DE1085860B - Ozone generator with fuse - Google Patents

Description

Ozone generators with fuses Ozone generators are usually in batteries operated with a large number of individual ozone tubes. These ozone tubes exist made of glass or ceramic and are surrounded by a jacket-shaped metal electrode.

Previously, the was disadvantageous for the operational safety of these systems The fact that if only one ozone tube fails, the entire system will be short-circuited came out of order. This fact is particularly disadvantageous when Replacement for an ozone tube is not available.

It is true that an ozone generating device has also become known which is equipped with a built-in fuse, so that when a Short circuit the electrodes become de-energized. As this known ozone generating device but has only one discharge space formed from two electrodes, means a short circuit, which is usually caused by a previous destruction of the discharge surfaces is triggered, the failure and the uselessness of the entire device.

The invention relates to an ozone generator with tubular metal electrodes and dielectrics assigned to them, their contact routing to the metal coating conductive takes place via an intermediate fusible link. When an ozone tube bursts be it due to aging of the glass or ceramic body of the dielectric under the influence the high voltage acting on these bodies or as a result of the action of coarse mechanical ones Forces such as shock or impact, a short circuit occurs in the relevant parts of the system a. Also the formation of dust bridges between the dielectric and the earth electrode as well as the appearance of moisture deposits between these parts Give cause for short circuits. The then occurring is above the normal value electrical stress destroys the fusible link, causing the relevant part of the The system or the affected ozone tube has been disconnected from the electrical circuit. The single ones Ozonizers are connected in parallel to each other, so that the system works despite failure one or more ozonizers remains operational.

About an oxidation of the metal coating or the contact elements of the dielectric The dielectric can prevent the effects of ozone even during longer operating times be designed as a cylindrical body closed on all sides. The ones in the dielectric Leading contact members are melted down, and the fusible link is inside of the dielectric. An exchangeability of the fuse element serving as a fuse is not provided because the safety device will only respond then occurs when the glass or ceramic body of the dielectric is destroyed.

A commercially available ceramic sheath can be used as the fusible link existing fuse cartridges are used, one contact point as a carrier of bifilar power supply lines for the metal covering of the dielectric is used, while the second, located outside of the dielectric Contact point in parallel to the transformer voltage, or it the fusible conductor can be used as a direct, freely guided one inside the dielectric be formed single or multi-threaded supply line to the metal covering. The attachment of the fusible conductor wire on the metal coating of the dielectric and on one of the dielectric leading contact pin is advantageously carried out by soldering.

In Figs. 1 and 2, embodiments of the invention are shown. Parts that are unimportant for understanding the invention are not shown.

1 is a cylindrical dielectric made of ceramic or glass denotes, which by a holding device, not shown, in a jacket-shaped Counter electrode 2 is held. The dielectric 1 is more closed on all sides Body formed and provided with a metal coating 3 on its inner lateral surface. The distance between the surfaces of the dielectric 1 and the counter electrode 2, hump-shaped spacers 4 attached to the body of the dielectric are used. A sheath made of a non-conductive material is used as a fusible link 5, the contact heads 6 and 7 and a thin metal thread 8 existing fuse element arranged, which is melted in the tubular body of the dielectric 1 so that the contact head 7 protrudes freely. At the contact head 6 are Power supply members 9 attached, which resiliently on the metal coating 3 of the dielectric 1 are present.

If the dielectric breaks as a result of aging under the constant influence of the high voltage load, the contact between the power supply elements 9 and the counter electrode 2 causes the fuse wire 8 to burn through, so that the ozone tube concerned is disconnected from the voltage. Since an exchangeability of the fusible conductor is out of the question anyway, because a response of the fuse will always have been preceded by the destruction of the dielectric, the formation of the fusible conductor can also take place in a dielectric according to FIG. 2. The fusible wire 8 is guided as a single-thread line between the contact piece 10 and the metal coating 3. The fusible conductor is attached to the soldering lugs 11.

There is, of course, the option of entering one in the manner described Protect the dielectric with several fusible conductors.

Claims (3)

PATENT CLAIMS: 1. Ozone generator with several tubular metal electrodes and dielectrics characterized by one or more inside the tubular; sealed dielectric arranged fusible conductors, which in the contact guide electrically interconnected to the metal coating of the dielectric and to the dielectric and the contact members are combined to form a structural unit. 2. Ozone generator after Claim 1, characterized in that the fusible conductor as an intermediate conductor between at least two contact members is arranged. 3. Ozone generator according to one of the preceding Claims, characterized in that the fusible conductor as a carrier of bifilar Power supply members is formed. Publications considered: Swiss U.S. Patent No. 285,627.