200 is movable in the vertical direction with respect to the door assembly 200.
  • the far fan assembly 400 may be moved forward through the door assembly 200.
  • the fan assemblies 300 and 400 are configured of a near fan assembly 300 and a far fan assembly 400.
  • the heat exchange assembly 500 is disposed behind the near fan assembly 300 and the far fan assembly 400.
  • the heat exchange assembly 500 is disposed inside the cabinet assembly 100, and positioned inside the suction port 101, and the heat exchange assembly 500 covers the suction port 101 and is vertically disposed.
  • the short range fan assembly 300 and the far fan assembly 400 are disposed in front of the heat exchange assembly 500.
  • the air sucked into the intake port 101 passes through the heat exchange assembly 500, and then flows to the near fan assembly 300 and the far fan assembly 400.
  • the heat exchange assembly 500 is manufactured to have a length corresponding to the height of the near fan assembly 300 and the far fan assembly 400.
  • the short range fan assembly 300 and the far fan assembly 400 may be stacked in a vertical direction.
  • the far fan assembly 400 is disposed above the near fan assembly 300.
  • the remote fan assembly 400 may be positioned above to allow the discharged air to flow to a far place in the room.
  • the short range fan assembly 300 discharges air laterally with respect to the cabinet assembly 100.
  • the short range fan assembly 300 may provide indirect wind to the user.
  • the short range fan assembly 300 simultaneously discharges air to the left and right sides of the cabinet assembly 100.
  • the far fan assembly 400 is located above the near fan assembly 300 and is disposed above the inside of the cabinet assembly 100.
  • the remote fan assembly 400 discharges air in a forward direction with respect to the cabinet assembly 100.
  • the remote fan assembly 300 provides a direct wind to the user.
  • the remote fan assembly 300 improves circulation of indoor air by discharging air to a far place in the indoor space.
  • the remote fan assembly 400 is exposed to the user only during operation.
  • the far fan assembly 400 passes through the door assembly 200 and is exposed to the user.
  • the far fan assembly 400 is not operated, the far fan assembly 400 is hidden inside the cabinet assembly 100.
  • the remote fan assembly 400 may control the discharge direction of air.
  • the remote fan assembly 400 may discharge air in an upper side, a lower side, a left side, a right side, or a diagonal direction with respect to the front side of the cabinet assembly 100.
  • the door assembly 200 is located in front of the cabinet assembly 100, and is assembled with the wing cabinet assembly 100.
  • the door assembly 200 may be slidably moved in a horizontal direction with respect to the cabinet assembly 200, and may expose a part of the front surface of the cabinet assembly 200 to the outside.
  • the door assembly 200 may be moved in one of left and right directions to open the internal space S.
  • the door assembly 200 may be moved in one of left or right directions to open only a part of the internal space S.
  • opening and closing of the door assembly 200 is composed of two stages.
  • the first stage opening and closing of the door assembly 200 is partially opened, and is for supplying the water to the humidifying assembly 2000, and exposes only an area to which the water tank 2100 of the humidifying assembly 2000 is exposed.
  • the second stage opening and closing of the door assembly 200 is opened to the maximum, and is for installation and repair.
  • the door assembly 200 includes a door stopper structure for limiting the opening and closing of the second stage.
  • the filter assembly 600 is disposed on the rear surface of the cabinet assembly 100.
  • the filter assembly 600 may be rotated to the side of the cabinet assembly 100 in a state in which the filter assembly 600 is disposed on the rear surface of the cabinet assembly 100.
  • the user may separate only the filter from the filter assembly 600 moved to the side of the cabinet assembly 100.
  • the filter assembly 600 is composed of two parts, each of which may be rotated left or right.
  • the moving cleaner 700 is an apparatus for cleaning the filter assembly 600.
  • the moving cleaner 700 may clean the filter assembly 600 while moving in the vertical direction.
  • the moving cleaner 700 may inhale air while moving to separate foreign substances attached to the filter assembly 600, and the separated foreign substances are stored therein.
  • the moving cleaner 700 is installed in a structure that is not indirect during the rotation of the filter assembly 600.
  • the humidifying assembly 2000 may provide moisture to the internal space S of the cabinet assembly 100, and the provided moisture may be discharged into the room through the short-range fan assembly.
  • the humidifying assembly 2000 includes a detachable water tank 2100.
  • the humidifying assembly 2000 is disposed inside the cabinet assembly 100.
  • the space in which the humidifying assembly 2000 is disposed and the space in which the heat exchange assembly 500 is disposed are partitioned.
  • the humidifying assembly 2000 performs humidification using air and sterilized steam filtered through the filter assembly 600, thereby preventing harmful substances such as bacteria or mold from contacting the water tank.
  • the cabinet assembly 100 is disposed on the base 130 seated on the ground, the base 130 is disposed above, the front surface 121, the upper surface 125 and the lower surface 126 is opened, the left surface ( 123) a lower cabinet 120 with the right side 124 and the rear side 122 closed, and a rear side 116, a front side 111, and a lower side disposed above the lower cabinet 120 and having an inlet 101 formed thereon; 116 includes an upper cabinet 110 with the left side 113, the right side 114 and the top side 115 closed.
  • An interior of the upper cabinet 110 is defined as a first internal space S1
  • an interior of the lower cabinet 120 is defined as a second internal space S2.
  • the first inner space S1 and the second inner space S2 constitute an inner space S of the cabinet assembly 100.
  • the near fan assembly 300, the far fan assembly 400, and the heat exchange assembly 500 are disposed inside the upper cabinet 110.
  • the humidifying assembly 2000 is disposed inside the lower cabinet 120.
  • a drain pan 140 supporting the heat exchange assembly 500 is disposed between the upper cabinet 110 and the lower cabinet 120.
  • the drain pan 140 closes a part of the lower side 116 of the upper cabinet 110.
  • the bottom surface 116 of the upper cabinet 110 is shielded by the humidifying assembly 2000 and the drain pan 140, and the air inside the upper cabinet 110 is provided with a lower cabinet ( 120) The flow is blocked to the side.
  • the door assembly 200 may be disposed in front of the cabinet assembly 100, and the door assembly 200 may be slidably moved in the horizontal direction with respect to the cabinet assembly 100.
  • a part of the left or right side of the cabinet assembly 100 may be exposed to the outside.
  • the discharge grill 150 is disposed at the front side edge of the upper cabinet 110.
  • the discharge grill 340 is located at the rear side of the door assembly 200.
  • the discharge grill 150 may be manufactured integrally with the upper cabinet 110.
  • the discharge grill 150 is manufactured separately through injection molding, and then assembled in the upper cabinet 110.
  • the discharge grill disposed in front of the left side 113 is defined as the left discharge grill 151, and the discharge grill disposed in front of the right side 114 is defined as the right discharge grill 152.
  • Side discharge holes 301 and 302 are formed in the left discharge grill 151 and the right discharge grill 152, respectively.
  • the side discharge ports 301 and 302 are formed through the left discharge grill 151 and the right discharge grill 152, respectively.
  • the cover 160 is disposed in front of the upper cabinet 110 and the lower cabinet 120, and blocks the air in the cabinet 100 from being in direct contact with the door assembly 200.
  • the cover 160 is disposed in front of the upper cabinet 110 and the lower cabinet 120, and the air inside the cabinet 100 through the cover 160 is the front discharge port 201 or the side discharge port 301, 302. Can only flow.
  • the cover 160 includes an upper cover 162 that covers the front surface of the upper cabinet 110, a lower cover 164 that covers the front surface of the lower cabinet 120, and the remote fan assembly 400.
  • Remote fan cover 166 to cover the front of the.
  • the remote fan cover 166 may be manufactured integrally with the upper cover 162. In the present embodiment, the remote fan cover 166 and the upper cover 162 are separately manufactured and assembled.
  • the far fan cover 166 is positioned in front of the far fan assembly 400 and is positioned above the upper cover 162.
  • the front surfaces of the far fan cover 166 and the upper cover 162 form a continuous plane.
  • the remote fan cover 166 is formed with a fan cover discharge port 161 opened in the front and rear directions.
  • the fan cover discharge port 161 communicates with the front discharge port 201 and is located behind the front discharge port 201.
  • the discharge grill 450 of the remote fan assembly 400 may be moved to the front of the door assembly 200 through the fan cover discharge port 161 and the front discharge port 201.
  • the door assembly 200 is disposed in front of the fan cover discharge port 161, and the fan cover discharge port 161 is positioned behind the panel discharge port 1101 to be described later.
  • the discharge grill 450 passes through the fan cover discharge port 161, the panel discharge port 1101, and the front discharge port 201 in order.
  • the panel discharge port 1101 is located behind the front discharge port 201, and the fan cover discharge port 161 is located behind the panel discharge port 1101.
  • the remote fan cover 166 is coupled to the front upper side of the upper cabinet 110, the upper cover 162 is coupled to the front lower side of the upper cabinet 110.
  • the lower cover 164 may be located below the upper cover 162 and may be assembled to the lower cabinet 120 or the humidifying assembly 2000. After assembly, the front surfaces of the lower cover 164 and the upper cover 162 form a continuous surface.
  • the lower cover 164 has a water tank opening 167 opening in the front and rear directions.
  • the water tank 2100 may be separated or mounted through the water tank opening 167.
  • the lower cover 164 is located at the front lower side of the drain pan 140. Since the leakage of air in the upper cabinet 110 does not occur even if the entire front of the lower cabinet 120 is not generated, the entire front of the lower cabinet 120 may not be covered.
  • a portion of the front surface of the lower cabinet 120 is preferably opened for repair, service, and replacement of the humidifying assembly 2000.
  • a part of the front surface of the lower cabinet 120 is formed with an open surface 169 that is not shielded by the lower cover 164.
  • the door assembly 200 is slidably moved in the left and right directions by the operation of the door slide module 1300.
  • the state in which the entire water tank opening 167 is exposed is defined as one stage opening, and the state in which the opening surface 169 is exposed is defined as two stage opening.
  • the exposed front surface of the cabinet assembly 100 when the first stage is opened is defined as the first opening surface OP1, and the exposed front surface of the cabinet assembly when the second stage is opened as the second opening surface OP2.
  • the short range fan assembly 300 is configured to discharge air laterally with respect to the cabinet assembly 100.
  • the short-range fan assembly 300 provides indirect wind to the user.
  • the short range fan assembly 300 is disposed in front of the heat exchange assembly 500.
  • the short range fan assembly 300 is provided with a plurality of fans 310 stacked in a vertical direction. In the present embodiment, three fans 310 are provided and stacked in the vertical direction.
  • the fan 310 is a four-flow centrifugal fan is used.
  • the fan 310 sucks air in the axial direction and discharges the air in the circumferential direction.
  • the fan 310 sucks air from the rear and discharges the air in the circumferential direction and the front.
  • the fan 310 discharges air in the circumferential direction, but discharges airflow having directivity toward the front.
  • the short-range fan assembly 300 is formed by opening the front and rear, the fan casing 320 is coupled to the cabinet assembly 100, the fan casing 320 is coupled to the inside of the pan casing 320 And a fan guide 330 coupled to the fan casing 320 and guiding the air discharged to the fan 310 laterally with respect to the cabinet assembly 100. do.
  • the pan casing 320 is manufactured in a box shape in which the front and rear surfaces are open.
  • the pan casing 320 is coupled to the cabinet assembly 100.
  • the front surface of the pan casing 320 is disposed to face the door assembly 200.
  • the rear surface of the pan casing 320 is disposed to face the heat exchange assembly 500.
  • the front of the pan casing 320 is in close contact with the door assembly 200 is closed.
  • a part of the side surface of the pan casing 320 is exposed to the outside.
  • Side discharge holes 301 and 302 are formed in the fan casing 320 exposed to the outside.
  • Discharge vanes for controlling the discharge direction of air are disposed in the side discharge port 302.
  • the side discharge ports 301 and 302 are disposed on the left and right sides of the pan casing 320, respectively.
  • the fan 310 is disposed inside the pan casing 320.
  • the plurality of fans 310 are disposed on the same plane and stacked in a line with respect to the vertical direction.
  • the fan 310 uses a centrifugal fan, the fan 310 sucks air from the rear surface of the fan casing 320 and discharges the air in the circumferential direction.
  • the fan guide 330 guides the air discharged from the fan 310 to the side discharge ports 301 and 302. Since the fan 310 uses a centrifugal fan, the air discharged to the upper side and the lower side is guided to the side discharge ports 301 and 302 by the fan guide 330.
  • the remote fan assembly 400 is configured to discharge air forward with respect to the cabinet assembly 100.
  • the remote fan assembly 400 provides a direct wind to the user.
  • the remote fan assembly 400 is disposed in front of the heat exchange assembly 500.
  • the far fan assembly 400 is stacked on an upper side of the near fan assembly 300.
  • the remote fan assembly 400 discharges air to the front discharge port 201 formed in the door assembly 200.
  • the remote fan assembly 400 provides a structure rotatable in the up, down, left, right or diagonal direction.
  • the remote fan assembly 400 may improve the circulation of indoor air by discharging air toward the far side of the indoor space.
  • the remote fan assembly 400 includes a fan base 410 having a fan suction hole 411 on the rear side of the fan suction port 411 through which the air passing through the heat exchange assembly 500 is suctioned, and is disposed in front of the fan base 410 and the fan suction hole.
  • the fan housing actuator 470 provides a driving force when the housing 430 moves.
  • the fan base 410, the fan 420, the fan housing 430, and the fan motor 440, which are assembled into one structure, are defined as a fan housing assembly.
  • the remote fan assembly 400 further includes a tilting assembly for freely rotating the discharge grill 450 in all directions such as upper, lower, left, right, and diagonal lines with respect to the fan housing assembly.
  • the door assembly 200 has a front panel 210 having a front discharge port 201 and a panel discharge port 1101 coupled to a rear surface of the front panel 210 and communicating with the front discharge port 201.
  • the panel module 1100, the door cover assembly 1200 disposed on the panel module 1100 and opening and closing the panel discharge port 1101 and the front discharge port 201, and the panel module 1100 are disposed on the panel module 1100.
  • the upper end is assembled with the door cover assembly 1200 so as to rotate relatively, and the lower end is assembled with the panel module assembly 1100 so as to rotate relatively, and the cable connected to the door cover assembly 1200 is accommodated.
  • guide (1800) With guide (1800) .
  • the front discharge port 201 is disposed in the front panel 210 and is opened in the front-rear direction.
  • the panel discharge port 1101 is disposed in the panel module 1100 and is opened in the front-rear direction.
  • the area and shape of the front discharge port 201 and the panel discharge port 1101 are the same.
  • the front discharge port 201 is located in front of the panel discharge port 1101.
  • the door assembly 200 further includes a display module 1500 installed in the panel module 1100 and visually providing information of an indoor unit to the front panel 210.
  • the display module 1500 may be disposed on the rear surface of the front panel 1100 and may transmit visual information to the user through the front panel 1100.
  • the display module 1500 is partially exposed through the front panel 1100, and provides visual information to the user through the exposed display.
  • the information of the display module 1500 is transmitted to the user through the display opening 202 formed in the front panel 210.
  • the front panel 210 is disposed at the front of the indoor unit.
  • the front panel 210 includes a front panel body 212, a front discharging opening 201 opened in the front and rear directions of the front panel body 212, and a display opening opening in the front and rear directions of the front panel body 212.
  • 202 a first front panel side 214 disposed on the left side of the front panel body 212 and covering a left side of the panel module 1100, and a right side of the front panel body 212.
  • a second front panel side 216 disposed on the right side of the front panel body 212 and covering the right side surface of the panel module 1100.
  • the front panel 210 is formed to be very long vertical grinding than the left and right width. In the present embodiment, the upper and lower lengths are three times or more compared with the left and right widths of the front panel 210.
  • the front panel 210 has a very thin thickness before and after the left and right widths. In the present embodiment, the front and rear thicknesses of the front panel 210 are less than or equal to 1/4 in thickness.
  • the display opening 202 is located below the front discharge port 201. Unlike the present embodiment, the display opening 202 may be located above the front discharge port 201.
  • the front discharge port 201 and the display opening 202 are arranged in the vertical direction.
  • the virtual center line C connecting the center of the front discharge port 201 and the center of the display opening 202 is vertically disposed.
  • the front panel 210 is symmetrically symmetric with respect to the center line C.
  • the camera 1950 of the camera module 1900 is disposed on the center line C.
  • the front discharge port 201 is formed in a circular shape.
  • the front discharge port 201 has a shape corresponding to the front shape of the discharge grill 450.
  • the discharge grill 450 concealed inside the cabinet assembly 100 is exposed to the outside through the front discharge port 201.
  • the front discharge port 201 is selectively opened to expose the discharge grill 450, and the discharge grill 450 penetrates through the front discharge port 201 and the front panel 210. It protrudes more forward.
  • the first front panel side 214 protrudes from the left edge of the front panel body 212 to the rear side and covers the left side of the panel module 1100 fixed to the rear surface of the front panel body 212.
  • the second front panel side 216 protrudes from the right edge of the front panel body 212 to the rear side and covers the right side surface of the panel module 1100 fixed to the rear surface of the front panel body 212.
  • the first front panel side 214 and the second front panel side 216 block side surfaces of the panel module 1100 from being exposed to the outside.
  • a first front panel end 215 protruding from the rear end of the first front panel side 214 toward the second front panel side 216 is further disposed.
  • a second front panel end 217 protruding from the rear end of the second front panel side 216 toward the first front panel side 214 is further disposed.
  • the first front panel end 215 and the second front panel end 217 are located on the rear surface of the panel module 1100. That is, the panel module 1100 is located between the front panel body 212 and the front panel ends 215 and 217.
  • the interval between the front panel body 212 and the front panel end 215, 217 is defined as the internal interval (I) of the front panel.
  • the inner interval I is shorter than the thickness before and after the front panel 210.
  • the first front panel end 215 and the second front panel end 217 are disposed to face each other and are spaced apart from each other.
  • the distance between the first front panel end 215 and the second front panel end 217 is defined as the open interval O of the front panel.
  • the opening interval O of the front panel 210 is shorter than the left and right widths W of the front panel 210.
  • the front panel body 212 and the front panel end 215, 217 are arranged in parallel.
  • the front panel body 212 and the front panel side 214 and 216 are crossed and orthogonal in this embodiment.
  • the front panel side 214 and 216 are disposed in the front-rear direction.
  • the front panel body 212, the front panel side 214, 216, and the front panel end 215, 217 constituting the front panel 210 are integrally manufactured.
  • the entire front panel 210 is formed of a metal material.
  • the front panel 210 is entirely made of aluminum.
  • front panel side 214 and 216 are bent rearward from the front panel body 212, and the front panel ends 215 and 217 are bent opposite to the front panel side 214 and 216.
  • a first bending groove (not shown) is formed at a bent portion between the front panel body 212 and the first front panel side 214.
  • the second bending groove 213a may be formed at the bent portion between the front panel body 212 and the second front panel side 216.
  • a third bending groove (not shown) is formed at the bent portion between the first front panel side 214 and the first front panel end 215, and the second front panel side 216 and the second front panel end ( The fourth bending groove 213b may be formed at the bent portion between the 217.
  • Each of the bending grooves may be formed to extend in the vertical direction of the front panel 210.
  • Each of the bending grooves is preferably located inside the bent portion.
  • the first and second bending grooves 213a are not formed, it is difficult to form a right angle between the front panel body 212 and the front panel side at right angles.
  • the front panel body 212 and the bent portion of the front panel side are not formed flat, and may be protruded or changed in any direction during the bending process. have.
  • the third and fourth bending grooves 213b also perform the same function as the first and second bending grooves 213a.
  • the panel upper opening 203 and the panel lower opening 204 are respectively formed on the front panel 210 manufactured as described above. Since the front panel 210 is manufactured by bending one metal plate in the present embodiment, the panel upper opening 203 and the panel lower opening 204 are formed in the same area and shape.
  • the thickness of the panel module 1100 is equal to or smaller than the distance between the front panel body 212 and the front panel ends 215 and 217.
  • the panel module 1100 may be inserted through the panel upper opening 203 or the panel lower opening 204.
  • the panel module 1100 may be fixed by a fastening member (not shown) passing through the front panel ends 215 and 217.
  • the camera module 1900 is inserted into the panel upper opening 203 and positioned above the panel module 1100.
  • the camera module 1900 may close the panel upper opening 203.
  • the camera module 1900 is positioned above the front discharge port 201 and is disposed on the rear surface of the front panel 210.
  • the camera module 1900 is hidden by the front panel 210.
  • the camera module 1900 is exposed to the front panel 210 only during operation, and is hidden behind the front panel 210 when it is not operated.
  • the front panel ends 215 and 217 surround side and rear surfaces of the camera module 1900, and a fastening member (not shown) is fastened to the camera module 1900 through the front panel ends 215 and 217. do.
  • the left and right widths of the panel upper opening 203 and the left and right widths of the camera module 1900 are the same.
  • the left and right widths of the panel upper opening 203 and the left and right widths of the panel module 1100 are the same.
  • the front and rear thicknesses of the panel upper opening 203 and the front and rear thicknesses of the camera module 1900 are the same.
  • the front and rear thicknesses of the panel upper opening 203 and the front and rear thicknesses of the panel module 1100 are also the same.
  • the camera module 1900 and the panel module 1100 are located between the front panel body 212 and the front panel end 215, 217, and the front panel body 212 and the front panel end 215, 217. Can be supported).
  • the panel module 1100 includes an upper panel module 1110 and a lower panel module 1120. Unlike the present embodiment, the upper panel module 1110 and the lower panel module 1120 may be manufactured as one. Since the upper and lower lengths of the front panel 210 are longer than the left and right widths in the present embodiment, when the panel module 1100 is manufactured as one part, the panel upper opening 203 or the panel lower of the front panel 210 is formed. There is a constraint on insertion through the opening 204.
  • the panel 1100 is made of two upper panel modules 1110 and two lower panel modules 1120, and the upper panel module 1110 is inserted into the front panel 210 through the panel upper opening 203.
  • the lower panel module 1120 is inserted into the front panel 210 through the panel lower opening 204.
  • the integrated upper panel module 1110 and the lower panel module 1120 suppress distortion of the front panel 210 and provide rigidity against external force.
  • the upper panel module 1110 and the lower panel module 1120 are inserted into an inner space I of the front panel 210, support the front panel 210, and deform and warp the front panel 210. prevent.
  • the upper panel module 1110 and the lower panel module 1120 are manufactured by injection molding.
  • the upper panel module 1110 and the lower panel module 1120 made of an injection molded product are in contact with the front panel body 212, each front panel side 214 and 216, and each front panel end 215 and 217. .
  • the upper panel module 1110 and the lower panel module 1120 support the entire first front panel side 214 and the second front panel side 216 to which external shock is frequently applied.
  • the upper panel module 1110 and the lower panel module 1120 support only a partial area of the front panel body 212, not the entire surface. That is, the upper panel module 1110 and the lower panel module 1120 form a plurality of bends in the front-rear direction and support a partial area on the rear surface of the front panel body 212.
  • the upper panel module 1110 is formed to penetrate the upper panel body 1130 disposed on the rear surface of the front panel 210 and the upper panel body 1130 in the front-rear direction, and to the rear of the front discharge port 201. And a panel discharge port 1101 positioned and in communication with the front discharge port 201.
  • the panel discharge port 1101 corresponds to the front discharge port 201.
  • the panel discharge port 1101 and the front discharge port 201 are all formed in a circular shape.
  • a gasket 205 may be disposed between the panel discharge port 1101 and the front discharge port 201 to prevent the discharge air from leaking out.
  • the gasket 205 is disposed along the inner side surface of the front discharge port 201, and the upper panel module 1110 is in close contact with the gasket 205.
  • the panel discharge port 1101 is positioned on the rear surface of the gasket 205.
  • the panel discharge port 1101 is equal to the area of the front discharge port 201 or larger than the area of the front discharge port 201.
  • the panel discharge port 1101 is formed to be larger than the diameter of the front discharge port 201 in consideration of the installation structure of the gasket 205.
  • the gasket 205 is in close contact with the inner surface of the front discharge port 201 and the inner surface of the panel discharge port 1101, and seals between the upper panel module 1110 and the front panel 210.
  • the discharge grill 450 of the remote fan assembly 400 passes through the panel discharge port 1101 and the front discharge port 201 in order, and protrudes forward from the front surface of the front panel 210.
  • the front end of the fan housing 430 of the remote fan assembly 400 may be in close contact with the gasket 205.
  • the air flowing in the fan housing 430 may be prevented from leaking to the door assembly 200.
  • the front panel 210 is formed of a metal material, the discharged air leaking into the door assembly 200 when cooled is cooled around the front discharge port 201, and a large amount of air is discharged around the front discharge port 201. May cause dew.
  • the door cover assembly 1200 and the display module 1500 are installed in the upper panel module 1110.
  • Both the door cover assembly 1200 and the display module 1500 are positioned within the thickness of the front panel 210 in the state of being assembled to the upper panel module 1110.
  • the upper panel module 1110 is provided with a display installation unit 1113, the display module 1500 is installed in the display installation unit 1113.
  • the display module 1500 minimizes the display module 1500 protruding forward from the upper panel body 1130 through the display installation unit 1113.
  • the display installation unit 1113 may be disposed to penetrate the upper panel module 1110 in the front-rear direction.
  • the display module 1500 is partially exposed to the outside through the display opening 202 of the front panel 210 in the assembled state to the upper panel module 1110. In the state where the display module 1500 is exposed to the outside through the display opening 202, the display 1510 of the display module 1500 forms a continuous surface with the front surface of the front panel 210.
  • the front surface of the display 1510 of the display module 1500 does not protrude forward than the front panel 210, and forms a plane continuous with the front surface of the front panel 210.
  • the display module 1500 transmits and receives power and electrical signals through a cable passing through the upper panel module 1110.
  • the door cover assembly 1200 may be disposed on the rear surface of the upper panel module 1110 and move upward and downward along the rear surface of the upper panel module 1110.
  • the door cover assembly 1200 When the door cover assembly 1200 opens the front discharge hole 201 and moves downward, the door cover assembly 1200 may be positioned at the same height as the display module 1500.
  • the door cover assembly 1200 is not coupled to the panel module 1100.
  • the door cover assembly 1200 is movable in the vertical direction with respect to the panel module 1100.
  • the upper panel module 1110 and the lower panel module 1120 are stacked in the vertical direction.
  • the upper panel module 1110 and the lower panel module 1120 are assembled to each other inside the front panel 210, the upper panel module 1110 and the lower panel module 1120 minimize movement and noise when the door assembly 200 slides.
  • the upper panel module 1110 and the lower panel module 1120 may be assembled in an interference fit shape.
  • Any one of the upper panel module 1110 and the lower panel module 1120 is formed with a panel protrusion protruding toward the other side, and the other one is formed with a panel fitting portion for receiving the protrusion fitting portion.
  • the panel protrusion 1113 is formed in the upper panel module 1110.
  • the panel protrusion 1113 protrudes downward from the lower surface of the upper panel body 1130.
  • a panel fitting portion 1123 is formed in the lower panel module 1120 to accommodate the panel protrusion 1113 and to assemble the panel protrusion 1113 to the panel protrusion 1113.
  • the panel fitting portion 1123 is formed on the upper surface of the lower panel module 1120.
  • the lower panel module 1120 is installed on the rear surface of the front panel 210.
  • the lower panel module 1120 is installed in the inner space I of the front panel 210.
  • the lower panel module 1120 is positioned below the upper panel module 1110, supports the upper panel module 1110, and is assembled with the upper panel module 1110.
  • the lower panel module 1120 is installed in the front panel 210 to prevent deformation of the front panel 210.
  • the lower panel module 1120 is coupled to the upper panel module 1110 in an interference fit manner, and supports the upper panel module 1110 from below.
  • the lower panel module 1120 includes a lower panel body 1122 assembled to the front panel 210.
  • the upper panel module 1110 is formed on the lower panel body 1122, and a panel fitting part 1123 is fitted to the panel protrusion 1113.
  • the panel fitting portion 1123 is formed to be concave downward.
  • the driving unit of the door slide module 1300 is installed in the lower panel module 1120.
  • the lower panel module 1120 is fixed to the front panel 210 by fastening members (not shown) passing through the first front panel end 215 and the second front end 217, respectively.
  • both of the fastening members are positioned at the rear surfaces of the first front panel end 215 and the second front end 217 to fix the upper panel module 1110 and the lower panel module 1120, the door assembly ( The fastening structure of 200 is hidden without being exposed to the outside.
  • the fastening member or the hole for fastening is hidden on the outer surface of the front panel 210 formed of a metal material without being exposed.
  • the door cover assembly 1200 is a configuration for opening and closing the front discharge port 201 disposed in the door assembly 200.
  • the door cover assembly 1200 opens the front discharge port 201 to expand the movement path of the remote fan assembly 400.
  • the far fan assembly 400 may protrude to the outside of the door assembly 200 through the open front discharge port 201.
  • the door cover assembly 1200 is positioned on the movement path of the far fan assembly 400, and when the front discharge port 201 is opened, the door cover assembly 1200 is moved out of the movement path of the far fan assembly 400.
  • the door cover assembly 1200 is disposed at the front discharge port 201, is moved in the front and rear direction of the front discharge port 201, and opens and closes the front discharge port 201 and the door cover 1210.
  • the door cover housing 1220 is disposed in the door assembly 200, the door cover housing 1220, the door cover housing 1220 and the door cover 1210
  • the door cover moving module 1600 and the door cover housing 1220 or the door assembly 200 are disposed between the door cover 1210 and the rear cover of the door cover 1210. Is disposed on any one of the, and includes a door housing moving module 1700 for moving the door cover housing 1220 in the vertical direction.
  • the door cover 1210 is inserted into the front discharge port 201 and provides a surface continuous with the front panel 210. By the operation of the door cover moving module 1600, the door cover 1210 may be moved to the rear. After the door cover 1210 is separated from the front discharge port 201, the door housing assembly 1700 may be operated to move the entire door cover assembly 1200 downward.
  • the front discharge port 201 is opened in the front-rear direction.
  • the door cover 1210 is moved rearward from the front discharge port 201 by the door cover moving module 1600, and the front panel 210 and the door cover 1210 are spaced apart in the front-rear direction.
  • the completed state is defined as the first front opening.
  • the far fan assembly 400 When the first front opening, the far fan assembly 400 is covered by the door cover 1210, it is not exposed to the user. In the first front opening, the air inside the cabinet may be discharged into the room through a gap between the door cover 1210 and the front panel 210.
  • the far fan assembly 400 When the first front opening, the far fan assembly 400 is located behind the door cover 1210. When the first front side is open, the door cover 1210 is located behind the front panel body 212.
  • the door cover 1210 is moved from the rear of the front discharge port 201 to the lower side of the front discharge port 201 by the door housing moving module 1700, and the front discharge port 201 is covered by the door cover 1210.
  • the state which does not lose is defined as 2nd front opening.
  • the door cover 1210 When the second front opening, the door cover 1210 is located below the front discharge port 201 and the far fan assembly 400. When the second front side is opened, the door cover 1210 is located behind the front panel body 212.
  • the far fan assembly 400 When the second front opening, the far fan assembly 400 is exposed to the user through the front discharge port (201). When the second front opening, the far fan assembly 400 is moved forward, can protrude out of the front discharge port 201, the far fan assembly 400 in the state protruding out of the front panel 210 Air can be discharged toward the room.
  • the thickness of the door cover assembly 1200 occupies most of the thickness of the door assembly 200. Therefore, minimizing the thickness in the front and rear directions of the door cover assembly 1200 is an important factor in minimizing the thickness of the door assembly 200. When the thickness of the door assembly 200 is minimized, an operating load of the door slide module 1300 may be minimized.
  • the door cover moving module 1600 is configured to move the door cover 1210 in the front and rear directions.
  • the door cover moving module 1600 is a configuration for implementing a first front opening.
  • the door cover 1210 may be moved in the front-rear direction through various methods.
  • the door cover 1210 may be connected to a liquid actuator such as a hydraulic cylinder, and may be moved back and forth through the piston movement of the hydraulic cylinder.
  • the door cover 1210 may be moved in the front-rear direction through the motor and the articulated link structure.
  • the structure such as the link structure and the hydraulic cylinder should be provided with a structure that moves or rotates forward of the cabinet assembly 100, the thickness of the front and rear door assembly 200 may be increased.
  • the door cover moving module 1600 converts the rotational force of the door cover motor through mutual interference to move the door cover 1210 in the front and rear directions.
  • the structure of the door cover moving module 1600 can minimize the thickness of the front and rear direction of the door assembly 200.
  • the door housing moving module 1700 is configured to move the door cover assembly 1200 in the vertical direction and to set the front discharge port 201 disposed in the front panel 210 to the second front open state.
  • the door housing moving module 1700 is disposed on the left and right sides of the door cover housing 1220, respectively. Unlike the present embodiment, only one door housing moving module 1700 may be disposed.
  • the door housing moving module 1700 since the door housing moving module 1700 has a function of fixing the up and down positions of the door cover assembly 1200, the door housing moving module 1700 is used to distribute the supporting load of the door cover assembly 1200. Place two left and right.
  • the door housing moving module 1700 may move the door cover assembly 1200 in the vertical direction along the front panel 210. In particular, the door housing moving module 1700 may move the entire door cover housing 1220 to which the door cover 1210 is coupled in a vertical direction.
  • the door cover assembly 1200 is moved along the inner interval I of the front panel 210. Since the front panel 210 is disposed inside, the installation space of the door housing moving module 1700 is preferably disposed below the inner interval I.
  • the door housing moving module 1700 provides a structure for installing below the thickness of the front panel 210.
  • the front and rear thicknesses of the door housing moving module 1700 are less than or equal to the thickness of the front panel 210.
  • the door cover housing 1220 may be moved to the lower side of the front discharge port 201 by the door housing moving module 1700, and the front discharge port 201 may implement the second front opening.
  • the door cover 1210 disposed in the movement path of the remote fan assembly 400 facing the front discharge port 201 may be moved to the lower side of the front discharge port 201 by the operation of the door housing moving module 1700. have.
  • the door housing moving module 1700 moves the door cover housing 1220 out of the movement path of the remote fan assembly 400.
  • the discharge grill 450 may be exposed through the front discharge port 201.
  • the cable connected to the door housing moving module 1700 may also be moved in the vertical direction.
  • the thickness of the front and rear directions of the door assembly 200 is very small compared to the width, when the door housing moving module 1700 is moved up and down, twisting of the cable may occur.
  • the cable may be inserted between the door housing moving module 1700 and the panel module 1100 which are moved up and down, thereby limiting the operation of the door housing moving module 1700.
  • the cable guide 1800 may be disposed to minimize such a problem.
  • the cable guide 1800 has an upper end assembled to the door cover assembly 1200 and a lower end assembled to the panel module 1100.
  • the cable guide 1800 may include a first cable guide 1810 assembled to the door cover assembly 1200 so as to be relatively rotatable, and a second cable guide 1820 assembled to the panel module 1100 to be relatively rotatable. And a connection cable guide 1830 assembled to the first cable guide 1810 and the second cable guide 1820 so as to be relatively rotatable.
  • the door slide module 1300 is for moving the door assembly 200 in the left and right directions of the cabinet assembly 100.
  • the door slide module 1300 may reciprocate the door assembly 200 in left and right directions.
  • the door slide module 1300 is installed in either the door assembly 200 or the cabinet assembly 100, and implements slide movement through mutual interference with the other.
  • the door slide module 1300 is disposed in the door assembly 200 and extends in the left and right direction and is disposed in the cabinet assembly 100 side structure, and meshes with the rack 1310. And a gear assembly 1330 which is moved along the rack 1310 when rotated, a gear driving motor 1320 disposed in the cabinet assembly 100 side structure, and providing a driving force to the gear assembly 1330. And a gear housing 1380 disposed in the cabinet assembly 100 side structure and installed with the gear assembly 1330 and the gear driving motor 1320.
  • the cabinet assembly 100 side structure may be any structure fixed to the cabinet assembly 100.
  • the fixing plate 190 is disposed in front of the cabinet assembly 100.
  • the fixing plate 190 is formed longer in the vertical direction than the width.
  • the rack 1310 is disposed in the left and right directions. In this embodiment, the rack 1310 is arranged horizontally.
  • the rack-shaped portion 1311 may be formed to face upward or downward. In the present embodiment, the rack-shaped portion 1311 protrudes downward from the rack body 1312.
  • the rack tooth portion 1311 may be manufactured separately and assembled to the rack body 1312.
  • the rack-shaped portion 1311 and the rack body 1312 are manufactured integrally.
  • the rack teeth 1311 are teeth disposed in the front-rear direction.
  • the plurality of rack teeth 1311 are arranged in the left and right directions.
  • the gear assembly may be meshed with the rack tooth portion 1311 and may move in the horizontal direction along the rack tooth portion 1311.
  • the gear assembly 1330 is disposed on the gear housing 1380, and a first tooth 1342 is formed on an outer circumferential surface thereof, and is engaged with the rack 1310 through the first tooth 1341.
  • a first gear 1340 movable in a left-right direction in engagement with the rack 1310, the second-first teeth 1351 and the first and second teeth 1351 disposed on the gear housing 1380 and having different curvature radii;
  • a second gear 1350 including a 2-2 teeth 1352 and meshing with the first teeth 1342 of the first gear 1340 through the 2-1 teeth 1351; It is disposed in the gear housing 1380, and comprises a 3-1 teeth 1361 and 3-2 teeth 1136 formed in different teeth, and through the 3-1 teeth 1361
  • the third gear 1360 meshes with the second-second teeth 1352 of the second gear 1350 and the gear housing 1380, and meshes with the third-second teeth 1362.
  • the gear drive head Is connected to the 1320 includes a worm gear 1370 is rotated.
  • Each tooth of the first gear 1340, the second gear 1350 and the third gear 1360 is formed as a pinion gear type.
  • the first gear 1340, the second gear 1350, and the third gear 1360 are disposed perpendicular to the front-back direction. That is, the first gear 1340, the second gear 1350 and the third gear 1360 are disposed in parallel with the front body 212 of the front panel 210.
  • Each rotation axis of the first gear 1340, the second gear 1350, and the third gear 1360 is disposed in the front-rear direction.
  • the motor shaft 1321 of the gear driving motor 1320 passes through the worm gear 1370.
  • the rotation shaft of the worm gear 1370 is disposed on the same line as the motor shaft 1321.
  • the motor shaft 1321 is arranged diagonally when viewed from the front or rear.
  • the direction of the motor shaft 1321 and the arrangement of the rack 1310 intersect, and in this embodiment, the direction of the motor shaft 1321 and the arrangement of the rack 1310 are formed to be greater than 0 degrees and less than 90 degrees. .
  • the first gear 1340 is installed in the gear housing 1380, and a part of the first gear 1340 protrudes out of the gear housing 1380. A portion protruding out of the gear housing 1380 and the rack 1310 engage with each other.
  • the first gear 1340 is meshed with the rack 1310 and the second gear 1350, respectively.
  • the second gear 1350 is meshed with the first gear 1340 and the third gear 1360, respectively.
  • the third gear 1360 is meshed with the second gear 1350 and the worm gear 1370, respectively.
  • the first gear 1340 is a pinion gear whose rotation shaft is formed in the front-rear direction.
  • the first teeth 1341 are disposed in a circular shape when viewed from the front or the back.
  • the position where the first tooth 1341 and the rack tooth 1311 are engaged with each other and the position where the first tooth 1341 and the 2-1 tooth 1135 are engaged with each other are different from each other.
  • the first teeth 1341, the rack teeth 1311 of the rack 1310, and the 2-1 teeth 1135 are all formed with teeth of the same size and shape.
  • the first tooth 1341, the rack tooth 1311 of the rack 1310, and the 2-1 tooth 1135 are all formed with the same pinion gear teeth.
  • the second gear 1350 and the third gear 1360 have a rotating shaft formed in the front-rear direction and are formed in a pinion gear type.
  • the second gear 1350 and the third gear 1360 are arranged with two different teeth instead of one tooth like the first gear 1340.
  • the second gear 1350 is provided with a 2-1 tooth portion 1351 and a 2-2 tooth portion 1352, and a 2-1 tooth portion 1351 and a 2-2 tooth portion ( 1352 is arranged in the direction of the rotation axis of the second gear 1350 (front and rear in this embodiment).
  • the 2-1 teeth 1135 and the 2-2 teeth 1135 are arranged in the front-rear direction.
  • the 2-1 tooth 1135 and the 2-2 tooth 1135 are both formed as a pinion gear type tooth, the 2-1 tooth 1135 and the 2-2 tooth 1135 are It is formed with different teeth.
  • the 2-1 teeth 1135 and the 2-2 teeth 1135 are each arranged in a circle having a different diameter.
  • One of the 2-1 teeth 1351 and the 2-2 teeth 1135 may be disposed at the front side, and the other may be located at the rear side. In the present embodiment, the 2-1 teeth 1351 are positioned in front of the 2-2 teeth 1135.
  • the 2-1 tooth 1135 is located on the same plane as the first tooth 1341 and the 3-2 tooth 1362.
  • the same teeth as the second gear 1350 may have the first gear 1340.
  • the third gear 1360 Due to such a structure, the 2-2 teeth 1135, the first teeth 1341 and the 3-1 teeth 1361 have the same standard.
  • the second gear 1350 has a larger diameter of the 2-2 teeth 1135 than the diameter of the 2-1 teeth 1135.
  • the diameters of the 2-1 th teeth 1351 and the 2-2 teeth 1135 are arranged differently to provide a meshing structure that is simultaneously engaged with the first gear 1340 and the third gear 1360.
  • the first gear 1340 and the second gear 1350 When the first gear 1340 and the second gear 1350 are engaged, the first gear 1340 is located at a front side than the second-second teeth 1352. This is because the 2-1 teeth 1351 are located on the front side than the 2-2 teeth 1135.
  • the arrangement of the front-to-rear direction of the 2-1 teeth 1135 and the 2-2 teeth 1135 may be reversed.
  • the second-first teeth 1351 and the second-second teeth 1352 are formed with different teeth. Both the 2-1 teeth 1135 and the 2-2 teeth 1352 are teeth of the pinion gear type.
  • the third gear 1360 includes a third-first tooth 1361 and a third-second tooth 1362. Any one of the 3-1 tooth portion 1361 and the 3-2 tooth portion 1362 is engaged with the worm gear 1370.
  • the diameters of the 3-1 tooth portion 1361 and the 3-2 tooth portion 1362 are different from each other.
  • the diameter of the 3-2 tooth portion 1362 meshed with the worm gear 1370 may be larger than that of the 3-1 tooth portion 1361.
  • the rotating shaft of the third gear 1360 is disposed in the front-rear direction.
  • the 3-1 th teeth 1361 and the 3-2 th teeth 1362 are arranged in the front-rear direction.
  • the third-first teeth 1361 are located behind the third-second teeth 1362.
  • the 3-1 teeth 1361 are located on the same plane as the 2-2 teeth 1352, and the 3-2 teeth 1362 are on the same plane as the 2-1 teeth 1135. Is located in.
  • the 3-2 teeth 1136 are meshed with the worm gear 1370, and the teeth of the 3-2 teeth 1136 are formed as a pinion gear type.
  • the worm gear 1370 is cylindrical in overall shape, and the rotation axis is disposed to be inclined with respect to the left and right directions.
  • the worm gear 1370 has a worm gear type 1371 formed on an outer circumferential surface thereof and has a spiral shape.
  • the rotation shaft of the worm gear 1370 is disposed in an inclined direction and is located below the third gear 1360.
  • the worm gear 1370 is directly connected to the motor shaft 1321 of the gear driving motor 1320.
  • the motor shaft 1321 of the gear driving motor 1320 passes through the center of rotation of the worm gear 1370.
  • the gear drive motor 1320 is a step motor is used.
  • the first gear 1340, the second gear 1350, the third gear 1360, the worm gear 1370, and the gear driving motor 1320 are assembled to the gear housing 1380.
  • the gear housing 1380 provides a rotation shaft of the first gear 1340, the second gear 1350, and the third gear 1360.
  • a first gear 1340, a second gear 1350, and a third gear 1360 are assembled to each boss 1342 formed in the gear housing 1380.
  • the gear housing 1380 includes a first gear housing 1381 and a second gear housing 1382.
  • the first gear 1340, the second gear 1350, the third gear 1360, the worm gear 1370 and the gear drive motor 1320 are disposed between the first gear housing 1381 and the second gear housing 1138. Is installed.
  • each boss 1342 providing a rotation axis of the first gear 1340, the second gear 1350, and the third gear 1360. It protrudes.
  • the boss 1342 protrudes forward from the first gear housing 1381.
  • the first gear housing 1381 is located behind the second gear housing 1382.
  • the first gear housing 1381 is assembled to the front of the fixed plate 190.
  • the first gear 1340 of the gears of the gear assembly 1330 protrudes out of the gear housing 1380.
  • the first gear 1340 penetrates through an upper surface of the gear housing 1380, and a part of the first gear 1340 protrudes outward. A portion of the upper surface of the gear housing 1380 is opened so that the first gear 1340 protrudes outward.
  • the first teeth 1341 of the first gear 1340 protruding out of the gear housing 1380 are engaged with the rack teeth 1311 of the rack 1310.
  • gear housing 1380 Since the gear housing 1380 is assembled to the cabinet assembly 100 side structure, when the gear driving motor 1320 is operated, the first gear 1340 is rotated in place and the first gear 1340 The rack 1310 engaged is moved in the left and right directions.
  • the door slide module 1300 is located at the middle height of the door assembly 200. This is associated with the center of gravity of the door assembly 200.
  • the gear driving motor 1320 is disposed at a position close to the center of gravity of the door assembly 200.
  • operation noise may be generated when the door assembly 200 is moved, and the door assembly 200 may be temporarily stopped and moved.
  • the rack 1310 is disposed in the middle portion with respect to the vertical height of the door assembly 200, even if only one gear driving motor 1320 is operated, the entire including the upper and lower sides of the door assembly 200 is uniform. Can be moved. ,
  • the indoor unit according to the present exemplary embodiment may further include a side moving assembly 1400 for guiding the left and right sliding of the door assembly 200 and supporting the load of the door assembly 200.
  • the side moving assembly 1400 is disposed in the door assembly 200 and the cabinet assembly 100 and guides the left and right movement of the door assembly 200.
  • the side moving assembly 1400 guides the slide movement of the door assembly 200.
  • the slide movement of the door assembly 200 may be realized only by the operation of the rack 1310 and the gear assembly 1330 of the door slide module 1300, but there are limitations in implementing a natural slide movement.
  • the side moving assembly 1400 is disposed on the upper side, the middle side, and the lower side of the door assembly 200, respectively.
  • the side moving assembly 1400 may include a top rail 1410 disposed on an upper side of the door assembly 200, a middle rail 1420 disposed in the middle of the door assembly 200, and the door assembly 200.
  • the top rail supporter 1440 assembled to the bottom rail 1430 and the door assembly 200, disposed above the door assembly 200, and extending over the cabinet assembly 100.
  • a bottom supporter 1450 assembled to the cabinet assembly 100, disposed below the cabinet assembly 100, and covered by a lower end of the door assembly 200.
  • the top rail 1410, the middle rail 1420, and the bottom rail 1430 are all disposed in the left and right directions.
  • the top rail 1410, the middle rail 1420, and the bottom rail 1430 are disposed between the door assembly 200 and the cabinet assembly 100.
  • the top rail 1410 includes a first top rail 1412 and a second top rail 1414.
  • the first top rail 1412 is disposed on the rear surface of the door assembly 200.
  • the first top rail 1412 is disposed in the left and right directions.
  • the first top rail 1412 may be disposed on a rear surface of the upper panel module 1110 of the door assembly 200.
  • the second top rail 1414 may be assembled to the front surface of the cabinet assembly 100, and may be relatively moved in the horizontal direction with respect to the first top rail 1412.
  • the second top rail 1414 is coupled to the top supporter 1440, and the top supporter 1440 is fixed to the cabinet assembly 100.
  • the first top rail 1412 and the second top rail 1414 are assembled to be movable relative to each other.
  • a bearing 1415 may be disposed between the first top rail 1412 and the second top rail 1414, and the bearing may have a frictional force when the bearing moves relative to the first top rail 1412 and the second top rail 1414. Can be reduced.
  • the middle rail 1420 includes a first middle rail 1422 and a second middle rail 1424.
  • the first middle rail 1422 is disposed on the rear surface of the door assembly 200.
  • the first middle rail 1422 is disposed in the left and right directions.
  • the first middle rail 1422 may be disposed on a rear surface of the lower panel module 1120 of the door assembly 200.
  • the second middle rail 1424 may be assembled on the front surface of the cabinet assembly 100, and may be relatively moved in the horizontal direction with respect to the first middle rail 1422.
  • the first middle rail 1422 and the second middle rail 1424 are assembled to be movable relative to each other.
  • a bearing (not shown) may be disposed between the first middle rail 1422 and the second middle rail 1424, and the bearing moves relative to the first middle rail 1422 and the second middle rail 1424. Friction force can be reduced.
  • the bottom rail 1430 includes a first bottom rail 1432 and a second bottom rail 1434.
  • the first bottom rail 1432 is disposed on the rear surface of the door assembly 200.
  • the first bottom rail 1432 is disposed in the left and right directions.
  • the first bottom rail 1432 may be disposed on a rear surface of the lower panel module 1120 of the door assembly 200.
  • the second bottom rail 1434 may be assembled to a structure (bottom supporter in the present embodiment) disposed on the front surface of the cabinet assembly 100, and may be moved relative to the first bottom rail 1432 in left and right directions. .
  • the first bottom rail 1432 and the second bottom rail 1434 are assembled to be movable relative to each other.
  • a bearing (not shown) may be disposed between the first bottom rail 1432 and the second bottom rail 1434, and the bearing moves relative to the first bottom rail 1432 and the second bottom rail 1434. Friction force can be reduced.
  • the top supporter 1440 and the bottom supporter 1450 are in place while supporting the load of the door assembly 200. do.
  • the top supporter 1440 distributes the load of the door assembly 200 to the upper side of the cabinet.
  • the bottom supporter 1450 supports the lower side of the door assembly 200 and reduces friction when the left and right slides of the door assembly 200 move.
  • the top supporter 1440 is a door assembly 200 side structure (in this embodiment, the top fixing part 1442 assembled to the second top rail 1414, and the top fixing part 1442 protrudes toward the cabinet assembly 100 side). And the top lay portion 1444 disposed on the cabinet assembly 100 and the top lay portion 1444 disposed on the top lay portion 1444 to form a mutual engagement with the cabinet assembly 100 in the front-rear direction. ).
  • the top fixing part 1442 extends in the left and right directions of the door assembly 200.
  • Top fixing portion (1442) may be assembled in close contact with the door assembly 200.
  • the top fixing part 1442 is assembled to the door assembly 200 side structure, and is fastened to the second top rail 1414 in this embodiment.
  • the top fixing part 1442 is positioned behind the second top rail 1414.
  • the top lay part 1444 and the top fixing part 1442 are manufactured integrally.
  • the top fixing part 1442 and the top lay part 1444 may be manufactured by bending one plate.
  • the top lay part 1444 protrudes to the rear side from the top fixing part 1442.
  • the top lay part 1444 protrudes from the upper edge of the top fixing part 1442 to the rear side.
  • the top lay unit 1444 may be fixed to an upper side of the cabinet assembly 100.
  • the top lay part 1444 and the second top rail 1414 are positioned in position, and only the first top rail 1412 and the door assembly 200 are relatively moved in the left and right directions. .
  • the top catching part 1446 is formed in a left and right direction and forms a catch in the front and rear directions of the cabinet assembly 100.
  • the top catching part 1446 is formed to protrude downward from the top lay part 1444.
  • the top catching portion 1446 is in the form of a recess concave downward, and extends in the longitudinal direction of the top lay portion 1444.
  • the top catching part 1446 is formed with a catching part groove 1446a opened toward the upper side, and the catching part groove 1446a extends in the left and right direction.
  • the top lay part 1444 may include a first top lay part 1444a positioned at a front side with respect to the top hanged part 1446, and a second top lay part located at a rear side with respect to the top hanged part 1446. 1444b).
  • the top catching part 1446 is positioned between the first top lay part 1444a and the second top lay part 1444b.
  • the top catching part 1446 is inserted into the cabinet assembly 100, and a top supporter installing part (not shown) is formed to form a catch with the top catching part 1446.
  • the bottom supporter 1450 is fixed to the cabinet assembly 100 side structure, supports the lower end of the door assembly 200, and minimizes friction when the door assembly 200 is moved.
  • the bottom supporter 1450 is coupled to the fixed plate 190.
  • the fixing plate 190 is a structure fixed to the cabinet assembly 100, and in this embodiment, the door slide module 1300 is installed on the fixing plate 190.
  • the bottom supporter 1450 is disposed between the door assembly 200 and the cabinet assembly 100, is disposed in parallel with the rear surface of the door assembly 200, and the cabinet side structure (the fixed plate ( A bottom supporter body 1460 assembled to the bottom supporter body 1460, a bottom supporter engaging part 1454 disposed on the bottom supporter body 1460 and forming a mutual hook with the fixing plate 190, and the bottom supporter body 1460.
  • a bottom wheel 1456 disposed at the lower end of the door assembly 200 to support the door assembly 200 and to be relatively rotated with the bottom supporter body 1460; It is disposed on the supporter body 1460, and includes a sensor installation unit 1458 in which a sensor for detecting the moving position of the door assembly 200 is installed.
  • the bottom supporter body 1460 is coupled to the supporter plate 1470 and the supporter plate 1470 which are assembled to the cabinet side structure (fixing plate 190 in the present embodiment), and the bottom wheel 1456 is The supporter body 1480 is installed.
  • the supporter plate 1470 is manufactured by bending a metal plate, and the supporter body 1480 is manufactured by injecting a synthetic resin.
  • both the supporter plate 1470 and the supporter body 1480 may be manufactured by injection molding. In this case, however, the decrease in strength cannot be avoided. Since the bottom supporter 1450 must support the load of the door assembly 200, when the whole is made of synthetic resin, breakage or warpage deformation may occur due to a decrease in strength.
  • the bottom supporter 1450 should always support the load of the door assembly 200.
  • the bottom supporter body 1460 is located behind the fixed plate 190.
  • the bottom supporter body 1460 is fastened and fixed to the rear surface of the fixed plate 190.
  • the supporter plate 1470 is formed on the supporter plate body 1472 and the supporter plate body 1472 in close contact with the fixed plate 190, which is a cabinet side structure, and is bent toward the fixed plate 190.
  • the supporter body mounting unit 1474 in which the bottom support latching unit 1454 which forms a mutual engagement with respect to the fixed plate 190 and the left and right directions, and the supporter body 1480 formed in the supporter plate body 1472 are installed. It includes.
  • the supporter plate 1470 is disposed in parallel with the fixed plate 190 and fastened to the fixed plate 190.
  • a plurality of fastening holes 1471 for fastening with the fixed plate 190 are disposed in the supporter plate 1470.
  • the bottom supporter engaging portion 1454 is formed on the supporter plate 1470.
  • the bottom supporter catching part 1454 is formed by bending the supporter plate 1470.
  • the bottom supporter catching part 1454 is in close contact with the left side and the right side of the fixing plate 190.
  • the bottom supporter engaging portion 1454 is bent toward the fixed plate 190.
  • the bottom supporter engaging portion 1454 is disposed in the vertical direction, and forms a mutual engagement with the fixing plate 190 in the left and right directions.
  • the bottom supporter engaging portion 1454 may be formed in the supporter body 1480.
  • the fixed plate 190 has a fixed plate insertion unit 191 to which the bottom supporter body 1460 is fitted.
  • the fixed plate insertion unit 191 is bent to the rear side from the fixed plate 190 is formed.
  • the fixing plate insertion portion 191 is blocked on the upper side, and the lower and left and right sides are open.
  • a gap 192 is formed between the fixed plate insertion unit 191 and the rear surface of the fixed plate 190.
  • the bottom supporter body 1460 may be inserted below the fixed plate insertion unit 191.
  • the upper end of the bottom supporter body 1460 is inserted into the gap 192, and the fixed plate insertion unit 191 restricts the upward movement of the bottom supporter body 1460.
  • the fixed plate insertion unit 191 and the bottom supporter catching part 1454 restrict the installation position of the bottom supporter body 1460.
  • the respective fastening holes 1471 formed in the fixed plate 190 and the bottom supporter body 1460 are fastened to each other.
  • the supporter body mounting unit 1474 is formed by bending the supporter plate body 1472.
  • the supporter body 1480 is assembled to the supporter body installation unit 1474.
  • the supporter body installation unit 1474 is bent backward from the supporter plate body 1472 and secures an installation space of the supporter body 1480.
  • the supporter body 1480 is located at a rear side of the door assembly 200, and the bottom wheel 1456 is disposed below the door assembly 200.
  • At least two bottom wheels 1456 are installed on the supporter body 1480.
  • the supporter body 1480 is formed long in the left and right directions, and the bottom wheel 1456 is arranged in the left and right directions.
  • the supporter body 1480 is formed to be concave to the rear side, the rail insertion portion 1486 into which the lower rail 206 of the door assembly 200 is inserted, and the wheel shaft 1483 of the bottom wheel 1456 is inserted.
  • the rotating shaft hole (1481) is included.
  • the rail inserting portion 1486 is formed in the left and right directions.
  • the rail insertion portion 1486 is located at a rear side of the bottom wheel 1456. When viewed from the front, the upper end of the bottom wheel 1456 overlaps the rail inserting portion 1486.
  • the bottom wheel 1456 is positioned at an upper end lower than an upper end 1486a of the rail insertion unit 1486 and higher than a lower end 1486b of the rail insertion unit 1486.
  • the rotary shaft hole 1441 is positioned lower than the lower end 1486b of the rail inserting portion 1486.
  • the lower rail 206 of the door assembly 206 is inserted into the rail inserting portion 1486 and is supported on the upper end of the bottom wheel 1456. Through such a structure, a gap between the door assembly 200 and the bottom supporter 1450 may be minimized.
  • the door assembly 200 and the bottom supporter 1450 may be spaced apart in the front and rear directions, thereby minimizing the load applied to the bottom wheel and minimizing the load applied to the bottom supporter 1450. can do.
  • the bottom wheel 1456 is formed in a circular shape when viewed from the front, and the wheel groove 1456a is formed along the outer circumferential surface.
  • the lower rail 206 is mounted on the wheel groove 1456a.
  • the rotation shaft 1457 protrudes rearward from the bottom wheel 1456.
  • the rotary shaft 1457 and the bottom wheel 1456 are integrally manufactured.
  • the wheel shaft 1483 penetrates the rotation shaft 1457.
  • the bottom wheel 1456 may be rotated while assembled to the wheel shaft 1483.
  • the wheel shaft 1483 penetrates the bottom wheel 1456 and the rotation shaft 1575 and is installed to penetrate the rotation shaft hole 1441 of the supporter body 1480.
  • a shaft fixing member 1485 which is engaged with the wheel shaft 1483 is disposed at the rear side of the supporter body 1480.
  • the supporter body 1480 is formed with a shaft fixing member groove 1484 formed concave from the rear side to the front side.
  • the wheel shaft 1483 may be fixed to the shaft fixing member 1485 through the support body 1480, and the bottom wheel 1456 may be rotated while penetrating the wheel shaft 1483.
  • the sensor installation unit 1458 is disposed in the support body 1480, and in this embodiment, is formed to penetrate the support body 1480.
  • the door detection sensor 207 is disposed in the sensor installation unit 1458.
  • the door sensor 207 detects a slide moving distance of the door assembly 200.
  • the position sensing factor 208 is disposed in the door assembly 200.
  • the position detection factor 208 corresponds to the door detection sensor 207.
  • the position sensing factor 208 is disposed on the rear surface of the door assembly 200, and specifically, is installed on the rear surface of the loafer panel module 1120.
  • a hall sensor and a permanent magnet are used to detect the left and right moving distances of the door assembly 200.
  • the door sensor 207 is a hall sensor
  • the position detection factor 208 is a permanent magnet is used.
  • a photo sensor may be used as the door detection sensor, and a rib disposed in the door assembly may be used as the position detection factor.
  • the rib blocks the optical signal of the photosensor, the left and right moving distances of the door assembly may be determined.
  • the camera module 1900 is disposed in the door assembly 200 (upper panel module 1110 in this embodiment) and is selectively operated.
  • the camera module 1900 is exposed out of the door assembly 200 only during operation, and is hidden inside the door assembly 200 when it is not operated.
  • FIG. 4 is a perspective view of the humidifying assembly and the water tank shown in Figure 3 assembled in the lower cabinet.
  • Figure 5 is a rear side perspective view of the humidifying assembly according to an embodiment of the present invention.
  • 6 is an exploded perspective view of the water tank and the water supply assembly according to an embodiment of the present invention.
  • FIG. 7 is an exploded perspective view seen from the bottom of FIG. 6.
  • 8 is a left cross-sectional view of FIG. 6.
  • 9 is a front sectional view of FIG. 6.
  • 12 is an enlarged view of FIG. 11.
  • FIG. 13 is a front view showing the inside of the lower cabinet shown in FIG. 2.
  • 14 is a cross-sectional view showing the humidifying assembly and the water tank shown in FIG. 15 is a perspective view of FIG. 14.
  • the humidifying assembly 2000 may provide moisture to the discharge passages of the fan assemblies 300 and 400, and the provided moisture may be discharged to the room.
  • the humidifying assembly 2000 may be selectively operated by an operation signal of a controller.
  • the moisture supplied from the humidifying assembly 2000 may be directly supplied to the side discharge ports 301 and 302.
  • the moisture supplied from the humidifying assembly 2000 may be in an atomized state or in a steam state.
  • the humidifying assembly 2000 converts the water in the water tank 2100 into steam and supplies the steam to the discharge passage.
  • the humidifying assembly 2000 is disposed below the cabinet assembly 100, and is specifically located inside the lower cabinet 120.
  • the humidifying assembly 2000 is installed on the base 110 and is wrapped through the lower cabinet 120.
  • the drain pan 140 is positioned above the humidifying assembly 2000, and the steam generated by the humidifying assembly 2000 flows directly to the side discharge ports 301 and 302 through the steam guide 2400. That is, the space in which the humidifying assembly 2000 is installed and the space inside the upper cabinet 110 are partitioned.
  • the humidifying assembly 2000 is disposed in the cabinet assembly 100, and the water tank 2100 in which water is stored and the cabinet assembly 100 are supplied to supply water stored in the water tank 2100.
  • a steam generator 2300 which converts the water stored therein into steam to generate humidified air, and is disposed in the cabinet assembly 100, coupled to the steam generator 2300, and coupled to the filter assembly 600.
  • the humidifying fan 2500 for supplying the filtered air to the steam generator 2300 and the cabinet assembly 100, and the humidifying air generated in the steam generator 2300 through the independent flow path.
  • a steam guide 2400 leading to the side discharge ports 301 and 302 of the 100 and the cabinet assembly 100, the water tank 2100 is detachably mounted, and the water tank 2100.
  • Water of the steam generator The water supply assembly 2200 provided to the rotor 2300 and the cabinet assembly 100 or the water supply assembly 2200 are disposed and selectively tilt the water tank 2100 forward according to an electrical signal. And a tilting assembly for returning the water tank, which has been tilted forward, to its original position, and connected to the water supply assembly 2200 and the steam generator 2300, and supplies water from the water supply assembly 2200 and the steam generator 2300. It includes a drain assembly draining to the outside.
  • the water tank 2100 is exposed to the outside when the first stage of the door assembly 200 is opened, and is not exposed to the outside when the door assembly 200 is not opened.
  • the door assembly 200 is slidably moved in the left and right directions by the operation of the door slide module 1300.
  • the state in which the entire water tank opening 167 is exposed is defined as one stage opening, and the state in which the opening surface 169 is exposed is defined as two stage opening.
  • the exposed front surface of the cabinet assembly 100 when the first stage is opened is defined as the first opening surface OP1, and the exposed front surface of the cabinet assembly when the second stage is opened as the second opening surface OP2.
  • At least a part of the front surface of the water tank 2100 is formed of a material that can see the water inside.
  • the water tank 2100 is located at the first opening surface OP1, and more specifically, at the water tank opening 167.
  • the water tank 2100 is inserted into the lower cabinet 120 through the water tank opening 167.
  • the water tank 2100 has a tank lower body 2110 mounted on the water supply assembly 2200, and an upper side and a lower side thereof are opened, and are coupled to an upper side of the tank lower body 2110, and the kangaroo body ( 2110, the lower side is closed, and the tank middle body 2120 for storing water therein, and the upper and lower sides are opened to form a water tank opening 2101, the upper side of the tank middle body 2120
  • the tank upper body 2130 to be coupled, the water tank handle 2140 rotatably assembled to the tank upper body 2130, and the tank lower body 2110 are assembled to the water stored in the water supply Water tank valve 2150 to selectively supply to the assembly (2200).
  • the tank lower body 2110 provides a bottom of the water tank 2100.
  • the tank lower body 2110 has a valve hole 2111 penetrated in the vertical direction, and the water tank valve 2150 is assembled to the valve hole 2111.
  • the valve hole 2111 is located at the rear side when viewed from the side of the water tank 2100.
  • the distance from the center of the valve hole 2111 to the front surface of the water tank (tankfront wall described later in this embodiment) is defined as T1, and the rear surface of the water tank at the center of the valve hole 2111 (this embodiment Is defined as T2. Wherein the T1 is formed longer than the T2.
  • the water tank valve 2150 is quickly closed only when the water tank 2100 is rapidly separated from the water supply assembly 2200 during the operation of the tilting assembly. Since the water tank 2100 is tilted forward based on the lower end of the water tank 2100, the water tank valve 2150 is preferably located at the rear side.
  • tank lower body 2110 is rectangular in top view.
  • Tank lower body 2110 is formed in a rectangular parallelepiped shape as a whole, the lower side is opened.
  • the tank lower body 2110 has a lower body space 2112 formed therein, and the lower body space 2112 is opened downward. Some components of the water supply assembly 2200 may be inserted into the lower body space 2112.
  • the tank lower body 2110 is detachably mounted to the water supply assembly 2200.
  • the tank lower body 2110 is closed on the front, left side, right side, and upper side.
  • the rear surface of the tank lower body 2110 may be partially opened for assembly with the tilting assembly.
  • the assembling structure of the tilting assembly and the water tank 2100 will be described later.
  • the tank middle body 2120 includes a middle body upper opening 2121 having an upper side opened, and a middle body lower opening 2122 having a lower side opened.
  • the tank middle body 2120 has a front side, a left side, a right side, and a back side closed, and only the upper side and the lower side are opened.
  • the tank middle body 2120 includes a tank front wall 2123, a tank left wall 2124, a tank light wall 2125, and a tank rear wall 2126.
  • the tank front wall 2123, the tank left wall 2124, and the tank light wall 2125 are vertically disposed in the vertical direction.
  • the tank rear wall 2126 is vertically disposed, and the curve is formed in the front-rear direction.
  • the tank rear wall 2126 is coupled to the tank lower body 2110, and is coupled to the first rear wall 2126a which forms a continuous surface with the rear surface of the tank lower body 2110, and the tank upper body 2130. And a second rear wall 2126b formed on a surface continuous with the tank upper body 2130 and positioned at a front side of the first rear wall 2126a, and the first rear wall 2126a and the first surface. 2 includes a connect wall 2126c connecting the rear wall 2126b.
  • the connect wall 2126c is formed to be inclined with respect to the vertical direction.
  • the connect wall 2126c has a high front side and a low rear side.
  • the first rear wall 2126a is located on the rear side with respect to the connect wall 2126c, and the second rear wall 2126b is located on the front side with respect to the connect wall 2126c.
  • the first rear wall 2126a and the second rear wall 2126b form a distance difference of T3 with respect to the front-rear direction.
  • the flat cross-sectional area of the tank middle body 2120 including the first rear wall 2126a is larger than the flat cross-sectional area of the tank middle body 2120 including the second rear wall 2126b.
  • the center of gravity of the water tank 2100 may be formed at the rear side.
  • the tank upper body 2130 is coupled to an upper end of the tank middle body 2120.
  • the tank upper body 2130 is formed in a rectangular shape when viewed from the top view.
  • the tank upper body 2130 is opened in the vertical direction.
  • the tank upper body 2130 forms an upper body opening 2131 which communicates with the middle body upper opening 2121.
  • the middle body opening 2121 is disposed below the upper body opening 2131.
  • the water tank handle 2140 is rotatably assembled to the tank upper body 2130.
  • the water tank handle 2140 is disposed inside the tank upper body 2130 and is hidden from the user when it is stored in the lower cabinet 120.
  • a handle installation groove 2132 in which the water tank handle 2140 is installed is formed inside the tank upper body 2130.
  • the handle installation groove 2132 is formed at the front side of the tank upper body 2130.
  • the handle installation groove 2132 is disposed within the thickness of the tank upper body 2130 and is formed concave downward from the upper side of the tank upper body 2130.
  • the handle installation groove 2132 is formed on the outside of the tank upper body 2130. Unlike the present embodiment, the handle installation groove 2132 may be disposed inside the tank upper body 2130.
  • the water tank handle 2140 is a handle body 2142 formed of a letter "C", a handle shaft 2144 for rotatably coupling the handle body 2142 and the tank upper body 2130, and the handle body ( 2142 or a handle shaft 2144, and includes a handle elastic member (not shown) supported by the tank upper body 2130.
  • the handle elastic member provides an elastic force in a direction of raising the front side end of the handle body 2142.
  • the handle elastic member may be a torsion spring.
  • the tank lower body 2110 is in close contact with the middle body lower opening 2122 and extends downwardly from the lower body top wall 2113 and the lower body top wall 2113 to seal the middle body lower opening 2122.
  • the lower body side wall 2114 seated on the water supply assembly 2200 and the valve hole 2111 protruding downward from the lower body top wall 2113 and penetrating the lower body top wall 2113 in the vertical direction. It includes a valve installation portion 2115 to form a.
  • the lower body top wall 2113 forms an upper surface of the tank lower body 2110 and shields the middle body lower opening 2122.
  • the lower body top wall 2113 and the middle body 2120 are ultrasonically welded to prevent leakage of water and seal the bottom of the middle body 2120.
  • the valve installation unit 2115 forms a valve hole 2111 penetrating the lower body top wall 2113 in the vertical direction.
  • the valve mounting portion 2115 is formed in a cylindrical shape.
  • the water tank valve 2150 is assembled to the valve installation unit 2115.
  • the water tank valve 2150 may be moved a predetermined distance in the vertical direction in the state of being assembled to the valve installation unit 2115, thereby opening the valve hole 2111.
  • the water tank valve 2150 has a function of a check valve functionally, and is structurally optimized for the structure of the present embodiment.
  • the valve installation unit 2115 is disposed in the cylindrical extension installation unit 2116 extending downward from the upper and lower lower body top wall 2113 and the extension installation unit 2116, and the water tank valve 2150. ) Includes an assembly installation unit 2117 to be assembled.
  • the extension installation portion 2116 is formed in a cylindrical shape, the upper side and the lower side is opened.
  • the assembly installation unit 2117 is formed across the inside of the extension installation unit 2116. In this embodiment, the assembly installation unit 2117 is formed in a horizontal direction.
  • the assembly installation unit 2117 divides the valve hole 2111 into an upper side and a lower side.
  • the upper side of the assembly mounting portion 2117 is defined as the upper valve hole 2111a, and the lower side of the assembly mounting portion 2117 is defined as the lower valve hole 2111b.
  • the tank lower body 2110 penetrates the assembly mounting portion 2117 in the vertical direction, and the assembly hole 2117a in which the water tank valve 2150 is assembled, and the assembly mounting portion 2117 in the vertical direction. It further includes an installation hole (2118) for penetrating the upper valve hole (2111a) and the lower valve hole (2111b).
  • the tank lower body 2110 penetrates the assembly mounting portion 2117 in the vertical direction, and the assembly hole 2117a in which the water tank valve 2150 is assembled, and the assembly mounting portion 2117 in the vertical direction. It further includes an installation hole (2118) for penetrating the upper valve hole (2111a) and the lower valve hole (2111b).
  • the assembly hole 2117a and the installation hole 2118 are both located inside the valve installation part 2115.
  • the assembly hole 2117a is disposed at the center of the valve installation unit 2115, and the installation hole 2118 is disposed outside the assembly hole 2117a.
  • the installation part hole 2118 is disposed between the extension installation part 2116 and the assembly hole 2117a.
  • the water tank valve 2150 is formed of an elastic material and a valve core 2152 movably assembled in a vertical direction with the valve installation unit 2115 of the tank lower body 2110, and the valve core 2152 is formed of an elastic material. And a diaphragm 2154 selectively opening and closing the valve hole 2111 when the valve core 2152 is vertically moved.
  • the diaphragm 2154 is formed in a circular shape and larger than the diameter of the valve hole 2111.
  • the upper end of the diaphragm 2154 is located above the valve hole 2111, and the lower end is located inside the valve hole 2111.
  • the diaphragm 2154 has a bowl shape concave downward.
  • the valve core 2152 penetrates the center of the diaphragm 2154 in the up and down direction.
  • the diaphragm 2154 provides an elastic force to be restored outward from the center side.
  • valve supporter 2250 When the water tank valve 2150 installed in the water tank 2100 is mounted on the water supply assembly 2200, the lower end of the valve core 2152 contacts the valve supporter 2250 described later.
  • a water tank valve 2150 including the diaphragm 2154 is positioned at the valve supporter 2250, and the water tank valve 2150. Except for the remaining configuration of the water tank 2100 is moved to the lower side.
  • the diaphragm 2154 opens the valve hole 2111.
  • the diaphragm 2154 closes the valve hole 2111 by the pressure of water.
  • the water supply assembly 2200 supplies the water of the water tank 2100 to the steam generator 2300.
  • the water supply assembly 2200 supplies water to the steam generator 2300 by opening the water tank valve 2150 of the water tank 2100 only when the water tank 2100 is mounted.
  • the water supply assembly 2200 supports the water tank 2100 and provides a flow path flowing from the water tank 2100 to the steam generator 2300.
  • the water supply assembly 2200 may open and close the water tank valve 2150 according to the water level stored in the steam generator 2300.
  • the opening and closing of the water tank valve 2150 is implemented through mechanical arrangement instead of being operated by an electrical signal.
  • the electric wiring according to this may be exposed to moisture or water, resulting in malfunction and safety.
  • the water supply assembly 2200 has a function of providing a tilting angle of the water tank 2100 when the water tank 2100 is tilted by the tilting assembly.
  • the water supply assembly 2200 suppresses excessive tilting of the water tank 2100.
  • the water supply assembly 2200 is disposed in the cabinet assembly 100 (in this embodiment, the base), temporarily stores the water supplied from the water tank 2100 in the supply chamber 2211, and supplies the supply chamber 2211.
  • the supply chamber housing 2210 for supplying the water stored in the supply to the steam generator 2300, and the supply chamber 2211 of the supply chamber housing 2210, the water level of the water stored in the supply chamber 2211 A supply plotter 2220 moved upward and downward along the supply chamber housing 2210 and covering the upper side of the supply chamber 2211 and supplying water supplied from the water tank 2100.
  • a part of the supply flow path 2231 which leads to the chamber 2211 is formed, and a supply support body 2230 which supports the water tank 2100 to provide a tilting angle when the water tank 2100 is tilted, and the Supply Is disposed on the support body 2230, when the water tank 2100 is mounted, the water tank valve (2150) of the water tank (2100) is opened to open the water tank valve (2150), the water tank valve ( A valve supporter 2250 providing a part of the supply passage 2231 for guiding the water discharged from 2150 to the supply chamber 2111 and the water tank 2100 are detachably mounted;
  • the water tank valve 2150 is disposed below the water tank 2100, a valve supporter 2250 and a supply support body 2230 are disposed below the water tank valve 2150, and the valve supporter ( 2250, the supply plotter 2220 is disposed, and the supply plotter 2220 is moved up and down within the height of the supply chamber 2211.
  • Water in the water tank 2100 flows to the supply chamber 2211 through the water tank valve 2150, the water bellows 2240, and the supply flow path 2231.
  • the supply chamber 2211 temporarily stores the supplied water, and the water flows to the steam generator 2300 by potential energy due to its own weight.
  • the supply chamber housing 2210 is installed on the upper surface of the base 130 of the cabinet assembly 100.
  • the supply chamber housing 2210 temporarily stores the water supplied from the water tank and provides the stored water to the steam generator 2300.
  • the supply chamber housing 2210 may provide an installation space of the supply plotter 2220, and the supply plotter 2220 may be moved up and down in the supply chamber housing 2210.
  • the supply chamber housing 2210 is disposed inside the chamber housing body 2212 provided above the base 130 of the cabinet assembly 100 and inside the chamber housing body 2212, and is opened upward. It is formed concave downward, the supply chamber 2211 for temporarily storing water, disposed in the chamber housing body 2212, communicated with the supply chamber 2211, the water stored in the chamber housing 2212 And a chamber housing pipe 2214 providing water to the steam generator 2300.
  • the tilting assembly utilizes an installation structure of the supply chamber housing 2210.
  • the supply chamber housing 2210 is a component in which a tilting assembly to be described later is assembled, and a structure thereof will be described in more detail when describing the tilting assembly.
  • the supply chamber 2211 is opened upward.
  • the open upper side of the supply chamber 2211 is defined as the chamber opening surface 2213.
  • the supply plotter 2220 is disposed in the supply chamber 2211.
  • the supply chamber 2211 is formed in a cylindrical shape.
  • the supply plotter 2220 has a circular cross section in a circular shape corresponding to the shape of the supply chamber 2211.
  • the flat cross-sectional shape of the supply chamber 2211 corresponds to the flat cross-sectional shape of the supply plotter 2220, which is preferable for the movement of the supply plotter 2220.
  • the flat cross-sectional shape of the supply chamber 2211 may be freely formed, but when it is formed in the angular shape, a jam may be generated when the supply plotter 2220 moves up and down, and an installation volume may be increased.
  • the bottom surface 2211a of the supply chamber 2211 is formed to be inclined.
  • the bottom surface 2211a is formed to be inclined toward the chamber housing pipe 2214.
  • the chamber housing pipe 2214 is in communication with the inside of the supply chamber 2211.
  • the inner end 2214a of the chamber housing pipe 2214 communicates with the supply chamber 2211, and the outer end 2214b protrudes out of the supply chamber 2211.
  • the bottom surface 2211a of the supply chamber 2211 is formed to be the same as or higher than the inner end 2214a of the chamber housing pipe 2214, thereby preventing water from remaining in the supply chamber 2211.
  • the outer end 2214b of the chamber housing pipe 2214 is disposed below the bottom surface of the supply chamber 2211, and water stored in the supply chamber 2211 flows to the chamber housing pipe 2214 by its own weight.
  • the outer end 2214b of the chamber housing pipe 2214 is disposed lower than the bottom surface 2211a of the supply chamber 2211.
  • the bottom surface 2211a of the supply chamber 2211 is positioned within the height of the inner end 2214a of the chamber housing pipe 2214.
  • the inner end 2214a of the chamber housing pipe 2214 When the inner end 2214a of the chamber housing pipe 2214 is higher than the bottom of the supply chamber 2211, water remaining in the supply chamber 2211 may be generated, thereby causing the growth of bacteria or mold. Can be.
  • the inner end 2214a of the chamber housing pipe 2214 may be formed to be the same as or lower than the bottom surface of the supply chamber 2211.
  • the humidification assembly 2000 When the humidification assembly 2000 is not used (for example, when the humidity is long in the summer or when the storage period is long in the water tank), all the water in the humidification assembly 2000 including the water tank 2100 is stored inside. It does not remain but is drained to the outside.
  • the present embodiment provides a structure in which the water supplied from the water tank 2100 does not remain in the process of flowing and may be moved by its own weight.
  • the outer end 2214b of the chamber housing pipe 2214 is connected to the steam generator 2300 and supplies water to the steam generator 2300.
  • the water in the water tank 2100 flows to the steam generator 2300 by the potential energy.
  • the valve supporter 2250 is disposed below the water tank valve 2150.
  • the valve supporter 2250 interferes with the water tank valve 2150 when the water tank 2100 is mounted on the water supply assembly 2200, and opens the water tank valve 2150.
  • the valve supporter 2250 is formed in a sharp shape at an upper side thereof, and supports the valve core 2152 of the water tank valve 2150.
  • valve supporter 2250 interferes with the valve core 2152 and pushes up the water tank valve 2150 upwards. Through the valve hole 2111 is opened.
  • the valve supporter 2250 may be manufactured separately, but in the present embodiment, the valve supporter 2250 is manufactured integrally with the supply support body 2230 through injection molding. In order to contact the water tank valve 2150, the valve supporter 2250 should be exposed upward from the supply support body 2230.
  • the valve supporter 2250 may be formed in various forms.
  • the valve supporter 2250 includes a first valve supporter 2252 and a second valve supporter 2254.
  • the first valve supporter 2252 and the second valve supporter 2254 are spaced apart from each other to form a valve supporter gap 2256. Water may flow between the valve supporter gaps 2256.
  • the first valve supporter 2252 and the second valve supporter 2254 are vertically disposed, and the valve supporter gap 2256 is also disposed in the vertical direction.
  • the valve core 2152 is disposed above the valve supporter gap 2256.
  • first valve supporter 2252 and the second valve supporter 2254 are spaced apart from each other, the first valve supporter 2252 and the second valve supporter 2254 support the lower end of the valve core 2152. In addition, water discharged from the water tank 2100 may flow into the valve supporter gap 2256.
  • valve supporter gap 2256 The lower end of the valve supporter gap 2256 is opened.
  • An upper side of the valve supporter gap 2256 opens toward the upper side of the supply support body 2230, and a lower side of the valve supporter gap 2256 opens toward the lower side of the supply support body 2230.
  • valve supporter 2250 since the valve supporter 2250 is manufactured integrally with the supply support body 2230, a lower side of the valve supporter gap 2256 forms a middle hole 2258 in communication with the supply chamber 2211. do.
  • the middle hole 2258 forms part of the supply passage 2231.
  • the middle hole 2258 is formed below the valve supporter gap 2256 in the present embodiment, the middle hole 2258 may be formed in the supply support body 2230 unlike the present embodiment.
  • the middle hole 2258 is formed to penetrate the supply support body 2230 in the vertical direction.
  • the middle hole 2258 communicates the internal space of the water bellows 2240 and the supply chamber 2211.
  • the valve supporter 2250 is located inside the water bellows 2240. Thus, the water discharged through the valve hole 2111 is stored in the water bellows 2240 and flows to the supply chamber 2111 through the middle hole 2258.
  • the middle hole 2258 is preferably located inside the water bellows 2240.
  • a separate configuration for guiding the water discharged from the water tank 2100 to the middle hole 2258 is disposed, or the discharged water is different.
  • a configuration for blocking flow to the air must be disposed in the supply support body 2230.
  • the contact portion (lower end of the valve core and upper end of the valve supporter) of the water tank valve 2150 and the valve supporter 2250 is located inside the water bellows 2240.
  • the water bellows 2240 provides a space for temporarily storing the water discharged from the water tank 2100 like the supply chamber 2211. This configuration will be described in more detail in the configuration of the water bellows 2240.
  • the supply support body 2230 is disposed above the supply chamber housing 2210 and covers the upper side of the supply chamber 2211.
  • the supply chamber 2211 seals the upper surface and prevents water in the supply chamber 2211 from leaking out of the supply chamber housing 2210.
  • the supply support body 2230 has a part of the supply passage 2231 for guiding the water supplied from the water tank 2100 to the supply chamber 2211, and in this embodiment, the valve supporter 2250.
  • the middle hole 2258 of this is replaced.
  • the supply support body 2230 supports the water tank 2100 and supports the water tank 2100 rotated when the water tank 2100 is tilted.
  • the supply support body 2230 is disposed above the supply chamber housing 2210, and covers the supply body plate 2232 and the supply body plate 2232 that cover the upper side of the supply chamber 2211.
  • a middle hole 2258 that penetrates through the water tank 2100 and forms a part of the supply flow path 2231 connecting the supply chamber 2211, and protrudes below the supply body plate 2232;
  • the plotter guide 2234 for guiding the movement direction of the supply plotter 2220, and in the supply body plate 2232
  • the supply body plate 2232 is disposed above the supply chamber housing 2210 and covers a chamber opening surface 2213 forming an upper surface of the supply chamber 2211, and the chamber of the supply chamber 2211.
  • the opening surface 2213 is sealed.
  • a sealing rib 2231 protruding downward from the supply body plate 2232 is further formed.
  • the sealing rib 2231 is formed in a shape corresponding to the chamber opening surface 2213 of the supply chamber 2211.
  • a supply chamber gasket 2233 for sealing is further disposed between the sealing rib 2231 and the supply chamber housing 2210.
  • the supply chamber gasket 2233 corresponds to the edge shape of the chamber opening surface 2213.
  • the supply chamber gasket 2233 is formed of an elastic material and is disposed between the supply chamber housing 2210 and the supply support body 2230.
  • the middle hole 2258 penetrates the supply body plate 2232 in the vertical direction, and connects the supply chamber 2211 to the water tank 2100.
  • the middle hole 2258 forms a part of the supply flow path 2231, and flows water discharged from the water tank 2100 under the supply support body 2230.
  • the middle hole 2258 is disposed in the valve supporter 2250. Unlike the present embodiment, a separate middle hole penetrating the supply body plate 2232 may be disposed. In this case, the middle hole 2258 is located inside the water bellows 2240. That is, unlike the present embodiment, a middle hole separate from the middle hole 2258 of the valve supporter 250 may be disposed in the water bellows 2240.
  • the plotter guide 2234 protrudes downward from the bottom of the supply body plate 2232.
  • the plotter guide 2234 is in communication with the middle hole 2258.
  • the plotter guide 2234 is positioned below the middle hole 2258 and guides water passing through the middle hole 2258 into the plotter guide 2234.
  • the plotter guide 2234 has a shape in which a lower side thereof is opened, and a portion of the upper side of the supply plotter 2220 may be inserted through the opened lower side surface.
  • the plotter guide 2234 guides the movement direction of the supply plotter 2220.
  • the plotter guide 2234 has a plotter guide internal space 2234S into which the supply plotter 2220 is inserted.
  • the middle hole 2258 is disposed above the plotter guide inner space 2234S, and the valve supporter gap 2256 is disposed above the middle hole 2258.
  • the valve supporter gap 2256, the middle hole 2258, and the plotter guide inner space 2234S may be arranged in a line to form a short distance for moving the water.
  • the middle hole 2258 is closed when the supply plotter 2220, which will be described later, is lifted and opened when it is lowered. Opening and closing of the middle hole 2258 through the supply plotter 2220 is made separately from opening and closing of the water tank valve 2150.
  • the tilting supporter 2236 protrudes upward from the supply body plate 2232.
  • the tilting supporter 2236 is manufactured integrally with the supply support body 2230 through injection molding.
  • the tilting supporter 2236 may be manufactured separately and then assembled to the supply support body 2230.
  • the tilting supporter 2236 is disposed below the water tank 2100 because it is a structure for supporting the water tank 2100.
  • the tilting supporter 2236 may include a first supporter part 2236a for vertically supporting the water tank 2100 before the water tank 2100 is tilted, and the water tank 2100 after the water tank 2100 is tilted. And a second supporter part 2236b for supporting the tank 2100 inclinedly.
  • the first supporter part 2236a protrudes upward of the supply body plate 2232 and extends in the front-rear direction. An upper end of the first supporter part 2236a is horizontally disposed. In this embodiment, the first supporter part 2236a is positioned higher than the upper end of the valve supporter 2250.
  • the second supporter part 2236b protrudes above the supply body plate 2232 and is disposed in the front-rear direction.
  • the upper end of the second supporter part 2236b is inclined.
  • the second supporter part 2236b is disposed to be inclined in the tilting direction of the water tank 2100.
  • the second supporter part 2236b provides a tilting surface 2237 having a high rear and a low front.
  • the tilting slope 2237 is formed on an upper surface of the second supporter part 2236b.
  • the tilting slope 2237 is formed to be inclined from the rear to the front lower side.
  • the tilting slope 2237 forms a predetermined tilting angle with the bottom of the water tank 2100.
  • the tilting slope 2237 may be formed at 10 degrees or more and 45 degrees or less.
  • the water tank 2100 should not be inverted.
  • the water tank handle 2140 is exposed to the user, it should be rotated upward and deployed.
  • the supply tilting cover 2260 is disposed below the water tank 2100, and the water tank 2100 is detachably mounted. In this embodiment, the supply tilting cover 2260 is disposed between the water tank 2100 and the supply support body 2230.
  • the supply tilting cover 2260 When the water tank is tilted, the supply tilting cover 2260 is relatively rotated with the supply support body 2230 while being supported by the supply support body 2230.
  • the supply tilting cover 2260 is disposed to penetrate the water supply valve of the water tank, and the water tank valve 2150 is in contact with the valve support 2250 through the supply tilting cover 2260.
  • the supply tilting cover 2260 may be detachably inserted into the tank lower body 2110 constituting the lower portion of the water tank 2100.
  • the supply tilting cover 2260 is opened at a lower side thereof and is closed at an upper surface and a side surface thereof.
  • the supply tilting cover 2260 the lower portion of the water tank (2100) is detachably mounted, is tilted mounted on the supply support body 2230, the tilting cover body (tilted by the operation of the tilting assembly ( 2262, a valve insertion hole 2221 which penetrates the tilting cover body 2262 in the vertical direction and communicates with the valve hole 2111 of the water tank 2100, and a lower side of the tilting cover body 2262. And a tilting cover sidewall 2264 extending to the side.
  • the tilting cover body 2262 is disposed substantially horizontally.
  • the valve insertion hole 2226 is formed in the tilting cover body 2262.
  • the valve insertion hole 2226 penetrates the tilting cover body 2262 in the vertical direction and receives water from the valve hole 2111.
  • the valve insertion hole 2226 is disposed below the valve hole 2111.
  • An upper end 2237a of the tilting slope 2227 is supported on a lower side of the tilting cover body 2262.
  • the supply tilting cover 2260 may be tilted forward while being supported by the upper end 2237a of the tilting slope 2237.
  • valve mounting portion 2115 of the water tank 2100 penetrates through the valve insertion hole 2226 and the tilting cover body 2262. It penetrates through and protrudes downward.
  • the water tank valve 2150 and the valve supporter 2250 may interfere with each other.
  • a configuration for fixing the water bellows 2240 to the tilting cover body 2262 is disposed around the valve insertion hole 2226.
  • the water bellows 2240 is formed of an elastic material.
  • the water bellows 2240 is fixed to the supply tilting cover 2260 and the supply support body 2230, and provides water discharged from the water tank to the supply support body 2230.
  • the water bellows 2240 prevents water discharged from the water tank 2100 from leaking.
  • the water bellows 2240 is elastically deformed and stretched when the water tank 2100 is tilted.
  • the water bellows 2240 connects between the supply tilting cover 2260 and the supply support body 2230 even when the water tank is tilted.
  • the water bellows 2240 is formed in the shape of a corrugated pipe.
  • the upper end of the water bellows 2240 is fixed to the supply tilting cover 2260, and the lower end is fixed to the supply support body 2230.
  • a bellows cap 2242 for fixing the upper end of the water bellows 2240 to the supply tilting cover 2260 is further disposed.
  • the bellows cap 2242 is disposed above the supply tilting cover 2260, and presses an upper end of the water bellows 2240 to an upper side of the supply tilting cover 2260.
  • the bellows cap 2242 may be fixed to the supply tilting cover 2260 through fastening or interference fit.
  • the bellows cap 2242 is fixed to the supply tilting cover 2260 through fastening. This facilitates replacement when the water bellows 2240 is damaged or broken.
  • the supply plotter 2220 is disposed in the supply chamber 2211 and moves up and down in accordance with the level of the supply chamber 2211.
  • the supply plotter 2220 closes the valve hole 2258.
  • the valve hole 2258 is closed, no water is supplied to the supply chamber 2211, and the water in the supply chamber 2211 is moved to the steam generator 2300 through the chamber housing pipe 2214.
  • the water level in the supply chamber 2211 is lowered, and the height of the supply plotter 2220 is lowered, so that the valve hole 2258 can be opened. have.
  • the supply plotter 2220 is formed on the plotter body 2222 and the plotter body 2222 formed of a material having a specific gravity lower than that of water, and is formed to be concave from the upper side to the lower side.
  • a plotter valve 2270 that opens and closes the valve hole 2258 that forms part of the supply flow path 2231.
  • the support body inserting portion 2224 is formed to be concave downward at an upper side thereof, and the plotter guide 2234 is inserted therein.
  • the support body inserting portion 2224 is raised or lowered along the plotter guide 2234.
  • the support body insertion portion 2224 and the plotter guide 2234 are formed in a shape corresponding to each other. Since the plotter guide 2234 is formed in a cylindrical shape in this embodiment, the support body inserting portion 2224 is also formed in a cylindrical shape.
  • the support body inserting portion 2224 and the plotter guide 2234 are formed in the vertical direction, and mutually engaging in the lateral direction. Even if the supply plotter 2220 is moved to the lowermost side, the support body inserting portion 2224 and the plotter guide 2234 provide mutual engagement with respect to the lateral direction.
  • At least some of the support body inserting portion 2224 and the plotter guide 2234 are located within the same height.
  • the support body inserting portion 2224 and the plotter guide 2234 are at least partially overlapped in the horizontal direction.
  • the diameter of the support body insertion portion 2224 is smaller than the diameter of the plotter guide 2234.
  • the support body insertion portion 2224 is located inside the plotter guide 2234. This is for the installation structure of the plotter valve 2270.
  • the plotter valve 2270 is coupled to an upper side of the plotter valve core 2227 and the plotter valve core 2222 disposed in the plotter body 2222, and a plotter valve stopper for opening and closing the middle hole 2258 ( 2278).
  • the plotter valve core 2227 is assembled to the plotter body 2222.
  • the plotter valve core 2227 is disposed to penetrate the plotter body 2222 in an up and down direction, and the plotter body 2222 has a core hole 2223 through which the plotter valve core 2227 penetrates. Is formed.
  • the core hole 2223 is disposed inside the support body inserting portion 2224.
  • a core hole 2223 is formed at an inner side with respect to the support body insertion unit 2224, and a guide insertion groove 2225 is formed at an outer side thereof.
  • the core hole 2223 and the guide insertion groove 2225 are both extended in the vertical direction.
  • the support body inserting portion 2224 is disposed inside the plotter body 2222, is spaced apart from the plotter body 2222, forms the core hole 2223 inside and the guide insertion groove outside.
  • a support body bottom wall which connects the support body inner wall 2224a forming the 2225 to the support body inner wall 2224a and the plotter body 2222 and forms the guide insertion groove 2225 on the upper side thereof. 2224b).
  • the support body inner wall 2224a is formed in a long cylindrical shape in the vertical direction.
  • the support body bottom wall 2224b is formed in a ring shape when viewed from the top view.
  • An inner end of the support body bottom wall 2224b is connected to the plotter body 2222 and an outer end of the support body bottom wall 2224b is connected to the support body inner wall 2224a.
  • the plotter body 2222 and the support body inserting portion 2224 are manufactured integrally by injection molding. Unlike the present embodiment, the support body insertion unit 2224 may be separately manufactured and then assembled into the plotter body 2222.
  • the plotter valve core 2227 is disposed to penetrate the core hole 2223 in the vertical direction. An upper end of the plotter valve core 2227 protrudes upward from an upper end of the support body inner wall 2224 a, and a lower end of the plotter valve core 2227 protrudes lower than a lower end of the support body inner wall 2224 a.
  • the core support end 2273 is positioned lower than the support body bottom wall 2224b.
  • a plotter body groove 2226 is formed to be concave upward from the bottom of the plotter body 2222.
  • the plotter body groove 2226 communicates with the core hole 2223 and is formed below the core hole 2223.
  • the plotter body groove 2226 is positioned lower than the support body bottom wall 2224b.
  • the core support end 2273 is inserted into the plotter body groove 2226, and the core support end 2273 does not protrude below the bottom of the plotter body 2222, but is concealed in the plotter body groove 2226. .
  • a plotter valve stopper 2278 is assembled to an upper end of the plotter valve core 2227.
  • the plotter valve stopper 2278 is supported on the upper end of the support body inner wall 2224a in a state of being assembled to the plotter valve core 2227.
  • the plotter valve stopper 2278 has a triangular pyramid shape with a sharp upper side, and a sharp tip 2279 may be inserted into the valve hole 2258.
  • the spigot 2279 protrudes upwards from an upper end of the plotter body 2222.
  • the water flowing from the water tank 2100 to the supply chamber 2111 is subjected to two intermittent processes.
  • the water tank valve 2150 opens and closes the valve hole 2111 to control the flow of water.
  • the plotter valve 2270 opens and closes the middle hole 2258 to interrupt the flow of water.
  • the water level sensor for detecting the water level may be disposed in the supply chamber 2211, and an opening / closing valve may be disposed in the chamber housing pipe 2214 to adjust the amount of water supplied to the steam generator 2300.
  • This structure requires an additional level sensor and an on-off valve, which increases the manufacturing cost and requires an additional cable connection structure because it is controlled through an electrical signal.
  • the water level control in the steam generator 2300 is performed.
  • the water supply can be mechanically implemented.
  • the steam generator 2300 receives steam from the water supply assembly 2200 to generate steam. Since the steam generator 2300 generates steam by heating water, the steam generator 2300 may provide sterilized steam.
  • the steam generator 2300 is disposed in the steam housing 2310, the steam housing 2310, the steam heater 2320 to generate heat by an applied power source, and the steam housing 2310.
  • a water supply unit 2314 connected to the chamber housing pipe 2214 of the water supply assembly 2200 and receiving water, disposed in the steam housing 2310, connected to the steam guide 2400, and Steam discharging unit 2316 for supplying the steam generated in the steam guide 2400, and disposed in the steam housing 2310, is connected to the humidification fan 2500, from the humidifying fan 2500 It includes an air suction unit 2318 receives the filtered air in the cabinet assembly (100).
  • the steam housing 2310 has a structure sealed to the outside. Only the water supply unit 2314 and the steam discharge unit 2316 communicate with the steam housing 2310. The steam housing 2310 is installed in the base 130.
  • the steam housing 2310 includes an upper team housing 2311 and a lower steam housing 2312.
  • the upper team housing 2311 has an open shape at an upper side thereof, and is formed concave downward.
  • the lower steam housing 2312 has an open shape at a lower side thereof, and is formed to be concave upward.
  • the water supply unit 2314 is disposed in the lower steam housing 2312, and the steam discharge unit 2316 is disposed in the upper steam housing 2311.
  • the water supply unit 2314 protrudes from the upper team housing 2311 toward the water supply assembly 2300.
  • the water supply unit 2314 is connected to the chamber housing pipe 2214 and disposed in the transverse direction.
  • the water supply unit 2314 has a hollow pipe shape.
  • the water supply unit 2314 is disposed lower than the chamber housing pipe 2214.
  • the water supply unit 2314 is disposed equal to or lower than the outer end 2214b of the chamber housing pipe 2214.
  • the water supply unit 2314 is connected to the lowermost side of the lower steam housing (2312).
  • a separate valve is not disposed in the water supply unit 2314.
  • the level of the supply chamber 2211 and the level of the steam housing 2310 may be the same.
  • the water level of the supply chamber 2211 and the water level of the steam housing 2310 are equally formed, and the supply of the water supply assembly 2200 is provided.
  • the plotter 2220 rises as the water level rises, and the supply plotter 2220 may close the middle hole 2258 to which water is supplied.
  • the chamber housing pipe 2214 is disposed within the height of the steam heater 2320.
  • the chamber housing pipe 2214 is disposed below the maximum water level of the steam generator 2300.
  • the middle hole 2258 is disposed higher than the maximum water level of the steam generator 2300. In the present embodiment, the middle hole 2258 forms a separation distance H from an upper end of the steam heater 2320.
  • the steam discharge unit 2316 is in communication with the inner of the upper housing (2311).
  • the steam discharge unit 2316 penetrates through the upper team housing 2311 in the vertical direction.
  • the steam discharge unit 2316 protrudes upward from an upper surface of the upper team housing 2311 to be connected to the steam guide 2400.
  • the air suction unit 2318 is disposed in the steam housing 2310, and more specifically, is disposed in the upper team housing 2311.
  • the air suction unit 2318 may communicate with the interior of the upper team housing 2311, and the air supplied from the humidifying fan 2500 may be introduced therein.
  • the air suction unit 2318 protrudes upward from an upper surface of the upper team housing 2311 to be connected to the humidifying fan 2500.
  • the air suction unit 2318 is disposed behind the steam discharge unit 2316.
  • the air suction unit 2318 is disposed closer to the humidification fan 2500 than the steam discharge unit 2316.
  • the air suction unit 2318 is connected to the humidification fan 2500 and receives filtered air from the humidification fan 2500.
  • the air suction unit 2318 receives the filtered air through the filter assembly 600.
  • the filtered air supplied to the air suction unit 2318 is introduced into the steam housing 2310 and discharged to the steam discharge unit 2316 together with the steam inside the steam housing 2310.
  • the inside of the steam generator 2300 may be minimized from being contaminated by bacteria or mold when the steam generator 2300 is not operated.
  • the steam generator 2300 may maximize the flow pressure of steam because the air flow of the humidification fan 2500 is supplied therein to push the steam out of the steam housing 2310.
  • the humidifying fan 2500 supplies air from the air intake side of the steam generator 2300, dew condensation generated in the flow of steam can be minimized.
  • the air of the humidifying fan 2500 pushes the steam inside the steam housing 2310 out of the steam housing 2310, a sufficient air flow rate can be ensured.
  • the condensed water may spontaneously evaporate due to the air flow rate because the flow rate of the air flowing the steam is sufficiently secured.
  • FIG. 16 is a partial cutaway cross-sectional view of the humidifying fan illustrated in FIG. 5.
  • 17 is a front view of the pair of diffusers shown in FIG. 5.
  • FIG. 18 is a rear view of the pair of diffusers shown in FIG. 5.
  • FIG. 19 is an exemplary view illustrating installation of the diffuser shown in FIG. 5.
  • 20 is an enlarged view of the diffuser of FIG. 17.
  • FIG. 21 is a top cross-sectional view of the diffuser outlet of the diffuser housing illustrated in FIG. 17.
  • FIG. 22 is a bottom cross-sectional view of the diffuser outlet of the diffuser housing illustrated in FIG. 17.
  • the steam guide 2400 supplies the steam of the steam generator 2300 to the discharge passage.
  • the discharge passage includes an air passage flowing by the far fan assembly 400 and an air passage flowing by the near fan assembly 300.
  • the discharge passage is disposed in the cabinet assembly 100 and is defined as until the air passing through the filter assembly 600 is discharged out of the cabinet assembly 100.
  • the steam guide 2400 guides the steam generated by the steam generator 2300 to the side discharge ports 301 and 302.
  • the steam guide 2400 provides a separate flow path separated from the air inside the cabinet assembly 100.
  • the steam guide 2400 may be in the form of a pipe or a duct.
  • the steam guide 2400 is coupled to the steam generator 2300, the main steam guide (2450) receiving the humidified air of the steam generator 2300 and the main steam guide (2450), the main steam A first branch guide 2410 for guiding a part of the humidified air supplied through the guide 2450 to the first side discharge port 301 and the main steam guide 2450, and the main steam guide 2450.
  • the second branch guide (2420) and the first branch guide (2410) for guiding the rest of the humidified air supplied through the second side discharge port 302, and is disposed in the first side discharge port (301)
  • a first diffuser 2430 for discharging the humidified air supplied through the first branch guide 2410 to the first side discharge port 301, and the second branch guide 2420. 2 is disposed in the side discharge port 302, through the second branch guide (2420) Geupdoen the humidified air and a second diffuser (2440) to the second discharge side of the discharge port (302).
  • first branch guide 2410 and the second branch guide 2420 may be directly coupled to the steam generator 2300.
  • the steam generator 2300 is provided with the respective steam discharge portion to which the first branch guide 2410 and the second branch guide 2420 are coupled.
  • only one branch guide may be disposed, and one branch guide may be provided to be coupled to one diffuser.
  • one diffuser may be disposed only in either the first side outlet or the second side outlet.
  • the diffuser is disposed at the side discharge port, but may be installed at the front discharge port. That is, the installation position of the diffuser is not limited to the side discharge port.
  • the main steam guide 2450 is formed in a duct shape.
  • the main steam guide 2450 guides air from the lower side to the upper side.
  • the main steam guide 2450 provides air (air mixed with steam and filtered air) supplied from the steam generator 2300 to the first branch guide 2410 and the second branch guide 2420.
  • Air supplied from the steam generator 2300 (air mixed with steam and filtered air) is branched from the main steam guide 2450 to the first branch guide 2410 and the second branch guide 2420.
  • the lower end of the main steam guide 2450 is coupled to the steam discharge unit 2316 of the steam housing 2310.
  • An upper end of the main steam guide 2450 is coupled to the first branch guide 2410 and the second branch guide 2420.
  • the main steam guide 2450 is opened at the lower side. On the upper side of the main steam guide 2450, a first guide coupling portion 2251, into which the first branch guide 2410 is assembled, and a second guide coupling portion 2452, into which the second branch guide 2420 is assembled. Is placed.
  • the first guide coupler 2245 and the second guide coupler 2452 penetrate in the vertical direction.
  • the first guide coupler 2245 and the second guide coupler 2452 are formed in a pipe shape.
  • the first branch guide 2410 is formed in a pipe shape corresponding to the planar cross section of the first guide coupling portion 2251.
  • the second branch guide 2420 is formed in the shape of a pipe corresponding to the flat cross section of the second guide coupling portion 2251.
  • the first branch guide 2410 and the second branch guide 2420 may have a length. It is formed differently.
  • Equal air is preferably supplied to the first branch guide 2410 and the second branch guide 2420.
  • the diameters of the first branch guide 2410 and the second branch guide 2420 may be differently formed to uniformly form the flow rates of the first branch guide 2410 and the second branch guide 2420. have.
  • the diameter of the short steam guide may be reduced, and the diameter of the long steam guide may be increased to uniformly form the flow rate.
  • the first diffuser 2430 and the second diffuser 2440 are symmetrical in the horizontal direction.
  • the first diffuser 2430 is assembled with the first branch guide 2410 and is disposed at the first side discharge port 301.
  • the first diffuser 2430 discharges the air supplied together with the steam through the first branch guide 2410 to the first side discharge port 301.
  • the first diffuser 2430 discharges the filtered air including steam in the air discharged from the first side discharge port 301.
  • the flow rate of the air discharged from the first diffuser 2430 and the flow rate of the air discharged through the first side discharge port 301 are similarly formed.
  • the flow rate of the discharged air discharged from the first side discharge port 301 is larger than that of the humidified air, the flow rate is preferably similar. This is because if one flow rate is larger, it acts as a resistance to the other flow rate.
  • the air discharged from the first side discharge port 301 may diffuse the steam discharged from the first diffuser 2430 farther.
  • the second diffuser 2440 also operates on the same principle.
  • the second diffuser 2440 is assembled with the second branch guide 2420 and is disposed at the second side discharge port 302.
  • the second diffuser 2440 discharges air supplied together with steam through the second branch guide 2420 to the second side discharge port 302.
  • the first diffuser 2430 and the second diffuser 2440 have the same structure, the first diffuser 2430 will be described as an example.
  • the first diffuser 2430 is discharged to the air side discharge port supplied with steam from the lower side.
  • the diffuser (the first diffuser and the second diffuser in this embodiment) has a space formed therein and penetrates through the diffuser housing 2460 having one side (lower side in this embodiment) opened and the diffuser housing 2460.
  • the diffuser outlets 2431 and 2441 and the diffuser housings 2432 and 2442 that are disposed outside the diffuser housing 2460 and fastened to the cabinet assembly 100, and the diffuser housings.
  • a diffuser inlet 2433 and 2443 disposed at the 2460 and assembled with the steam guides 2420 and 2430 and the diffuser housing 2460, and the diffuser outlet 2431 and 2441.
  • An upper diffuser barrier 2434 positioned at an upper side of the upper diffuser barrier 2434 and a lower diffuser barrier 2435 disposed at the diffuser housing 2460 and positioned below the diffuser outlet 2431 and protrudes upward. ).
  • the first diffuser outlet 2431 and the second diffuser outlet 2441 are defined.
  • the first diffuser inlet 2433 and the second diffuser inlet 2443 are defined.
  • the diffuser outlet 2431 is formed in a slit shape.
  • the diffuser outlet 2431 extends in the vertical direction.
  • a plurality of diffuser outlets 2431 may be disposed in the longitudinal direction of the diffuser housing 2460.
  • the diffuser outlet 2431 is disposed to face left or right.
  • the diffuser outlet 2431 is disposed near the side discharge ports 301 and 302 of the cabinet assembly 100.
  • the first diffuser outlet 2431 is disposed facing the left side of the cabinet assembly 100, and the second diffuser outlet 2441 is disposed facing the right side of the cabinet assembly 100.
  • the diffuser outlet 2431 may be disposed in front of the side discharge ports 301 and 302 and may flow humidifying air farther by the air flow discharged from the side discharge ports 301 and 302. .
  • the diffuser housing 2460 has a diffuser space 2461 formed therein.
  • the diffuser space 2461 is in communication with the diffuser inlet 2433 and the diffuser outlet 2431.
  • the diffuser space 2461 extends in the vertical direction. When viewed in plan view, the inside of the diffuser space 2461 is wide and the outside is formed narrow.
  • the diffuser outlet 2431 is disposed outside the diffuser space 2461.
  • the diffuser inlet 2433 is disposed below the diffuser space 2461.
  • the diffuser inlet 2433 is formed in a pipe shape.
  • the diffuser inlet 2433 is inserted into the steam guide 2420.
  • the insertion of the diffuser inlet 2433 into the steam guide 2420 is to prevent the condensate generated in the diffuser housing 2460 from leaking to the outside.
  • the condensed water formed inside the diffuser housing 2460 flows downward by the self-weight, is moved to the steam guide 2420 through the diffuser inlet 2433, and then through the main steam guide 2450, the steam generator 2300. ) Can be recovered.
  • condensate inside the diffuser housing 2460 may be naturally evaporated by the flowing air.
  • the condensed water formed in the diffuser housing 2460 may be recovered by the steam generator 2300 and discharged to the outside through the drain assembly.
  • the diffuser housing 2460 provides a structure for guiding the condensed water formed therein to the lower side. To this end, the diffuser upper wall 2442 and the diffuser lower wall 2464 forming the diffuser space 2461 form an inclined surface.
  • the diffuser upper wall 2246 is an inclined surface having a high outer side and a low inner side.
  • the diffuser upper wall 2462 forms an upper wall of the diffuser housing 2460.
  • the diffuser space 2461 is formed below the diffuser upper wall 2462.
  • the diffuser upper wall 2246 forms an inclination with respect to the left and right directions. The condensed water formed in the diffuser upper wall 2246 may be easily moved downward along the inclination of the diffuser upper wall 2246.
  • the diffuser lower wall 2464 is an inclined surface having a high outer side and a low inner side.
  • the diffuser lower wall 2464 forms a lower wall of the diffuser housing 2460.
  • the large diffuser space 2461 is formed above the diffuser lower wall 2464.
  • the diffuser lower wall 2464 forms an inclination with respect to the left and right directions. The condensed water formed in the diffuser lower wall 2464 may be easily moved downward along the inclination of the diffuser lower wall 2464.
  • the diffuser housing 2460 provides a structure capable of preventing the condensed water formed therein from being discharged to the outside.
  • the condensed water formed in the diffuser housing 2460 may be scattered out of the diffusers 2430 and 2440 by the flow pressure of the air supplied from the humidifying fan 2500.
  • the upper diffuser barrier 2434 and the lower diffuser barrier 2435 are disposed in the diffuser housing 2460.
  • the upper diffuser barrier 2434 is disposed in the diffuser upper wall 2462, and protrudes downward from the diffuser upper wall 2462.
  • the upper diffuser barrier 2434 may be disposed outside the diffuser upper wall 2242.
  • the upper diffuser barrier 2434 is disposed at the outermost side of the diffuser upper wall 2442, protrudes from the uppermost side of the diffuser upper wall 2462 to the lower side, and extends in the front-rear direction from the diffuser upper wall 2242. .
  • Upper diffuser barrier 2434 blocks the upper portion of the diffuser outlet to limit movement of the condensate.
  • the condensed water that is pushed out along the diffuser upper wall 2442 by the flow pressure of air is caught by the upper diffuser barrier 2434 to block the discharge to the outside.
  • the lower diffuser barrier 2435 is disposed in the diffuser lower wall 2464 and protrudes upward from the diffuser lower wall 2464.
  • the lower diffuser barrier 2435 is preferably disposed outside the diffuser lower wall 2464.
  • the lower diffuser barrier 2435 is disposed at the outermost side of the diffuser lower wall 2464, protrudes upward from the uppermost side of the diffuser lower wall 2464, and extends forward and backward at the diffuser lower wall 2464. .
  • Lower diffuser barrier 2435 blocks the lower portion of the diffuser outlet to limit the movement of condensate.
  • the condensed water that is pushed out along the diffuser lower wall 2464 by the flow pressure of air is caught by the lower diffuser barrier 2435 to prevent the discharge of the condensed water to the outside.
  • the diffuser housing 2460 forms a front surface of the diffuser space 2461, a front diffuser housing 2463 disposed to face the front, and a rear surface of the diffuser space 2461, and is disposed rearward.
  • a diffuser housing 2465 is disposed rearward.
  • the diffuser space 2441 is formed between the front diffuser housing 2463 and the rear diffuser housing 2465.
  • the diffuser outlet 2431 is disposed between an outer end 2463a of the front diffuser housing 2463 and an outer end 2465a of the rear diffuser housing 2465.
  • the diffuser outlet 2431 is formed with the outer end 2463a of the front diffuser housing 2463 and the outer end 2465a of the rear diffuser housing 2465 spaced apart in the front-rear direction.
  • the outer end 2463a of the front diffuser housing 2463 and the outer end 2465a of the rear diffuser housing 2465 define a separation distance D1 in the front-rear direction.
  • the outer end 2463a of the front diffuser housing 2463 protrudes outward more than the outer end 2465a of the rear diffuser housing 2465.
  • the left and right separation distances between the outer end 2463a of the front diffuser housing 2463 and the outer end 2465a of the rear diffuser housing 2465 are defined as D2.
  • the outer end 2463a of the front diffuser housing 2463 is located within the left and right widths of the door assembly 100. That is, the outer end 2463a of the front diffuser housing 2463 does not protrude outside the left edge or the right edge of the door assembly 100.
  • the outer end 2463a of the front diffuser housing 2463 may not protrude out of the side discharge grills 151 and 152. By arranging the outer end 2463a of the front diffuser housing 2463 inward from the side discharge grills 151 and 152, dew formation may be minimized on the surface of the door assembly 100.
  • the front diffuser housing 2463 is in close contact with the upper cover 162 covering the front surface of the upper cabinet 110.
  • the front diffuser housing 2463 is located behind the upper cover 162 and is in close contact with the rear surface of the upper cover 162.
  • the outer end 2463a of the front diffuser housing 2463 is formed to surround side edges of the upper cover 162.
  • the outer end 2463a of the front diffuser housing 2463 is positioned on the same line as the side surface of the upper cover 162.
  • the outer end 2463a of the front diffuser housing 2463 surrounds the side of the upper cover 162, the side surface of the upper cover 162 may be prevented from being exposed to the outside.
  • the outer end 2463a of the front diffuser housing 2463 forms a step with the front diffuser housing 2463 and protrudes forward.
  • the outer end 2463a of the front diffuser housing 2463 is exposed to the outside.
  • the outer end 2463a of the front diffuser housing 2463 is defined as a diffuser housing decor.
  • the diffuser housing decoration part is disposed at the rear edge of the door assembly 200 and does not protrude laterally than the side edge of the door assembly 200.
  • the diffuser housing decoration part is disposed to extend laterally than the outer end 2465a of the rear diffuser housing 2465, the straightness of the humidified air discharged from the diffuser 2430 may be improved.
  • the outer end 2465a of the rear diffuser housing 2465 is disposed inside the side discharge grills 151 and 152.
  • the outer end 2465a of the rear diffuser housing 2465 is disposed between the side discharge grills 151 and 152 and the front diffuser housing 2463.
  • the rear diffuser housing 2465 is disposed in an inclined direction of the side discharge grills 151 and 152 and minimizes resistance to air discharged through the side discharge ports 301 and 302.
  • the front diffuser housing 2463 is preferably disposed in the left and right directions. Since the front diffuser housing 2463 is disposed in the left and right directions, the straightness of the air in the lateral direction of the steam may be improved.
  • the diffuser space 2461 inside the diffuser housing 2460 is formed to be wider in the inner side and narrower in the outer side.
  • the diffuser space 2461 may be formed in the shape of a sharp wedge on the outside.
  • the diffuser outlet 2431 is disposed at a sharp portion of the diffuser space 2461.
  • the diffuser outlet 2431 is disposed in front of the side discharge ports 301 and 302.
  • the diffuser outlet 2431 is disposed at the rear of the door assembly 200 and is disposed at the front of the discharge grills 151 and 152.
  • the side discharge ports 301 and 302 discharge air toward the front right side and the front left side, and the humidifying air is discharged toward the front side side discharge ports 301 and 302.
  • the humidifying air may be flowed farther.
  • the humidifying assembly 2000 does not depend only on the output of the humidifying fan 2500 when the humidification is provided. If only relying on the output of the humidification fan 2500 to flow moisture further, the capacity of the humidification fan 2500 must be increased or the humidification fan 2500 must be operated at high speed.
  • moisture when the humidifying assembly 2000 is operated, moisture may be loaded into the air flow of the short-range fan assembly 300 so as to flow farther.
  • a humidification fan 2500 having a small output capacity it is possible to provide humidification to a far place in the room.
  • the diffuser outlet 2431 may be disposed in front of the side outlets 301 and 302 so that the humidifying air may flow farther.
  • the humidifying fan 2500 sucks the filtered air that has passed through the filter assembly 600, supplies it to the steam generator 2300, and filters the filtered air together with the steam generated by the steam generator 2300 to the steam guide 2400. To flow.
  • the humidifying fan 2500 generates an air flow for discharging steam and filtered air (humidified air in this embodiment) from the diffusers 2430 and 2440.
  • the humidifying fan 2500 sucks the filtration air passing through the filter assembly 600, the humidifying fan housing 2530 for guiding the sucked filtered air to the steam generator 2300, and the lower side of the humidifying fan housing. And a clean suction duct 2540 connected to the 2530, and having an upper side disposed in front of the filter assembly 600 to provide the filtered air passing through the filter assembly 600 to the humidification fan housing 2530.
  • a humidification impeller 2510 disposed in the humidification fan housing 2530 and flowing the filtered air of the humidification fan housing 2530 to the steam generator 2300, and disposed in the humidification fan housing 2530.
  • a humidifying motor 2520 for rotating the humidifying impeller 2510.
  • the clean suction duct 2540 provides the humidifying fan housing 2530 with the filtered air passing through the filter assembly 600.
  • the filter assembly 600 is disposed in the upper cabinet 110, the humidification fan 2500 is disposed in the lower cabinet 120, there is a height difference. That is, the filter assembly 600 is located above the humidifying fan 2500.
  • the filtered air passing through the filter assembly 600 flows to the near-field fan assembly 300, and the filtered air does not flow or is difficult to flow into the lower cabinet 120.
  • the lower cabinet 120 does not have a portion where air is discharged, filtered air does not flow or circulate into the lower cabinet 120 unless it is artificially supplied with air.
  • the upper end of the clean suction duct 2540 is located inside the upper cabinet 110, and the lower end is located inside the lower cabinet 120. That is, the clean suction duct 2540 provides a flow path for flowing the filtered air inside the upper cabinet 110 into the lower cabinet 120.
  • the clean suction duct 2540 is disposed in the upper cabinet 110, the first clean duct part 2252 for suctioning the filtration air, and the inside of the lower cabinet 120, and the humidifying fan housing 2530. And a second clean duct portion 2544 coupled to it.
  • the first clean duct part 2542 and the second clean duct part 2544 are integrally manufactured.
  • the first clean duct part 2542 is disposed to face the heat exchange assembly, and the second clean duct part 2544 is disposed to face the humidification fan housing 2530.
  • the first clean duct part 2542 is horizontally disposed, and the second clean duct part 2544 is vertically disposed.
  • the first clean duct part 2542 is located in front of the heat exchange assembly and is disposed to face the filter assembly 600. In this embodiment, the first clean duct part 2542 may be in close contact with the front surface of the heat exchange assembly. The first clean duct part 2542 is located at the lower front of the heat exchange assembly. The first clean duct part 2542 has a first clean duct opening surface 2541 opened toward the heat exchange assembly or the filter assembly 600.
  • the second clean duct part 2544 guides the filtered air supplied through the first clean duct part 2542 to the humidifying fan housing 2530.
  • a lower end of the second clean duct part 2544 is assembled to the humidifying fan housing 2530.
  • the second clean duct part 2544 may be disposed in an up and down direction, and may be disposed to cross the drain pan 140 in an up and down direction. In the present embodiment, the second clean duct part 2544 is located in front of the drain pan 140.
  • the second clean duct portion 2544 has a second clean duct opening surface 2543 communicating with the first suction opening surface 2252 of the first humidifying fan housing 2550, which will be described later.
  • the humidification fan housing 2530 is combined with a clean suction duct 2540, filtered air is sucked, and a first humidification fan housing 2550 having a first suction space 2551 formed therein, and the first humidification fan. Coupled with the housing 2550 receives the filtered air from the first humidifying fan housing 2550, a second suction space (2561) is formed therein, the humidification impeller 2510 is disposed therein, the The second humidification fan housing 2560 for guiding the filtration air to the steam generator 2300 by the operation of the humidification impeller 2510 and the first humidification fan housing 2550 are formed in the first suction space ( And a first suction opening surface 2252 and a second humidifying fan housing 2560 which are in communication with 2551 and open toward one side (upper side in this embodiment), and the second suction space 2601.
  • a second suction opening surface 2602 in communication with and open toward the other side (lower side in this embodiment) and the first humidifying fan housing 25.
  • a first suction space discharge part 2553 penetrating through the 50 and the second humidification fan housing 2560, and communicating the first suction space 2551 and the second suction space 2601, and the second humidification fan. It is disposed in the housing 2560, and includes a motor installation unit 2565 in which the humidifying motor 2520 is installed.
  • the first humidifying fan housing 2550 is provided with a first suction opening 2552 toward the upper side.
  • the clean suction duct 2540 is connected to the suction opening surface 2552.
  • the second humidification fan housing 2560 is formed with a second suction opening 2256 toward the lower side.
  • the opening direction of the first suction opening surface 2252 and the opening direction of the second suction opening surface 2252 are opposite.
  • the lower side 2554 of the first humidifying fan housing 2550 is formed in a round shape, and is located below the first suction space discharge part 2553.
  • the upper side surface 2564 of the second humidifying fan housing 2560 is formed in a round shape and positioned above the first suction space discharge part 2553.
  • a motor shaft (not shown) of the humidifying motor 2520 passes through the second humidifying fan housing 2560 and is assembled to the humidifying impeller 2510.
  • the motor installation unit 2565 protrudes rearward from the second humidifying fan housing 2560, and a humidification motor 2520 is inserted into the motor installation unit 2565.
  • the first humidification fan housing 2550 having the first suction space 2551 and the second humidification fan housing 2560 having the second suction space 2601 may be manufactured and assembled.
  • the humidification fan housing 2530 is manufactured by assembling three parts to simplify the assembly structure and reduce the manufacturing cost.
  • the humidification fan housing 2530 is formed to surround the front of the first suction space 2551, and constitutes a part of the first humidification fan housing 2550. Is formed to surround the rear of the first suction space (2551), is formed to surround the front of the second suction space (2561), the first suction space discharge portion (2553) is formed, the first humidifying fan housing ( The second humidifying fan housing part 2532 constituting the remainder of the second and second humidification fan housing 2560 and the second suction space (2561) is formed to surround the motor installation portion ( 2565 is disposed, and includes a third housing portion 2533 constituting the rest of the second humidification fan housing 2560.
  • the second humidifying fan housing 2532 is commonly used in the first humidifying fan housing 2550 and the second humidifying fan housing 2560, manufacturing cost can be reduced to simplify the number of parts.
  • a first suction space discharge part 2553 is formed in the second humidifying fan housing part 2532.
  • the first suction space discharge part 2553 is formed to penetrate the second humidifying fan housing part 2532 in the front-rear direction.
  • the first suction space discharge part 2553 protrudes toward the humidification impeller 2510 and is formed in a circular shape.
  • the second humidifying fan housing part 2532 forms the first suction space discharge part 2553, and an orifice part 2534 protruding toward the humidification impeller 2510 is formed.
  • a first suction space 2551 is disposed in front and a second suction space 2601 is disposed in the rear.
  • the humidifying impeller 2510 is a centrifugal fan that sucks air toward the center and discharges air in the circumferential direction.
  • the air discharged from the humidifying impeller 2510 flows to the steam generator 2300 through the second humidifying fan housing 2560.
  • the humidification impeller 2510 coupled with the humidification motor 2520 is rotated.
  • the humidifying impeller 2510 is rotated, air flow is generated in the humidifying fan housing 2530, and filtered air is sucked through the clean suction duct 2540.
  • the filtered air sucked through the clean suction duct 2540 passes through the first suction space 2551 and the first suction space discharger 92553 of the first humidification fan housing 2550 to the second humidification fan housing 2560. Flows.
  • the air flowed into the second humidification fan housing 2560 is pressurized by the humidification impeller 2510, flows downward along the second humidification fan housing 2560, and then the second suction opening 2256 is opened. Flow through the steam generator 2300 through.
  • the filtered air flowing into the steam housing 2310 through the air suction unit 2318 of the steam generator 2300 is discharged to the steam discharge unit 2316 together with the steam generated in the steam generator 2300.
  • the humidified air discharged from the steam discharge unit 2316 is branched from the main steam guide 2450 to the first branch guide 2410 and the second branch guide 2420.
  • the humidifying air flowing into the first branch guide 2410 is discharged to the first side discharge port 301 through the first diffuser 2440, and the humidifying air flowing into the second branch guide 2420 is the second diffuser. Through the 2450 is discharged to the second side discharge port (302).
  • the humidifying air discharged from the first side discharge port 301 is diffused to the left side of the cabinet assembly 100 together with the wind generated through the short-range fan assembly 300, and the humidification discharged from the second side discharge port 302.
  • the air diffuses to the right side of the cabinet assembly 100 along with the wind generated through the near fan assembly 300.

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Dispersion Chemistry (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Air Humidification (AREA)

Abstract

La présente invention comprend un ensemble module d'humidification destiné à produire de la vapeur, à produire de l'air humidifié au moyen du mélange de la vapeur produite avec de l'air filtré, à injecter l'air humidifié produit à partir d'un orifice d'évacuation par l'intermédiaire d'un circuit d'écoulement indépendant et à apporter ainsi l'air humidifié vers l'intérieur, et pouvant ainsi fonctionner en mode de refroidissement, et/ou de chauffage, et/ou de purification d'air et/ou d'humidification. Un générateur de vapeur transforme l'eau stockée en vapeur et produit de l'air humidifié, un ventilateur d'humidification alimente en air filtré, ayant traversé un ensemble filtre, le générateur de vapeur, et un élément de guidage de vapeur guide l'air humidifié, ayant été évacué du générateur de vapeur, vers l'orifice d'évacuation par l'intermédiaire du circuit d'écoulement indépendant. Par conséquent, l'air humidifié produite peut être évacué directement vers l'intérieur.
PCT/KR2019/003022 2018-03-16 2019-03-15 Unité intérieure pour climatiseur WO2019177414A1 (fr)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
KR1020180030777A KR102053125B1 (ko) 2018-03-16 2018-03-16 공기조화기의 실내기
KR10-2018-0030777 2018-03-16
KR10-2019-0017448 2019-02-14
KR1020190017448A KR102643576B1 (ko) 2019-02-14 2019-02-14 공기조화기의 실내기

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CN111121157A (zh) * 2020-01-20 2020-05-08 青岛海信日立空调系统有限公司 一种多联机用加湿系统
CN111189109A (zh) * 2020-03-04 2020-05-22 福州高新区玲富科技有限公司 一种用于空调水回收再利用的加湿器
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WO2022166010A1 (fr) * 2021-02-08 2022-08-11 广东美的制冷设备有限公司 Climatiseur
CN114930090A (zh) * 2020-02-07 2022-08-19 大金工业株式会社 空气处理装置
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CN111121157A (zh) * 2020-01-20 2020-05-08 青岛海信日立空调系统有限公司 一种多联机用加湿系统
CN111121157B (zh) * 2020-01-20 2023-05-30 青岛海信日立空调系统有限公司 一种多联机用加湿系统
CN114930090A (zh) * 2020-02-07 2022-08-19 大金工业株式会社 空气处理装置
CN111189109A (zh) * 2020-03-04 2020-05-22 福州高新区玲富科技有限公司 一种用于空调水回收再利用的加湿器
CN114623491A (zh) * 2020-12-09 2022-06-14 Lg电子株式会社 空调
CN114623491B (zh) * 2020-12-09 2023-11-14 Lg电子株式会社 空调
WO2022166010A1 (fr) * 2021-02-08 2022-08-11 广东美的制冷设备有限公司 Climatiseur
CN114576668A (zh) * 2022-03-28 2022-06-03 珠海格力电器股份有限公司 吸油烟机、清洗方法及加湿方法
CN114576668B (zh) * 2022-03-28 2023-02-28 珠海格力电器股份有限公司 吸油烟机、清洗方法及加湿方法
CN114738877B (zh) * 2022-04-29 2023-08-08 青岛海信日立空调系统有限公司 加湿设备
CN114738877A (zh) * 2022-04-29 2022-07-12 青岛海信日立空调系统有限公司 加湿设备
CN115097874B (zh) * 2022-08-22 2022-11-08 中国飞机强度研究所 飞机环境测试试验的密闭环境加湿系统及其参数优化方法
CN115097874A (zh) * 2022-08-22 2022-09-23 中国飞机强度研究所 飞机环境测试试验的密闭环境加湿系统及其参数优化方法

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