Patent application number | Description | Published |
20080292450 | BLOWER APPARATUS - Blower apparatus has: an air duct having suction and supply openings; a blower fan for creating a flow of air in the duct; and an electrostatic atomizer. The atomizer includes a hollow body exposed to the air in the duct. The body is provided therein with an electrostatic atomization chamber, and has a barrier, an inlet and an outlet. The barrier is put in the duct so that a part of the air flowing in the duct collides with the front of the barrier and thereby pressure-increased air is obtained. The inlet is located at the front side of the barrier so that the pressure-increased air can enter the chamber through the inlet. The outlet is located at the rear side of the barrier so that all the pressure-increased air higher than that of the air flowing in the duct, from the chamber can flow out into the duct. | 11-27-2008 |
20090001200 | Electrostatically Atomizing Device - The present invention provides an electrostatically atomizing device capable of instantly giving an electrostatically atomizing effect without requiring a water tank. The electrostatically atomizing device includes an emitter electrode, an opposed electrode opposed to the emitter electrode, a water feeder configured to give water on the emitter electrode, and a high voltage source configured to apply a high voltage across said emitter electrode and said opposed electrode to electrostatically charge the water on the emitter electrode for spraying charged minute water particles from a discharge end of the emitter electrode. The water feeder is configured to condense the water on the emitter electrode from within the surrounding air, enabling to supply the water on the emitter electrode in a short time without relying upon an additional water tank. Thus, an atomization of the charged minute water particles can be obtained immediately upon use of the device. | 01-01-2009 |
20090114747 | ELECTROSTATICALLY ATOMIZING DEVICE - The liquid supplied to an emitter electrode located at a tip of an atomization nozzle receives the high-voltage and electrically charged. The mist of the charged minute water particles of nanometer sizes is generated from the emitter electrode. A pressure regulating means regulates a pressure applied to the liquid on the tip of the emitter electrode. Therefore, the mode of generating the mist of the charged minute water particles of nanometer sizes or the mode of generating the mist of the charged minute water particles of nanometer and micron size is selected. | 05-07-2009 |
20090121050 | Electrostatic atomizer - An electrostatic atomizer equipped with an electrostatic atomization pole having superior migration-proof. The atomizer comprises the electrostatic atomization pole, a liquid supply mechanism that supplies the pole with liquid, and a power supply that supplies the pole with high voltage to electrostatically atomize the liquid held on the pole. A coating is formed on the surface of the pole, and the coating is formed of simple metal or alloy, which displays resistance to migration. | 05-14-2009 |
20090289132 | ELECTROSTATICALLY ATOMIZING DEVICE AND ELECTROSTATICALLY ATOMIZING SYSTEM - A high voltage is applied between an emitter electrode in an atomizing barrel and an opposed electrode supported to the atomizing barrel to electrostatically atomize a liquid supplied to the emitter electrode into a mist of charged minute particles. A silencer duct is attached to the front end of the atomizing barrel for reducing noises developed when generating the mist of the charged minute particles. Accordingly, the silencer duct can absorb the noises developed around the emitter electrode and the opposed electrode at immediately downstream thereof for effectively reducing the noises. | 11-26-2009 |
20100044476 | ELECTROSTATICALLY ATOMIZING DEVICE - An electrostatically atomizing device includes a housing and an electrostatically atomizing unit disposed within the housing. The atomizing unit includes an emitter electrode and an heat exchanger. The heat exchanger cools the emitter electrode to develop condensed water. A high voltage is applied to the emitter electrode in order to electrostatically atomizing the condensed water and generate a mist of charged minute water particles. The housing accommodates a fan generating an air flow accelerating a heat radiation of the heat exchanger, and a high voltage source generating the high voltage applied to the emitter electrode. The heat exchanger has its heat radiator section exposed to a flow passage of the air flow. The atomizing unit is formed with an air inlet for introducing the air flow which carries the mist of the charged minute water particles and release the mist. The atomizing unit and the high voltage source are arranged on opposite sides of the flow passage. A first air intake port for feeding the forced air flow from the fan and a second air intake port for feeding the air flow into the high voltage source are positioned upstream of a second air intake port which introduce the forced air flow into the flow passage. | 02-25-2010 |
20100071402 | AIR CONDITIONER - An air conditioner has a function of carrying a mist of charged minute water particles on a ventilated air being blown into a room. The air conditioner includes a blower blowing the ventilated air and an atomizing unit configured to be supplied with water and to electrostatically atomize it into the mist of minute charged water particles. A housing of the air conditioner is divided by a partition into a flow channel leading from an air inlet to an air outlet and a compartment accommodating therein the atomizing unit. A feed conduit extends from a feed port of the atomizing unit into a flow channel through the partition to feed the mist to the air being blown out through the air outlet, while the atomizing unit is isolated from the flow channel to minimize flow resistance. | 03-25-2010 |
20100133366 | AIR CONDITIONING SYSTEM WITH ELECTROSTATICALLY ATOMIZING FUNCTION - An air conditioning system with an electrostatically atomizing function includes an electrostatically atomizing unit and a ventilation duct which flows conditioned air. The electrostatically atomizing unit generates a mist of charged minute water particles. The electrostatically atomizing unit is provided with a discharge port which locates adjacent to an air outlet of the ventilation duct. The mist of the charged minute water particles flows into an airflow which is sent from the ventilation duct. The mist of the charged minute water particles effectively spreads to the space by the air flow without dissipating inside the ventilation duct. | 06-03-2010 |
20100133367 | ELECTROSTATICALLY ATOMIZING DEVICE - An electrostatically atomizing device has a housing and an electrostatically atomizing unit accommodated within the housing. The electrostatically atomizing unit includes an atomizing barrel and an emitter electrode disposed within the atomizing barrel and is configured to atomize water supplied to the emitter electrode at a tip of the emitter electrode and generate mist of charged minute water particles. Formed within the housing is an air pressure chamber which surrounds the atomizing barrel. The atomizing barrel is formed in its peripheral wall with a plurality of air inlets which are arranged circumferentially around the atomizing barrel to introduce pressurized air from the air pressure chamber for carrying the mist on the pressurized air introduced into the atomizing barrel from the plural air inlets and discharging the mist outwardly of the housing. | 06-03-2010 |
20100187338 | ELECTROSTATICALLY ATOMIZING DEVICE - An electrostatically atomizing device comprises an emitter electrode, an opposed electrode, a water supply means, a high voltage source, and a silencer. The opposed electrode is disposed in an opposed relation to the emitter electrode. The water supply means is configured to supply water to the emitter electrode. The high voltage source is configured to apply voltage between the emitter electrode and the opposed electrode in order to electrostatically atomize the water on the emitter electrode, thereby generating a mist. The silencer includes a sound absorbing duct being formed into tubular shape to have an axial bore. The axial bore is formed at its one axial end with an inlet in communication with the opening, and is formed at the other axial end with an outlet for flowing the mist out through the axial bore. The sound absorbing duct is attached to the opposed electrode such that the inlet is kept in communication with the opening. The sound absorbing duct has an inner circumferential surface. The inner circumferential surface includes a sound absorbing surface. The sound absorbing surface is located between the opposed electrode and the outlet. Entire area of the sound absorbing surface is uncovered. | 07-29-2010 |
20100241306 | ION GENERATING SYSTEM FOR USING IN A VEHICLE - An ion generating system for use in a vehicle has an ion generator and a controller for controlling the operation thereof. The ion generator is energized by a vehicle battery to keep dispensing ions by means of the controller even under a condition where the engine is not running, making deodorization or sterilization of a passenger's room to give a comfortable environment to the vehicle. | 09-23-2010 |
20110240772 | ELECTROSTATIC ATOMIZER - An electrostatic atomizer equipped with an electrostatic atomization pole having superior migration-proof. The atomizer comprises the electrostatic atomization pole, a liquid supply mechanism that supplies the pole with liquid, and a power supply that supplies the pole with high voltage to electrostatically atomize the liquid held on the pole. A coating is formed on the surface of the pole, and the coating is formed of simple metal or alloy, which displays resistance to migration. | 10-06-2011 |