A humidifier with regular addition of fixed quantity of essential oil is located in public areas and configured such that humidified air contains fragrance regularly. The humidifier is provided with a main body, water storage bucket mounted to the main body, and essential oil supplier mounted to the main body. The essential oil supplier includes a casing, at least one essential oil bottle within the casing and stored with essential oil, at least one peristaltic pump corresponding to each bottle and connected to the main body to be controlled. Each peristaltic pump is controlled by the main body, such that fixed quantity of essential oil is supplied regularly by the humidifier with the water storage bucket being not dismounted to keep fragrance in atomizing air continuous and eliminate the problem of only presence of fragrance at the beginning of addition of essential oil due to conventional method of addition.

The invention provides a humidifier apparatus (100) comprising (i) a first chamber (110) for containing water (101), (ii) a humidifying element (120) configured to facilitate evaporation and/or nebulization of water (101) contained in the first chamber (110), wherein the humidifying element (120) comprises a wick element (130), (iii) a replaceable or refillable unit (230) for containing an immobilized phosphate removing material (150), wherein the phosphate removing material (150) is configured to reduce a concentration of phosphate in water (101) before evaporation and/or nebulization of the water (101), and wherein the wick element (130) comprises the phosphate removing material (150), wherein the phosphate removing material (150) is comprised by the wick element (130) as one or more of impregnated phosphate removing material (150) and coated phosphate removing material (150), and wherein the wick element (130) is configured as the replaceable unit (230). Further, a wick element (130) comprising a phosphate removing material (150) is presented.

A water-using apparatus includes a water-feeding unit configured to feed water, a water-treating unit connected to the water-feeding unit by a pipe and being configured to perform a function in which ionic substances contained in water fed from the water-feeding unit are removed by an electrical deionization unit, a water-using unit connected to the water-treating unit by a pipe and configured to use water having flowed through the water-treating unit, a drainpipe through which water with increased concentration of ionic substances removed by the water-treating unit is drained, and a controller configured to control a passage for water fed from the water-feeding unit and to cause water with increased concentration of ionic substances to be drained through the drainpipe.

A water sterilization module includes a container including a water inlet and a water outlet and containing water therein, and a light source part mounted on a part of the container and irradiating sterilizing light into the container. The water inlet has a diameter larger than a diameter of the water outlet.

A humidifying device for transferring water and/or water vapour from waste air of a waste air flow to supply air of a supply air flow is provided. In the compensating chamber of the housing of the humidifying device, at least one spreading means is arranged, which spreads apart the plate stack of the humidifying device and the housing cover closing the housing in the direction of the longitudinal axis.

This application relates to a humidifying device, including a shell, an air duct and an air blowing apparatus disposed in the shell, wherein a mist outlet channel, an atomizing cavity and a heating cavity communicated with the mist outlet channel are disposed in the shell; the air duct includes a first air duct communicated with the atomizing cavity and a second air duct communicated with the heating cavity; the air blowing apparatus is provided with an air outlet member, and the air outlet member is aligned with the first air duct and the second air duct, and is configured to supply a first air flow to the first air duct and supply a second air flow to the second air duct. When the humidifying device operates, the first air flow forms an atomized air flow and the second air flow forms a heated air flow then are mixed.

An air conditioner includes a main body, a fan configured to cause air to flow through the main body, and a water reservoir detachably disposed on an upper portion of the main body. A humidifying fabric member is disposed inside the main body and configured to receive water from the water reservoir. A water collecting tank is configured to collect water that flows down from the humidifying fabric member. In addition, a pump is configured to pump the water in the water collecting tank to the water reservoir through a suction hole. A bottom of the water collecting tank is formed to be downwardly inclined toward one portion of the bottom and the suction hole of the pump is disposed adjacent to the one portion.

A water vapor filtration and delivery system having a water inlet coupled to a source of water, a pump for pumping an amount of water from the water inlet, a filtration unit connected to the water inlet that removes all contaminants larger than 50 nanometers, and a nozzle having an outlet orifice for distributing the filtered water vapor into a stream of air. The water vapor filtration and delivery system includes a locator module coupled to a plenum or a wall of an air duct and having a base plate attached to the plenum, a locator plate removably attached to the base plate, and at least one hand bolt. There is a flexible hose between the filtration unit and the locator module configured to transfer water from the filtration unit to the locator module and a rigid pipe between the locator plate and the nozzle.

The present invention relates to a high-efficiency air water system for a tropical climate, including a filtration system, in which an evaporator is provided in an internal accommodating space of a main body, and a condenser is installed in a perforated portion formed passing through a side wall of the main body, so that air cooled in the main body is used to dissipate heat generated in the condenser so as to improve dehumidification efficiency. The configuration of the high-efficiency air water system comprises: an air suctioning unit that suctions and supplies external air; a water generating unit that condenses moisture from the air supplied from the air suctioning unit to generate water; and a water purifying unit that filters and purifies the water generated by the water generating unit to a drinkable or usable state. The water generating unit is constituted by including a main body having an accommodating space provided therein, and an evaporator, a hopper, a water storing part, a condenser, and a compressor are installed in the main body.

A heating and cooling apparatus is disclosed that combines a PTC heating element with a fan, and a combination of a cooling device aided by a thermoelectric cooling device to provide heating, passive air conditioning, and air circulation. The heating and cooling apparatus can include a condensation trap, a collection container, and an ozone generator for collecting and purifying the condensate. In addition, this apparatus provides the additional function of serving as an air purification system operating either in combination with the heating/cooling functions or as an independent air purifier.