RU205379U1 - Electric air ozonizer - Google Patents

Abstract

The electric air ozonizer belongs to the field of electrical technologies, to devices for producing ozone and can be used for disinfection of premises. Electric ozonator of air provides disinfection and disinsection of industrial premises due to a weather vane and emitter in the form of a ceramic base with tungsten electrodes fixed on it in the form of a grid, with a honeycomb cell, which ensure high productivity of the ozonizer, reliability and uniformity of the emitter. 2 ill.

Description

The electric air ozonizer belongs to the field of electrical technologies, to devices for producing ozone and can be used for disinfection of premises.

Known device electric ozonator [RU 2429192 C2, C01B 13/11 (2006.01), 02.09.2009], which includes a compressor, fans, power supply, barrier-type discharge device, Peltier element, radiator.

The disadvantage of this electric ozonator is the complexity of its design, namely the presence of a compressor, since the air intake is carried out through it, the regulation in the ventilation system will be more complex and low-performance. Also, the device needs a powerful cooling system, which further complicates the design.

The known device of an electric ozonator [RU 2417159 C2, С01В 13/11 (2006.01), 13.07.2009], which includes a control unit, a piston microcompressor, a power supply unit, a flexible inlet pipe, an ozone-resistant air duct, a discharge device, a pipe.

Such an ozonizer has large dimensions and is characterized by a complex design.

Known ozonator [RU 2523805 C1, С01В 13/11 (2006.01), 02/07/2013], consisting of a source of high-voltage alternating voltage, electrodes, fan.

The disadvantages of this installation are the complexity of the design, low productivity and low reliability of the electrodes.

The task of the utility model is to ensure the disinfection of premises with a high productivity of the ozonizer, reliability and uniformity of the operation of the emitter.

The device and principle of operation of the electric air ozonizer will be clear from the following description and the accompanying drawings.

FIG. 1 is a functional diagram of an electric air ozonizer.

Fig. 2 is a general view of the emitter made in the form of a ceramic base with a tungsten electrode fixed on it in the form of a grid, with a honeycomb shape of a cell.

The essence of the utility model is that for the implementation of this task, an electric air ozonizer is proposed, consisting of series-connected parts: a sled 1, an electric fan 2, an air duct 3, a weather vane 4, a high-voltage generator 5, an emitter 6 made in the form of a ceramic base with fixed on it with a tungsten electrode in the form of a grid, with a honeycomb cell.

The electric air ozonizer consists of: a fan 2 (Fig. 1, Fig. 2) with an electric drive located in the air duct 3. For reliable fixation of the electric drive of the fan 2, a skid 1 is installed. Electrical contacts are installed on the weather vane 4, which are connected to the high voltage generator 5. The high voltage generator 5 is installed in the air duct 3 to generate the required voltage and provide a corona discharge. Also in the duct 3 there are emitter modules 6, which are made in the form of a ceramic base, on which tungsten electrodes are fixed in the form of a grid, with a honeycomb shape of a cell.

The proposed electric air ozonizer works as follows. The elements of the electric drive of the fan 2 are installed on the slide 1. Voltage is applied to the electric drive of the fan 2 (Figs. 1, 2), after it is turned on, the air pressure is formed on the blades, which is directed through the duct 3. The air pressure in the duct 3 is applied to the vane 4 , during which its contacts are closed and the signal about the operation of the fan 2 is fed to the high voltage generator 5. In the high voltage generator 5, the required voltage is generated and directed to the emitter 6 and an electric corona discharge is created. Air discharges from Fan 2 form ozone from oxygen. The formed ozone is directed from the zone of the emitter 6 by the flow of air masses from the fan 2 further along the air duct 3. Then the ozone is distributed throughout the room.

Thus, the electric ozonizer of air provides disinfection of industrial premises due to a weather vane and a radiator in the form of a ceramic base with tungsten electrodes in the form of a grid, with a honeycomb cell, fixed on it, which ensure high productivity of the ozonizer, reliability and uniformity of the emitter.

Sources of information

1. RU 2429192 С2, С01В 13/11 (2006.01), 02.09.2009. ELECTROOZONATOR / D.A. Ovsyannikov, S.A. Nikolaenko, A.P. Voloshin, S.S. Zubovich, D.S. Tsokur - 2009133067/05, Stated 09/02/2009; Publ. 20.09.2011.

2. RU 2417159 С2, С01В 13/11 (2006.01). ELECTROOZONATOR / D.A. Ovsyannikov, S.A. Nikolaenko, A.P. Voloshin, S.S. Zubovich, D.S. Tsokur - 2009126863/05, Stated 07/13/2009; Publ. 04/27/2011.

3. RU 2523805 C1, С01В 13/11 (2006.01). OZONATOR / D.V. Lebedev, P.S. Kuzmenko, M.O. Yakimenko, I. D. Lebedev - 2013105279/05, Stated 02/07/2013; Publ. 07/27/2014.

Claims (1)

An electric ozonizer of air, including a slide, a fan installed in the air duct, a weather vane, electric contacts are installed on the weather vane to transmit a signal to the high voltage generator about its switching on and the formation of a discharge on the emitter, emitter modules, while the emitter modules are made in the form of a ceramic base, on which are fixed with tungsten electrodes in the form of a grid with a honeycomb cell.

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