DE585891C - Arrangement for swing-free voltage regulation of AC power lines by means of compensation devices - Google Patents

Description

Arrangement for swing-free voltage regulation of AC power lines by compensating devices It has been proposed to reduce the voltage of AC power lines, through compensation devices distributed along the line, especially chokes or static capacitors, to regulate each of which is made up consists of several stages, which are switched one after the other with a time delay.

According to the invention, the arrangement is made so that the temporal Distance between the switching of two stages depending on the size of the voltage deviation of .einem set operating value changes in such a way that with a small voltage deviation the 7-way distance is so great that in the meantime the machine controller Has time to regulate the voltage of the machine back to its normal operating value, but that in the event of voltage deviations above a predetermined limit value, the the time interval is considerably smaller. This creates a stable voltage regulation possible without the required control time of a control process taking too long.

The drawing shows an embodiment of the invention. Of simplicity only one station with its compensation device is drawn for the sake of it. the In the example chosen, the compensation device consists of individual choke coils 31, 32 and 33, which one after the other with a time delay to the line .2 to or from her can be turned off. The inductors 34 32 and 33 can by Switches 4, 5 and 6 can be connected to the line. The switches have closing coils 41, 51 and 61 and opening coils 42, 52 and 62. One end of the closing coils 41 and 61 and one end of the opening coil 52 are connected to a collecting line 12, while one end of the disconnection coils 42 and 62 on the collecting line 13 and one end of the closing coil 51 are located. The second ends of the closing coils are via self-interrupting contacts 45, 55 and 65 on their own switch and above Locking contacts 43, 53 of the switch preceding in the switch-on sequence on the control line 16, the second ends of all the tripping coils are above Self-interrupting contacts 46, 56 and 66 on its own switch and via locking contacts 54, 64 of the previous switch in the switch-off sequence on the control line 15-14 is a voltage relay that depends on the voltage of the trunk line the control line 16 or the control line 15 is energized, depending on whether the voltage of the long-distance line is above or below the setpoint. 7 and 8 are timing relays with a small delay, and 9 and io are timing relays with greater delay, which the switching cycle time depending on their response time determine. As timing relays 7, 8, 9 and io, those relays are used that are used in Excitation immediately open their control contact and only after the excitation has been interrupted close again after an adjustable time. The excitation of the timing relays 7 and 9 is in the manifold 12, their contacts are in the manifold 13. In this is the excitation of the timing relays 8 and 1o, their control contacts in the bus 12 lie.

If, as shown in the drawing, all reactors are switched off and if for some reason the voltage of the pipeline rises, that closes Voltage relay 14 the lower contact for the switch-on line 16. It is now flowing a current from the battery through the lower closed contact of relay 14, Closing line 16, self-interrupting contact 45, closing coil 41 of the switch 4, bus line 12, excitation of timing relay 7, control contact of timing relay 8, Excitation of the timing relay 9, control contact of the timing relay OK, back to the battery. As a result of the energization of the closing coil 41, the switch 3 is switched on, interrupted the circuit of its closing coil 41 and bridges the locking contacts 43, so that the next switch 5 is prepared for switching on. This switch but is not yet switched on because the timing relays 7 and 9 when they are excited have immediately interrupted the bus line 13, at which the other end of the closing coil 51 of the switch 5 is located. Only when the time relays 7 and 9 have expired will the bus 13 is connected to voltage, and the next switch 5 is switched on, if the switch-on line 16 is still through the voltage relay 14 to the battery connected is. If a current flows through the bus 13 and the switch 5, so. the timing relays 8 and io are energized and immediately interrupt the bus line 12. Since the relays 7 and 9 or 8 and io are connected in series, after Switching on a switch another will only be switched on as soon as the relay with the longer delay has expired.

The switches are also switched off in a corresponding manner by exciting the switch-off line 15.

According to the invention, a changeover relay i i is provided, which with normal Tension or in the case of minor tension deviations in the middle position. In the event of voltage deviations however, which go beyond a predetermined limit value, the changeover relay closes ii depending on the direction of the voltage deviation, its upper or lower contacts, whereby the timing relays 9 and io short-circuited with the greater delay time so that with large voltage deviations only the timing relay with the small Delay determine the switching sequence time.

Claims (1)

PATENT CLAIM: Arrangement for swing-free voltage regulation of AC power lines by means of compensation devices, each of which consists of several stages (e.g. choke coils) exists, which with a time delay, for example depending on the voltage, are switched on or off one after the other, in that the Time interval between the switching of two stages depending on the size the voltage deviation from a set operating value changes in such a way that in the case of a small voltage deviation, the time interval is so great that in the meantime the machine controller has time to return the machine voltage to normal To regulate operating value that, however, in the event of voltage deviations above a predetermined In addition, the time interval is considerably shorter.