RU94042801A - Air ionizer - Google Patents

Abstract

FIELD: introducing ions into open space by using ion emission due to electric field; medicine; increasing ion percentage in surrounding atmosphere for health-improvement purposes; noiseless forced air circulation without using electromechanical fans. SUBSTANCE: air ionizer has needle electric-charge emitter, accelerating electrode, and DC voltage supply for emitter circuit; accelerating electrode circuit is supplied with power from additionally introduced intermittent-voltage supply; peak value and polarity of this voltage correspond to those of voltage applied to emitter. So, ions occurring in space between equal-polarity electrodes reverse their direction and go away from both electrodes. In this way, resultant path of ions is directed to surrounding atmosphere. With electrodes spaced 10 mm apart, voltage of 5 kV, frequency of 7 kHz, and duty factor of 0.5, resultant emission will be 4 mcA per pointed end which is comparable with results obtained from ionizers with external electric field operating at voltages of tens of kilovolts. EFFECT: improved ionizing capacity of device without impairing other parameters.

Claims (1)

The invention relates to devices intended for introducing ions into open airspace by ion emission due to an electric field and can be used in medical as well as preventive purposes to improve air quality by increasing the percentage of ions. In addition, the device can be used to provide silent forced air circulation without the use of electromechanical fans. The purpose of the invention is to increase the ionization ability of the device without compromising other parameters. This is achieved due to the fact that in an air ionizer containing a needle emitter of electric charges, which accelerates a constant voltage source to power the emitter circuit, the accelerator electrode circuit is powered by an additional intermittent voltage source, the polarity and amplitude value of which corresponds to the voltage supplied to the emitter. As a result, ions trapped in the space between the electrodes with the same polarity change direction, moving away from both electrodes. Thus, the resulting ion trajectory is directed into the surrounding space. The device has been tested experimentally. With a distance between the electrodes of 10 mm, a voltage of 5 kV, a frequency of 7 kHz, and a duty cycle of 0.5, the resulting emission was 4 μA per tip, which is comparable with the results obtained from ionizers with an external electric field operating at voltages of several tens of kilovolts.