DE657298C - Remote control device for the optional switching of several parallel lines from a central point - Google Patents

Description

Remote control device for the optional switching of several parallel lines from a central point It is known to have audio-frequency alternating currents to use for remote control of switches, in such a way that the switching devices by currents directly induced in part of the alternator can be influenced by the frequency deviating from the fundamental harmonic. Be there the switches open when the harmonics assigned to them disappear and thereby the associated machines or machine groups are shut down.

It is also a device for controlling and monitoring a plurality -adjustable organs known by various combinations of each other different frequencies can be selected. The adjustment of a selected Organ causes at least one of the necessary to select the organ l1 r equenzen is excluded from the transmission. In order to reduce the With a certain number of frequencies selectable, adjustable organs are special Relays provided, which are used for the transmission of the frequencies transmission lines one after the other to the individual frequencies that can be selected using the available frequencies Switch groups of adjustable organs.

Finally, a selective electrical signal system is known at which can be made to address receivers from a remote location, which are connected to an electrical distribution network and via the feed lines of the network sent signal streams received from audio frequency. At this facility the signal currents are fed into the feed lines one after the other and separately from one another sent with the help of circuit transformers, whose primary windings are in series with the individual feed lines and their secondary windings one after the other and separately from each other individually or in groups to the generating machine for the Signal currents are switched.

In the case of the subject matter of the invention, the transmission also has a higher audio frequency Alternating currents from a central point for remote control of switches are used made. In particular, it is a remote control system for switching of the parallel branch lines of a high voltage network to one Low-voltage network using non-network control frequencies with remote switch position indicator. According to the invention, at the end, each of the parallel branch lines is a control energy arranged in terms of their amplitude - 'changing member, and a switching operation is caused by a power transmission from the control generator via the line to be switched caused, with the switching of the respectively undesired parallel lines this prevents their receiving relays from being dimensioned for the control frequency are that they cannot respond to the reduced energy. in the In contrast to the known devices is therefore the subject of the invention for switching the branch lines on and off - only a single frequency is required, and the character of the current signs does not need to be made different to become, even if there are a large number of parallel Lines that are to be switched on and off as required.

An exemplary embodiment of the invention is shown schematically in the drawing shown, namely Fig. i shows the control device for an electrical power distribution network and Fig. 2 shows a further embodiment of the control device according to Fig. i.

In Fig. I i is an alternating current network that uses electrical energy from another alternating current network: 2 or a generator via a plurality of Feed lines, for example lines 3, are to be fed. For simplification In the illustration, the line system is only shown in one phase. Each feed line 3 contains a step-down transformer .4. The low voltage winding this transformer is arranged so that it goes through with the line system i the power switch 5 and the high-voltage winding through the power switch 6 with the line system 2 can be brought into connection. The transformers .1 and the switches 5 are usually in the vicinity of the line or busbar system 1 arranged. The switches 6 are provided with an overload cut-off device. These switches can be switched on manually and again manually or automatically turned off. The automatic shutdown device is through the current transformer io and the overcurrent relay 9 shown. The switches 5 have a closing coil i i provided and a trip coil 12 which acts on the latch 13. Around the switches 5 when a fault occurs in one of the branch lines or in switch off the transformer q., which could possibly result in a reverse current, these switches are provided with reverse current relays 15. Each `: this relay has one Voltage coil 16, the "-iüit the branch line 3 before the oil or", Aöristigen Switch 5 is connected, and a power source 17 behind this switch is connected to the secondary winding of the transformer 4. via a Current transformer i8, The contacts 21 of the reverse current relay are closed when these exceed a certain amount. When the contact 21 is closed a circuit for the trip coil 12 via the auxiliary contact of the switch 5 is closed. The amount of reverse current that triggers the trip can depend on the voltage be made dependent on the network. In the monitoring body there is now a, with proportionate Low voltage working carrier current generator 2o provided with the help the switch 22 is optionally switched to one of the branch or feed lines 3 can be. The frequency of the carrier current generator 2o is expediently chosen so that it goes over the transformers 4 with certainty. Preferably will the generator 2o is given i2 times the mains frequency or about 72o periods. At the receiving location Relays 23 responding to the audio-frequency control currents are provided, for example AC relays connected to the current transformers via the coordinated circuits 25, 26 24. Communicate. The primary winding of this current transformer is in series with the secondary winding of the transformers q. switched. The circle 25 is as a pass-through circle, the circuit 26, as can be seen from Fig. i, connected as a blocking circuit. The blocking circle 26 is matched to the network frequency of the networks i, 2, the pass-through circuit to the Frequency of the control current. The relay 23 always respond when a certain Amount of control energy in lines 3 or branch lines of the laminate rail system i exists. The relays 23 cause when they respond to the shutdown of the Force switch 5. When one of the feed lines 3 is switched off, the operator opens first the corresponding switch 6, during which time the transformer 4 still supplies voltage in this line, since the switch 5 is still closed is. Then the operator operates the switch 22, which is to avoid a accidental shutdown of switch 5 before switch 6 is open, in the circuit influenced by them still the auxiliary contact 29 of the oil switch 6 contains. When the switch 22 is actuated, the contact 29 Tax flow given over the line 3 and the network i, the distributed to the consumers of the network i and all branch lines 3, etc. the all control energy that is fed to your network flows through the secondary winding des -Netztransformators 4 der: Ibzweigleitung 3, which is to be separated while only a fraction of the total control energy flows through the remaining lines. Appropriate dimensioning of the relay 23 has the effect that only that relay 23 comes to response, the control current contains sufficient amount. That to speak to Relay 23 that has come therefore closes its contacts 28 and thereby brings about the trip coil i2 the switch to drop out. When the subject of the present ends Invention, the disconnection of one of the switches 5 is made dependent on The control current in the individual remote release relays has a certain amount must exceed before these come to claim. To avoid an undesirable Responding to one of the control relays 23, which could come about that there is still enough control current energy to reach the diesel relay via the lines i, are expediently switched on before the lines i or after the switches 5 impedances 3o, which are matched to the frequency of the control current, that of the line i control energy revoke.

After a branch line 3 was switched off, it can through the Operating modes of the monitoring station are thereby taken back in, that first the power switch 6 is switched on, whereby over the transformer 4 the closing coil i i is energized, causing the switch 5 to close Has. In the event that there is a fault in any branch line 3 or in a derTransformatoren 4 occurs, this initially causes the switch to be switched off 6 by activation of the over-current release magnet 9. In this case, energy would from the network i, flow towards the point of failure. To avoid this, those are Reverse current relay 15 is provided, which then cause the switch 5 to be switched off, when this reverse current exceeds a certain value.

Because the embodiment according to Fig.2 is based on the use of two Current transformers 18 and 24 are omitted. The relay 23 is in this arrangement to the Secondary side of the transformer 18 connected via the blocking circuit 26, which is matched to the mains frequency.

By measuring the currents in each of the switch 22 outgoing lines can also check the operating status at the monitoring or switching point the individual switches 5 are read or the course of the switching operations is followed will.

Claims (6)

PATENT CLAIMS i. Remote control device for optional switching of several parallel lines from a central point, in particular to Connection of the parallel branch lines of a high-voltage network to a low-voltage network using non-network control frequencies with remote switch position indicator, characterized in that at the end of each of the parallel branch lines (3) a the control energy is arranged in terms of its amplitude changing member (3o), and that a switching process by a current transmission of the control generator (2o) over the line to be switched is initiated, and that the switching of each is not desired parallel lines are prevented by their receiving relay (23) for the control frequency are dimensioned so that they respond to the reduced energy can not come to speak. 2. Device according to claim i, characterized in that that the individual receiving relays (23) through their control energy of non-network frequency Current transformers (24) arranged at the receiving locations from the individual feed lines and that the primary windings of the converter are in series with the secondary winding the high-current step-down transformers (4) located in the branch lines. 3. Device according to claims i and 2, characterized in that prior to actuation of the control switch (22) for switching off one on the low-voltage side Power switch, a high-voltage switch (6) located in the switching point is opened is, and that the contacts of the control switch for actuating the fer NEN switch can only close the control circuit for the control energy if the position the auxiliary contacts of the high-voltage switch (6) closed, d. H. this opened are. Device according to claims i to 3; characterized in that the activation a branch line (3) is effected in that first the high-voltage switch (6) is closed, and that via the step-down transformer (4.) the closing coil of the remote switch (5) is energized. 5. Device according to claims i to 4., ` - characterized in that the High voltage switch (6) with overcurrent release (9, io) is provided, which through its auxiliary contacts (z9) to the control current transmission acts, and that the control frequency can be influenced by the low-voltage switch (5) is provided with reverse current release (i5) so that when the high-voltage switch is open (6) and interference in the control frequency transmission line - (3) a safe opening the low-voltage switch (5) is guaranteed. 6. Device according to the claims i to 5, characterized in that in front of the parallel lines (3) at the far Place connecting lines (i), but at least behind each connection for the on the control frequency. responsive trip relay (a3) absorption circuits (30) for the control energy is switched on.