DE739264C - Method for the remote control of receiving relays connected to a power network with the aid of intermediate relays - Google Patents

Description

Procedure for the remote control of those connected to a high-voltage network Receiving relays with the help of intermediate relays Most modern power networks for the individual consumer districts, e.g. B. the boroughs consist of one Low-voltage part to which the individual consumers are connected, and one High-voltage part, which is connected to one or more transformers, for example Make the low-voltage network feeds.

It is known the conductors of the network for the remote control of receiving relays exploit, with the help of which, for example, from a central point from street lighting systems switched on and off, meter switched from high to low tariff, hot water storage tank etc. can be switched.

It has been proposed to change the receiving relay temporarily to control the power frequency. However, this makes great difficulties because at such a control not only the speed of all the generators feeding the network, but also those generators that are coupled by long-distance lines, would have to be changed at the same time. The speeds would also change the network connected. Motors change, which is also undesirable. Simultaneously the voltage would have to be readjusted according to the speed change on all generators will. Such remote control is practically impracticable and still suffers due to the lack that only a few commands can be given.

According to another known proposal, the high voltage changed very briefly or switched off, and the receiving relays receive so-called Voltage drop magnets that respond to these brief changes or shutdowns respond to the mains voltage. Such a procedure is particularly difficult then feasible if the low-voltage network has transformers at several points is fed because the simultaneous change or disconnection of the voltage to the different Feeding points are all the more difficult to implement, the more these voltage changes or shutdowns should be shorter. But now I have to always work with very short changes or shutdowns, so not the motors connected to the mains. are out of step and the brightness of the Lighting systems fluctuates.

According to another well-known proposal, the heavy current network Currents of non-network frequency, especially audio frequency, between the individual Network conductors superimposed. Here, however, the control current generator must be made so large that that it is a multiple of the control energy required to operate the receiving relay generated because the vast majority of this energy comes from those connected to the grid Heavy current consumers is added.

It is also known to control currents in the power network to earth to push open. However, the practical implementation of this process usually fails that no suitable earth connections are available for the receiving relays and that these relays, especially in the case of poor earthing, can easily be removed from the power consumer ; can be influenced. This is especially problematic when the relays Have to switch tariff sets, because then the heavy current consumer will be able to is to set the most favorable tariff for him by influencing the relays.

It is also known to use three-phase networks with overlay If the frequency is not connected to the network, the transformers for the superimposed currents flow through it to bridge the fact that they are shielded against high current frequency secondary transformers or that one is superimposed on one transformer side connected power supply actuates an intermediate relay, which a special superimposition generator switches on for the power supply unit on the other side of the transformer. In both However, with these known methods, the type of overlay is the same, On both sides, earth-superimposed currents of non-network frequency are used. But this type of overlay also causes difficulties in larger networks because, if bridging transformers are used, the entire control energy must be used raise a common central point, and it will be very difficult to find this Distribute energy evenly across the grid. But are at the individual transformer points special superimposition generators installed, which generate currents of non-network frequency, so it makes great difficulties at the different points of the network arranged generators to set the same frequency and phase.

The invention avoids such difficulties. As with the known Remote; control systems are superimposed between earth and the power network Control currents of non-network frequency, in particular audio frequency, one or more Intermediate relays distributed over the network operated. However, these relays cause the Do not respond to a superimposition of the subsequent power supply units, but control them according to the invention devices for temporarily changing or switching off the Heavy current voltage to which the actual receiving relay of the remote control system speak to. According to the invention, the changes before and after the intermediate relay Remote control type. Before the Z «-ish relay is superimposed, behind the intermediate relay worked with voltage reduction.

The invention will be explained in more detail with reference to the drawing.

N is a high-voltage network that feeds the low-voltage network. At an existing or artificial star point i of the network N, an audio frequency generator q is located above the circuit consisting of the choke z and the capacitor 3. connected, which is connected to earth E via switch 5.

Ti and T. are two spatially separated transformer stations. In station T, the intermediate relay is on the high-voltage side at the star point 6 connected, which has a switch 7 for the excitation winding of the high-voltage switch 8 actuating contactor 9 controls. Instead, as for example in the station T., the intermediate relay 6 to an artificial star point io, which by Star-connected chokes, resistors or the like. Is formed, be connected. Such a connection is particularly suitable when the transformers are connected in a triangle on the high-voltage side. i i are those connected to the low voltage network connected receiving relay, for example switch 12 for lighting systems Press 13.

The system works in the following way: Should the lighting system 13 switched off «, then the Steuerger_erator4, for example a Frequency of 270 Hertz. generated, depending on the construction of the receiving relay: on or switched on several times at certain time intervals; with every 'control pulse the intermediate relays 6 respond and cause the switches to briefly switch over B. As a result, the low voltage is switched off one or more times. the Receiving relays i i speak after the first switch-off or only after several switch-offs on and open the switch 12. This switches off the lighting systems 13. If they are to be switched on again, switch 5 is in another Rhythm, in different timings, more or less often than the first time. The receiving relays i i then receive in other time intervals in another. Rhythm, more often or less often voltage pulses and close the switch i2. The construction and operation of such receiving relays is known. They can z. B. in addition to a voltage drop magnet or a timer, z. B. one to that Low-voltage, network-connected synchronous small motor have .en, which on arrival of the first or the first voltage pulses due to the armature falling off the voltage drop magnet is set in motion and, after a certain period of time, prepares the legs for a control act, which is only carried out if there is a new voltage pulse at this point in time occurs. The relay i i can also be designed in a known manner so that they only switch if a certain number of times within a certain time of voltage pulses arrives.

The invention offers the following advantages: The receiving relay can connected between the conductors of the low-voltage network, earth connections fall away, they are also protected against malicious interference. The low voltage can be changed or switched off at all points of the network at the same time, even if there are several feeding points. The control generator 4 does not need to feed the power consumers connected to the network, since it is between earth and the network conductor is located, so it turns out to be small and cheap. The small number Intermediate relays can easily be earthed because at the transformer station: en reliable earth connections are always available. Malicious disturbances of the intermediate relay .are excluded because the transformer stations are not suitable for power consumers are accessible. Under no circumstances can they be operated from the low-voltage side are "because potential shifts of the star point on the low-voltage side are not transferred to the high voltage side by Aden transformer. Such Plants can also easily be set up for semi or fully automatic operation. carry out, if you have the generator 4 and the switch 5 with appropriate, for example of a clock-controlled actuators.

Claims (2)

PATENT CLAIMS: i. Method for the remote control of a power network connected receiving relay with the aid of intermediate relays, which are controlled by a -Centralized by superimposing non-network frequencies, especially audio frequencies be actuated and in turn Fernstewerimpuls: e to actuate the actual Initiate receiving relay, characterized in that as a remote control pulse for the actual receiving relay, brief changes or disconnections of the High voltage of the network can be used to which the reception @ relay respond. 2. Device for performing the method according to claim i for high and low voltage networks coupled by transformers, in which the high voltage network is superimposed with currents of non-network frequency above ground and in which between the high voltage side of the transformers and the earth to the superimposed frequency matched intermediate relay for actuation a signal device for the low-voltage network are switched on, characterized in that the intermediate relays control a device for briefly changing or switching off the voltage of the low-voltage networks and that in the low-voltage network, for example, receiving relays provided with voltage drop magnets are connected between the conductors of this network, which are connected when on or - address repeated voltage changes or disconnections, in particular at certain time intervals. To distinguish the subject matter of the application from the prior art, the following have been considered in the interim proceedings: German patent specification No. 297 87 i, 503734, 472 923; Austrian Patent No. 1219i2; French - - 27930, 27 398, 776 348.