RU2084399C1 - Ozonizer - Google Patents

Abstract

FIELD: biology, medicine, agriculture, chemical industry. SUBSTANCE: the ozonizer has an excitation circuit consisting of conduction and capacitance sections, can operate in self-excitation conditions. EFFECT: improved design. 2 dwg

Description

 The invention relates to the chemical industry and can be used in biology, medicine, agriculture to produce ozone for various needs.

 A known ozonizer containing a dielectric in the form of a pipe, a rooting electrode made of an electrically conductive material in the form of a tape, wound on a spiral pipe outer surface, as well as a conductive electrode, which is water flowing through the dielectric, is also a cooling agent.

 The disadvantages of the known ozonizer are its low productivity, the inability to use the ozonizer far from the water source, the visual selection of the width of the tape and the pitch of the spiral of the carbon electrode, making it difficult to manufacture an ozonizer.

 Known ozonizer, selected as a prototype of the claimed invention, containing a fan mounted on the same axis as a dielectric rotating at a speed, mounted on bearings, corona electrodes located at an angle to the surface of the dielectric, a high voltage voltage source connected to the electrodes, which is made single multiphase.

 A disadvantage of the known ozonizer is the offline mode.

 The problem to which the invention is directed, is to expand the functionality and ability of the ozonizer to work offline, not requiring the conversion of electrical energy to power the ozonizer.

 The problem is solved in that in the ozonizer, unlike the prototype, there is an excitation circuit consisting of conductivity and capacitance and the ozonizer can operate in self-excitation mode.

 In FIG. 1 shows the device of the inventive ozonizer; figure 2 shows a section aa in figure 1 of the ozonizer, explaining its operation.

 The ozonizer consists of a dielectric housing 1, flanges 2 with openings for air inlet and outlet of the ozone-air mixture, a cylindrical dielectric 3, the shaft of which is mounted on bearings and connected to the dielectric through insulating plugs 5. A fan 6 is used for air purging, mounted on the shaft 4 The electrodes 7 and 8 are installed at an angle to the surface of the cylindrical dielectric, which determines the direction of its rotation. There is a gap between the electrodes and the cylindrical dielectric.

The conductivity of the ozonizer consists of the conductivity of the electrodes 9 and the conductivity of the dielectric 10, and the capacity of the ozonizer is composed of the capacitance of the electrodes C _e and the dielectric C _d . Conductivity and capacitance make up the excitation circuit of the ozonizer.

 The principle of operation of the inventive ozonizer is as follows. The rotation of the dielectric occurs due to the self-excitation of the ozonizer and the movement of charges in the electric field. The self-excitation of the ozonizer is determined by the instability in the excitation circuit, consisting of conductivity and capacitance, which entails an increase in the excitation voltage. However, in an ozonizer that does not contain a nonlinear dielectric, the capacitance is independent of voltage, and the transition to a stable mode is due to the nonlinearity of the leakage conductivity. Self-excitation is possible due to residual charges or due to various conditions that create the initial voltage.

 Ozone enrichment of air occurs in a high-voltage discharge of the corona type. The zone of such a discharge is created in the discharge gap on the surface of the dielectric and ozonizer electrodes. To form a uniform discharge structure, a dielectric is used, the material of which has the largest possible resistivity and dielectric constant. The ozonizer is equipped with a fan 6 for blowing air and blowing the ozone-air mixture.

 Thanks to the self-excitation of the ozonizer, it acquires an important quality - autonomy of work, i.e. For energy consumption by an ozonizer, directly high voltage can be used without using various converting devices for these purposes.

Claims (1)

 An ozonizer containing a dielectric, corona electrodes and a high voltage voltage source connected to the electrodes, characterized in that it is equipped with a fan mounted on the same axis as a dielectric mounted on bearings rotating at a variable speed, and an excitation circuit consisting of conductivity and capacitance, and corona electrodes are installed at an angle to the surface of the dielectric.

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