DE1025456B - Arc discharge tubes for telephone exchanges that can be tested for deafness - Google Patents

Description

GERMAN

The invention relates to deafness testable arc discharge tubes for telephone exchanges. Far: the invention relates to a method for testing these discharge tubes in safety racks of telephone exchanges by applying a high frequency voltage.

The operational safety of self-connection offices depends to a large extent on their perfect condition of the arc discharge tubes built into each line away. The previously known drain tubes had to be removed from the frame for testing and examined individually. Of the Request for a test in the security rack remained unfulfilled because it was suitable for it. Drainage tubes was missing. The testability of the discharge tubes in the fuse frame is thereby made according to the invention created that the discharge tube are provided with an easily excitable phosphor. Now can the discharge tubes can be installed in an extremely simple manner by means of a known high-frequency analyzer check in the frame.

It is known to use glow light sources with a To provide fluorescent material to increase the lighting effect. In contrast to this, it is Discharge tubes, in which short-term relatively high arc currents with relatively low Burning voltage flow, about making the functionality visible through phosphors.

Further features of the discharge tubes according to the invention emerge from the following description.

When the discharge tubes are tested, the high-frequency voltage becomes with such according to the invention Size supplied that the ignition of the discharge in the case of a defective air-filled. Arrester just barely not happened. A small tube generator is expediently used to generate the high-frequency voltage used.

In the drawing, two embodiments of an arrester according to the invention are shown.

In both exemplary embodiments, two metallic electrodes 2 are airtight in a vessel 1 made of glass melted down. Part of the inner wall, preferably the part that is in the field of view of the between the electrodes, burning discharge is located covered with a coating 3 made of fluorescent material. A green excitable one proves to be particularly suitable Luminous substance, since the maximum sensitivity of the human eye is in the green spectral range.

In the embodiment according to FIG. 1, the wall of the tube is in the area of the arc discharge channel provided with fluorescent material. In the embodiment according to FIG. 2, the phosphor is on the end walls attached to the tube.

Arc discharge tubes that can be tested for deafness for telephone exchanges

Applicant:

Dr.-Ing. Werner Kluge,
Wuppertal-Vohwinkel, Rubensstrasse. 4th

Dr.-Ing. Werner Kluge, Wuppertal-Vohwinkel,
has been named as the inventor

The tube is made of highly fluorescent glass that allows ultraviolet rays to pass through is, then the tube can light up with the entire glass mass.

Fully functional arresters are now known to be filled with dilute noble gas, for example argon. If you apply a high-frequency voltage of a sufficient level to one electrode, for example by touching the electrode of a high frequency meter while the other electrode is grounded, a high-frequency discharge will ignite between the electrodes of the arrester. That Plasma of this discharge is rich in ultraviolet light. This light stimulates the fluorescent material to glow at. If you use fluorescent glass directly, almost the entire glass vessel lights up. With this If it lights up, it indicates that the arrester is fully functional, i. H. that no atmospheric Air has entered the drain tube. It is essential that the arrester in this type of Test do not have to be removed from the fuse strips. The application of the high-frequency test voltage at. The fuse strips can do this without damaging the actual telephone system take place.

Those arresters which have become unsuitable due to the ingress of air, because this is where the ignition voltage is applied has risen to several thousand volts, behave when the high frequency is applied different: First of all, the high-frequency ignition voltage is higher than that of a functional arrester. Furthermore, after the ignition has taken place, a discharge plasma develops between the electrodes, which is poorer Is ultraviolet radiation. In addition, a

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• Large part of this UV radiation by: the penetrated Absorbs air. As a result, ■ the fluorescent material can only light up weakly. Overall, the result is that unsuitable, so-called "Deaf" arresters not or only weakly, intact arresters, however, light up strongly when scanning takes place with high frequency in the manner described. According to the method and the invention can one now the: high frequency voltage just so high choose that the ignition of the discharge with defective air-filled arresters does not just happen. Then, also the lighting up of the fluorescent substance is impossible. The voltage is not used for this the one common in high vacuum pond technology. Teslators, but those that can be clearly represented in terms of height and frequency Voltage from a small tube generator. If you feel the ones in the fuse strips in rows If the arrester is seated using this method, the intact arresters light up brightly. The broken ones Arresters stay, dark. The tester knows which arresters: must be replaced. The test method proves to be safe and economical.

Claims (7)

Patent claims: 1. Arc discharge tubes that can be tested for deafness. for telephone exchanges, characterized in that that the discharge tubes are provided with an easily excitable fluorescent substance. 2. Bogenentla.d.ungs discharge tubes according to claim 1, characterized in that the phosphor is attached to the end wall of the tube. 3. arc discharge tubes according to claim 2, characterized in that the wall of the tube in the area of the arc discharge channel with. the phosphor is provided. 4. arc discharge tubes according to claim 2 or 3, characterized by the use of a green fluorescent substance. 5. arc discharge tubes according to any one of claims 1 to 4, characterized by the Use of drainage tubes made of highly fluorescent Glass. 6. A method for testing drainage tubes according to claim 1 to 5 in safety racks of Telephone exchanges, by applying a high frequency voltage, characterized in that the high-frequency voltage is supplied with such a magnitude that the ignition of the discharge occurs a defective air-filled arrester has just not taken place. 7. The method according to claim 6, characterized in, that a small tube generator is used to generate the high-frequency voltage will. Considered publications: German Patent No. 848 616; Book Neutrig - Geffken - Richter, "Die Glimmröhre in der Technik", 1939, pp. 98 to 100, in particular Fig. 106. 1 sheet of drawings © 709 908/302 2.58