DE91245C - - Google Patents

Description

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PATENT OFFICE.

The circuit system in question is intended for three-wire systems. Under normal circumstances, when there is no earth fault, that is in the middle conductor The current flowing is exactly the same as the difference between the currents flowing in the outer ladders (with regard to the signs), namely. even with any load on the two three-wire halves. Now, in the central station, a point on the central conductor is conductive with the earth tied together. If there is an earth leakage from an outer ladder, the one from the central station from the current sent into the latter partly through the central conductor and partly through the Earth back to the central station, so no longer exclusively through the middle conductor, as before. The current in the middle conductor is therefore no longer equal to the difference in the Currents in the two outer ladders, but either smaller or larger, depending on the situation the - | - or the conductor has an earth fault.

One can now see this shift in the current ratios on three lines into the three lines +, ο and - recognize switched-on ammeters. An ammeter is also easy to use or construct a relay which, on the one hand, draws from the current in the middle conductor, and on the other hand is influenced by the difference in the currents in the two outer ladders, namely of both factors in the opposite sense. A. such a relay or ammeter could z. B. a rotatable, polarized (made of magnetized steel) armature in the form a double-armed lever, one of which is an arm of two concentric to each other attached coils with iron cores is affected; one of these coils is from the Current of the + conductor, the other of that of the conductor flowing through and the effects both on the anchor seek to cancel each other out. The other arm of the double-armed Ankers' is made up of a similar coil with an iron core in the opposite sense influenced by the current of the ο-conductor flow. .

Of course, the intended purpose would also result in a different arrangement reach. The relay armature could now move a drop flap. The use of one each such relays with a drop flap for each one feed line would achieve the purpose of each automatically indicate occurring earth faults in the central station. The usage of Correspondingly set up ammeters would allow the magnitude of the earth fault current to be measured directly read in amperes.

In order to find the exact location of the earth fault, these measurements are made the current conditions (with the aid of an appropriately set up ammeter or with the help of three simple ammeters) first at the beginning of the feed lines in the central station, then at the relevant feed point, further at all the same neighboring nodes u. s. f .; the greater the measured displacement of the normal current conditions, the closer the point where the measurements were made is the location of the earth

The end, and it can be determined in this way to an accuracy of a few meters. Now, of course, relays or ammeters will not be switched on directly into the main circuit concerned (e.g. directly into the feed lines), but rather they will be better connected to the ends of the main current resistors that are constantly switched on. Such main current resistances must then receive every feed line in the central station, as well as the feed and nodes, namely z. B. three main current resistances of the same size necessary for each line.

Claims (1)

Patent claim: Procedure for earth faults in three-wire systems without the use of test wires and to search and display with a single earth line in the central station, characterized in that, that the currents are measured principally in the main lines and that the occurrence of earth faults through the Difference between the current flowing in the ο-conductor and the difference in the two outer ladders has flowing currents, is displayed. For this purpose ι sheet of drawings.