RU2012110041A - OZONE GENERATION DEVICE - Google Patents

Abstract

1. A device for generating ozone, containing high-voltage and grounded plate electrodes located in a sealed enclosure, having central holes and configured to cool with a coolant, coated on the outside with a dielectric and alternating through one, a power source whose leads are connected to the electrodes, fittings for supplying a working oxygen-containing gas and coolant and fittings for removing the coolant and the gas-zone mixture, and the electrodes are made of hermetically interconnected parallel plates forming an internal cavity in which jumpers are mounted perpendicularly to the inner surfaces of the plates of the electrodes, rigidly connecting the plates to each other, fittings for supplying the coolant to the electrodes and removing the coolant from them, the electrode plates being made with parts protruding beyond the active zone of the electrodes in that the first inner and all odd distance jumpers are rigidly attached to one electrode plate, and all the even distance jumpers The ki are rigidly attached to another plate, and on the outer edge of the annular plates there are semi-cylindrical cavities for passage of the locking rods, which, passing through the holes in the spacing bridges, connect the ring plates and provide a rigid electrode structure, with three rods located at an angle of 120 ° relative to each other, go beyond the outer edge of the electrode and are elements for attaching the electrode to the supporting racks, having openings for installing rods for attaching the electrodes,

Claims (2)

1. A device for generating ozone, containing high-voltage and grounded plate electrodes located in a sealed enclosure, having central holes and configured to cool with a coolant, coated on the outside with a dielectric and alternating through one, a power source whose leads are connected to the electrodes, fittings for supplying a working oxygen-containing gas and coolant and fittings for removing the coolant and the gas-zone mixture, and the electrodes are made of hermetically interconnected parallel plates forming an internal cavity in which jumpers are mounted perpendicularly to the inner surfaces of the plates of the electrodes, rigidly connecting the plates to each other, fittings for supplying the coolant to the electrodes and removing the coolant from them, the electrode plates being made with parts protruding beyond the active zone of the electrodes in that the first inner and all odd distance jumpers are rigidly attached to one electrode plate, and all the even distance jumpers The ki are rigidly attached to another plate, and on the outer edge of the annular plates there are semi-cylindrical cavities for passage of the locking rods, which, passing through the holes in the spacing bridges, connect the ring plates and provide a rigid electrode structure, with three rods located at an angle of 120 ° relative to each other, go beyond the outer edge of the electrode and are elements for attaching the electrode to the supporting racks, having openings for installing rods for attaching the electrodes, laid at a certain distance from each other. 2. The device according to claim 1, characterized in that for adjusting the length of the discharge gap, the holes for installing the electrode attachment rods are threaded for tightening screws of dielectric material in them having a hole equal to the diameter of the rod and made with a given eccentricity relative to the axis of the screw.