DE504480C - Monitoring device for electrical line systems - Google Patents

Description

In high-voltage systems, one generally sees protective devices against interference before, so that sick parts of the system are properly switched off, on the one hand to the effects to limit the disturbances as much as possible, on the other hand to spread to healthy ones To prevent power supplies. The protective devices are mostly fed via converters to handle the high operating voltages or to keep currents away from the measuring devices.

In this arrangement, for. B. voltage converters often with fuses connected to the network, so that disturbances of the former are not transmitted to the lines will. Are the protective devices now based on the idea of the voltage drop or if it is a so-called distance relay, then in all cases in which a voltage transformer fuse responds, also address the protective device and thus a fault on the line can be simulated. The further consequence would be a useless shutdown of the line and interruption of the energy supply.

In order to avoid these disadvantages, are controlled by the protective devices Additional tripping circuits, also from the main circuits to be protected dependent monitoring devices are provided which, in the event of faults in the protective devices, For example, if the voltage transformer fuses blow, the tripping circuit will automatically be activated for as long Block when the main circuits are not affected by the interference. Simultaneously you can arrange an optical or acoustic signaling device, which triggers in each case when the protective relay responds and thereby indicates the fault ". The drawing shows an exemplary embodiment of the invention in single-pole representation. 1 is the line to be protected, 2 is in this line built-in current transformer, 3 a voltage transformer connected to line 1 via fuse 4, 5 the protective relay (e.g. distance relay) that depends on the current and voltage in line 1 is and the trip contacts 6 controls; 7 are the busbars of a substation, in which the protective devices are set up. On the low voltage side of the station transformer 8, a zero voltage relay 9 is arranged, which the in Row with the contacts 6 and the tripping coils of the switch 14 to be monitored lying contacts 10 controls. 12 is the auxiliary power source, which is used to excite the Trip coil 11 and the acoustic or optical signal device 13 is used.

When the fuses 4 respond, the voltage disappears and the

*) The patent seeker stated as the inventor:

Dipl.-Ing. August Arnold in Hamburg.

relay 5 close contacts 6 and release, in this case, try to initiate a faulty circuit. As long as the Voltage is present on line r, the open contacts io prevent tripping. If, however, there is actually a voltage reduction when relay 5 responds is present in the network, the relay 9 responds, so that the contacts 10 are closed are and the trip coil 11 of the switch is energized and the switch is turned off will.

The signal device 13 is connected so that they are in each case when closing the Contacts 6 responds regardless of the position of the contacts 10 and thus reveals that there is a fault. If the response of the signal device 13 of the coil 11 controlled switch fell out, so you know that the disturbance in the network lies; however, when the signal device 13 responds, the switch is closed, see above you know that the fuse 4 is blown.

Claims (4)

Patent claims: i. Monitoring device for electrical line systems, characterized in that that the tripping circuits controlled by protective devices by additional Monitoring devices in the event of faults in the protective devices are blocked as long as the main circuits are not affected by the disturbances. 2. Monitoring device according to claim i, characterized in that the devices used for monitoring depend on the main circuits to be protected. 3. Monitoring device according to claim ι dependent on the voltage Protective relay, characterized in that, in addition to these protective relays, a zero voltage relay is also provided. that is connected to the mains voltage independently of the voltage coil of the protective relay and its contacts work together with the contacts of the protective relay in such a way that that the switch is only triggered when both relays have responded. 4. Monitoring device according to claim ι and 2, characterized in that that an optical or acoustic signal device is connected to the trigger circuit that it responds of the protective relay responds regardless of the position of the zero voltage relay. For this purpose ι sheet of drawings