DE1953418A1 - Tubular discharge electrode for ozone generator - Google Patents

Abstract

Discharge electrode for ozone generator has external tube of dielectric material with in it a conductive wire fabric layer in which the conductive wire fabric has the same length as the discharge chamber. A longitudinal edge section is bent away from it following the interior wall of the tube of dielectric material. The opposite section is bent more sharply and the curve radius measures 1/4 to 3/4 of the internal tube radius; the wire fabric is rolled up tube-shaped in such a way that the longitudinal edge sections overlap. The more sharply bent section is at the side of the longitudinal edge section of the wire fabric, which faces the axis of the tube and which is bent to follow the inner wall of the tube and lies against it. The generator is used for ozonising water, the electrode being placed in a cylindrical discharge chamber formed by an external metallic hollow cylindrical electrode.

Description

Discharge Electrode for Ozone Generators The invention relates to the electrode an ozone generator for industrial purposes, e.g. for ozonizing water, whereby Ozone under high electrical voltage according to the principle of the silent electrical Discharge generated from oxygen or air and added to water. The electrode is placed in a cylindrical discharge space, which is separated by an external, metallic, hollow, cylindrical electrode is formed.

Plate-shaped and cylindrical electrodes are known.

Plate-shaped electrodes have the conductive layer on the dielectric mainly formed with water. Water also serves to cool the electrode and for heat dissipation, since most of the losses due to the passage of current in the Dielectric is created, which is shown by heating. The electrical insulation is but difficult because the conductive layer is formed with water. Also the compilation of plate-shaped electrodes is difficult. That is why cylindrical ones are mainly used Discharge electrodes. In the case of cylindrical discharge electrodes, the conductive one Layer formed with electrolyte fluid, which is melted shut on both sides Pipe is located, or by conductive coating by means of chemical silver plating, metallic Salts, conductive paints or reduction of glass created, or made by creating a shiny layer of platinum or silver. Even there is the possibility of the conductive layer advantageously made of metal pipe, sheet metal or to form wire mesh, in the form of a tube rolled up and lengthways welded, and insert them into the tubes of dielectric material.

When inserting such a metal pipe between the metal pipe and the tube made of dielectric material is always a gap that changes the electrical discharge circuit and therefore losses result in what above all is unfavorable at higher frequencies. For electrodes, their conductive layer with Electrolyte liquid or conductive coating is formed, is difficult to achieve the same length of the conductive layer and the discharge space. The part of conductive layer, which protrudes beyond the discharge space, causes the formation of leakage currents that adversely affect the electrical circuit and the performance and lower the safety of the equipment. The conductive coating is also through uneven thermal expansion destroyed.

The invention is therefore based on the object of providing an electrode for to create an ozone generator with higher performance and safety.

The subject of the invention, with which this object is achieved, is a discharge electrode for an ozone generator with an external tube dielectric material and a conductive layer inserted into it Wire mesh, marked that the conductive layer of wire mesh in the length of the discharge space is formed, an elongated edge that corresponds to the inner diameter of Tube made of dielectric material is pre-bent and opposite Has edge that is one to three quarters long with a smaller diameter of the inside diameter of the tube of dielectric material is pre-bent, wherein the intermediate area within the elastic limit in the form of a tube is rolled up so that the elongated edges overlap and the elongated Edge that is pre-bent with the inside diameter of the pipe, the axis of the pipe is facing and rests against this with the surface.

Such an electrode for this ozone generator overcomes the shortcomings of known electrode types, eliminates the leakage currents and thus lowers consumption of electrical energy. A conventional glass tube can be used as the tube made of dielectric material be used, the wire mesh adapts itself and easily to its tolerances at. Instead of wire mesh, it is possible to use similarly prepared metal foils.

The production of the conductive layer according to the invention is simple, and it is easily inserted or changed.

The wire mesh and also the metal foil can be easily turned towards move the axis, i.e. bring it exactly into the discharge space and hold it there. Uneven thermal expansion does not destroy such conductive layers. the better heat dissipation results in better operational stability, increases the The efficiency and thus also the performance of the equipment and its operation are more rational.

The invention is based on an exemplary embodiment below explained in more detail, which is shown schematically in the drawing.

1 shows the front view of the discharge electrode according to the invention for the ozone generator; Fig. 2 shows the plan; 3 and 4 show another embodiment.

The discharge electrode consists of the tube 1 made of dielectric Material, e.g. glass, wire mesh 2 of the length of the discharge space has a elongated edge 3, which is curved with the inner diameter of the tube 1. The opposite Edge 4 is pre-bent with a smaller diameter, namely one to three in length Quarter of the inner diameter of the pipe 1. At the top of the wire mesh 2 is a conductor 5 soldered on and bent so that it emerges axially from the electrode. According to Fig. 3 and 4, the conductor is made from a helical cylindrical spring 6.

The wire mesh is in the area between the pre-bent edges 3 and 4 are by no means deformed, but only rolled up within the elastic limit so that that the elongated edges overlap and the elongated edge 4, which is smaller Diameter is pre-bent, the axis of the tube 1 is facing.

Wire mesh that has been prepared and rolled up in this way is pushed into the tube 1. Due to the elasticity of the wire mesh 2, the elongated edge lies 3 and the entire surface of the wire mesh 2 on the inner surface of the tube 1, and the edge 4 adapts on the one hand, and on the other hand it rests on the elongated edge 3 and presses it so also on the inner surface of the pipe 1. The Press down of the wire mesh 2, the helical cylindrical spring 6 according to FIGS. 3 and Fig. 4 promote.

The wire mesh 2 is so without any undesired space on the Inner surface of the tube 1.

Claims (1)

Claim Discharge electrode for an ozone generator with an external one Tube made of dielectric material and a conductive layer inserted into it made of wire mesh, d u r c h e k e n n n z e i c h n e t that the conductive Layer of wire mesh (2) is formed in the length of the discharge space, one elongated edge (3), which is made of dielectric with the inner diameter of the tube (1) Material is pre-bent and has an opposite edge (4), which with a smaller diameter in the length of one to three quarters of the inner diameter of the tube (1) made of dielectric material is pre-bent, the intermediate Area within the elastic limit rolled up in the form of a tube is that the elongated edges overlap and the elongated edge (4), which with the inner diameter of the tube (1) is pre-bent, facing the axis of the tube (1) and lies against this with the surface.