Provided is a humidifier, including a machine base, a water tank, a water suction pump, and a water inlet pipe. The machine base is located on the water tank, which includes an atomization water reservoir, a water feed base, a control base, an atomization air channel and an atomizer disposed inside. The water feed base includes a water feed opening and a first outflow opening, and the first outflow opening is in communication with the water tank; a water inlet is disposed on the atomization water reservoir, and water in the water tank will flow into the atomization water reservoir through the water inlet pipe by the water suction pump; the atomizer is in communication with the atomization water reservoir through an atomization opening disposed at the atomization water reservoir, and water vapor flows into the atomization air channel and flows to outside along the atomization air channel.

A humidification module and an electronic apparatus including the same are provided. The humidification module includes a supply part supplying water, a droplet generation part generating droplets by using the water supplied through the supply part, and a blowing part discharging the generated droplets to the outside, the droplet generation part includes a nozzle part including a plurality of nozzles spraying the water supplied through the supply part, and an electrode part including a substrate on which a plurality of holes corresponding to the plurality of respective nozzles are formed and electrodes arranged around the plurality of holes for supplying a voltage to the plurality of nozzles, and the plurality of respective nozzles are arranged to penetrate the corresponding holes.

A humidification module and an electronic apparatus including the same are provided. The humidification module includes a supply part supplying water, a droplet generation part generating droplets by using the water supplied through the supply part, and a blowing part discharging the generated droplets to the outside, the droplet generation part includes a nozzle part including a plurality of nozzles spraying the water supplied through the supply part, and an electrode part including a substrate on which a plurality of holes corresponding to the plurality of respective nozzles are formed and electrodes arranged around the plurality of holes for supplying a voltage to the plurality of nozzles, and the plurality of respective nozzles are arranged to penetrate the corresponding holes.

A system having an enclosure for containing a solution. An atomizer is in communication with an interior of the enclosure and the solution for generating an aerosolized particle mist within the interior of the enclosure. A positive pressure device is in communication with the interior of the enclosure for generating a positive pressure within the enclosure relative to an atmosphere outside of the enclosure. An ejection nozzle having a tortuous path is provided, wherein an entrance of the tortuous path is in communication with the interior of the atomizer and an exit of the tortuous path is in communication with the atmosphere outside of the enclosure.

A system having an enclosure for containing a solution. An atomizer is in communication with an interior of the enclosure and the solution for generating an aerosolized particle mist within the interior of the enclosure. A positive pressure device is in communication with the interior of the enclosure for generating a positive pressure within the enclosure relative to an atmosphere outside of the enclosure. An ejection nozzle having a tortuous path is provided, wherein an entrance of the tortuous path is in communication with the interior of the atomizer and an exit of the tortuous path is in communication with the atmosphere outside of the enclosure.

An energy-independent water-based pure air cleaning system using a water electrolytic-fuel cell is disclosed. The energy-independent water-based pure air cleaning system using a water electrolytic-fuel cell proposed by the present invention comprises: a water electrolysis unit that generates hydrogen and oxygen through a water electrolysis treatment using supplied water, and supplies hydrogen gas to an energy generating unit by adjusting the pressure of the generated hydrogen gas; the energy generating unit that generates electrical energy on the basis of the hydrogen gas supplied for use as a power source for air purification; an energy storage unit that does not need energy charging and supplies the generated electrical energy as power for air purification; an oxygen exhaust port for discharging the oxygen generated in the water electrolysis unit for air purification; and a humidifier that generates water vapor by spraying or evaporating the supplied water by any one of ultrasonic vibration, heating, natural evaporation, or nozzles to control the humidity in a room.

An energy-independent water-based pure air cleaning system using a water electrolytic-fuel cell is disclosed. The energy-independent water-based pure air cleaning system using a water electrolytic-fuel cell proposed by the present invention comprises: a water electrolysis unit that generates hydrogen and oxygen through a water electrolysis treatment using supplied water, and supplies hydrogen gas to an energy generating unit by adjusting the pressure of the generated hydrogen gas; the energy generating unit that generates electrical energy on the basis of the hydrogen gas supplied for use as a power source for air purification; an energy storage unit that does not need energy charging and supplies the generated electrical energy as power for air purification; an oxygen exhaust port for discharging the oxygen generated in the water electrolysis unit for air purification; and a humidifier that generates water vapor by spraying or evaporating the supplied water by any one of ultrasonic vibration, heating, natural evaporation, or nozzles to control the humidity in a room.

The present application discloses a water replenishment structure, an atomization device and a humidifier. the water replenishment structure includes: a floating member located in the water storage container; a linkage whose one end connecting with the floating member, the other end extending out from the water storage container through the water inlet hole, a radial size of the linkage is smaller than that of the water inlet hole; a sealing gasket provided outside the water storage container and provided corresponding to a water inlet end of the water inlet hole, a radial size of the sealing gasket is larger than that of the water inlet hole, the sealing gasket is connected with a part of the linkage extending out from the water storage container to move with a movement of the linkage.

The present application discloses a water replenishment structure, an atomization device and a humidifier. the water replenishment structure includes: a floating member located in the water storage container; a linkage whose one end connecting with the floating member, the other end extending out from the water storage container through the water inlet hole, a radial size of the linkage is smaller than that of the water inlet hole; a sealing gasket provided outside the water storage container and provided corresponding to a water inlet end of the water inlet hole, a radial size of the sealing gasket is larger than that of the water inlet hole, the sealing gasket is connected with a part of the linkage extending out from the water storage container to move with a movement of the linkage.

A portable misting system includes a carrying case, a fluid pump arranged within the carrying case, and a power source arranged within the carrying case to provide electrical power to the fluid pump. A working fluid source provides a working fluid to the fluid pump via a supply line, a distribution line receives a pressurized working fluid from the fluid pump, and one or more spray nozzles are coupled to the distribution line to discharge the pressurized working fluid as a mist.