DE699816C - Device for the graphic representation of the states present or occurring in a monitored network by means of a simulation - Google Patents

Description

A device for simulating an electrical power distribution network is known in which the lamps of the line replicas are made to light up depending on the conditions present on the corresponding parts of the monitored power distribution network in that the symbols are directly connected to the corresponding parts of the distribution network by cables or converters of the usual type. A device of this type is shown schematically in Fig. I. The strong lines in the left part of the figure show the arrangement of the distribution network. In the case under consideration, this consists of a power generator 2, a line 8; an oil switch 3y of a line 9 and a disconnector q., to which a further line section i is connected. The distribution network also contains a further isolating switch 7, a line section ii, an oil switch 6 and a line section io, which is followed by a further line section 5, only indicated, for example a long-distance line, * which can also be energized from the opposite side . A weakly drawn simulation circuit is assigned to this energy distribution network, the individual parts of which have corresponding designations. For example, the line 8 in the replica is assigned the line section 8 ", the oil switch 3 an auxiliary contact 3" operated in the same way, etc. A converter of the usual type iz is assigned to the power generator 2, and the other voltage source (long-distance line 5) is assigned a converter 13 is assigned. In the right-hand part of Fig. I, the image of the replica is then given with double lines, as it is available, for example, in the form of a light or mimic diagram in the central monitoring station. The pictorial representation contains symbols for the individual parts to be reproduced, for example the generator symbol 'with 2', the oil switch symbol with 3 ', the disconnector symbol with q.' and so on. The same notation is used for the lines between the switches. The switch symbols are simply made to light up in accordance with the prerequisite that their lamps are connected to voltage simultaneously with the actuation of the switches in the distribution system. To illuminate the symbols of the power sources and the line sections dependent thereon, the two converters 12, 13 are provided. B. with A and B designated corresponding lamps feed. These lamps therefore light up when the converters 12, 13 carry voltage, that is to say when voltage is itself present in the corresponding part of the distribution network. By operating the auxiliary switch, such as. B. g ", this voltage is passed on to the other symbols of the simulation. A network simulation of this type thus allows the actual operating status of the monitored system to be recognized at any moment With simulations of the type mentioned above this was not possible until now. However, the subject matter of the invention enables the mentioned network simulations to be used for this purpose, namely in that means are provided which, during a preparatory switching operation, the voltage transmission to disconnected or disconnected. on phase and voltage, prevent unequal power supplies .. The means used consist - mainly in the fact that in the secondary circuit of each voltage converter - a zero voltage relay or another device that is only permeable in one direction, such as an amplifier, is placed. Add Switching of two power supply units is monitored by inserting resistors, reactances or the like in such a way that if asynchronous power supply units are intended to be interconnected, the brightness of the display elements changes. However, the invention is independent of the form of display selected in each case.

In Fig. 2 a monitoring device according to the invention is shown: In this figure, for the sake of simplicity, there is only an alternator 2, which feeds the line i via an oil switch 3 and a cutting knife 4, is shown. In the embodiment according to Fig.2, the same numbers are otherwise as in Fig. I used to designate the same organs. The switch 3 should for example be switched on and off by a remote operation, namely by means of the switch-on coil 15 and the switch-off coil 16, which are supplied by an auxiliary power source 17 are fed. Switching on and off is made possible by a switching device P1, e.g. B. by push or pull buttons, which z. B. on a control panel that represents the middle part of Fig. 2 are located. Furthermore, auxiliary contacts 18, 19 provided, which are operated in response to the switch 3 and the z. B. a green lamp 2o for a switch position and a red lamp 21 for the control other switching position. The switching device P2 is used to make switching changes of the switch 3 only to simulate, but not to be executed. The cutting knife 4 is only equipped for close-up operation by hand in the exemplary embodiment described. The switching device P3 then only serves, similarly to the switching device P2 for displaying switching changes of the cutting knife, but not for actuation actual switching operations. The cutting knife 4 controls an auxiliary contact 22, the in the symbol 14'- brings a lamp 23 to light up when the cutting knife 4 is closed is.

Assuming that the generator 2 is switched off, the switches 3 and 4 are open, then the contacts of the auxiliary circuits are in the position indicated in Fig. 2, and only the green lamp 2o, which is fed by the auxiliary power source 17, is lit. In addition, at this moment the contacts 24 and 25 of a zero voltage relay 31 are short-circuited when the generator 2 is working. When the current source 2 is now energized, the auxiliary line 8 "is simultaneously energized, by means of the voltage converter 12, whereby the lamps' A light up and the parts 2 'and 8' of the network replica illuminate and which indicates that the power source 2 and the line 8 of the main circuit are live. Before the oil switch 3 is closed by actuating the switching device Pi, one can determine by actuating the contact 26 of the switching device P2 what effect the switching operation to be carried out will have and whether everything is in order When the contact 26 is actuated, the group of lamps B lights up, which illuminates the line 9 The contact i 8 opens at the moment when the contact i 9 closes, and so on nd although at the same time with the closing of the oil switch 3, which has the consequence that the green lamp 2o goes out and the red lamp 21 lights up. At the same time the contact 3 ″ is closed, which applies voltage to the lamp group B, whereby the final lighting of the line section g 'is ensured. In preparation, close the contact 28 of the switching device P3, which has the consequence that, if the entire system is in order, the lamps C light up "closed, with the result that the white indicator lamp 23, which is fed by the power source 17 , lights up. and at the same time the lamps C which are fed by the auxiliary circuit and which illuminate the line run i '. The trial or preparatory actuation - the switch 3 and 4 can be carried out in the same way before the opening of these switches, namely by actuating the contacts 3o and 29 of the switching devices P2 and P3.

At the moment of an attempted operation one could run the risk of by means of one of the voltage converters for the display (12 and 13) voltage to a Machine or a cable run that is not in operation. So- would be it z. B. conceivable; that in the device according to Fig. i, the feed line 5 is is under voltage, the oil switch 6 and the cutting blades 7 and 4 are closed but the oil switch 3 is open and the machine 2 is stopped. if now the experimental actuation of the switch 3 is carried out, then sets the Voltage converter 12 the machine 2 under voltage during this experiment. To this To avoid inconvenience, one adds to the secondary circuit each the voltage converter a zero voltage relay, so that z. B. the contact 24 of the Zero voltage relay 31 (Fig.2) is open when generator 2 is at a standstill and so the closure of the contact 26 does not give high voltage to the generator 2 can. It could now also happen that two Machines or feed lines that are not in phase with one another, during the preparatory interconnection via the voltage transformers conveying the display a short circuit between these machines or feed lines can be caused could. This inconvenience is addressed by means of reactances, e.g. B. 32 (Fig. 2), eliminated, which are inserted in the low voltage line of each voltage converter. These Recktanzen are dimensioned in such a way that a reduction in the brightness of the light in the Signals in the luminous circuit diagram does not occur if the auxiliary circuit is in the proper state State. The zero voltage relays, e.g. B. 31 according to Fig. 2, now still have additional break contacts, e.g. B. 25, which are in the inrush circuit of the Mains coupling switch must be switched on. The trial operation of a Switching action @ in the auxiliary circuit, e.g. B. when closing the oil switch 3, is then prevented by the relay dropping out if the voltages are not equal. Namely, if the voltages of the two circuits to be connected by the switch 3 are not in phase -, the switch-on circuit of the oil switch _3 remains at the contact 25 interrupted, and the oil switch 3 cannot be closed, despite the announcement, which is given by the intermittent lighting in the luminous circuit diagram.

The Fig.3 shows schematically a further embodiment according to of the invention, which differs from that according to Fig.2 only in that the switching devices P1 and P2 are combined to form a unitary apparatus P4. The names of the Fig. 3 correspond to those in Fig. 2 for the same apparatus. Contacts 26 and 27, which are arranged in the common switching device P4 are through the same Actuator operated but in the manner; that the contacts 26 prove to be in the trial Actuating. supply before final closure of switch 3 close before the Contacts 27 close with the final switching command. Contacts 3o and 33, which are combined in the switching device P4, are operated by the same actuator 'controlled, but in such a way that the contacts 3o are in the trial opening of the switch 3 open before the contacts 33 with the final switching command conclude. The mode of operation of the entire device according to Fig. 3 is otherwise similar to that of Fig.2. In the event that a very large one in the luminous circuit diagram Number of organs to be monitored including lines etc. are to be shown and consequently also a very large number of lamps or other signaling means need to be accommodated, it may be desirable to use contacts 3 "and 4" and the remote controls P2 and P3 are not in the auxiliary circuit that controls the lamps or other signaling means, but rather in an actuating circuit, which is fed from a special auxiliary power source. The lamps or others Signaling means are then only controlled by the auxiliary circuit, namely by means of contacts which are arranged in the remote control circuit.

Fig. 4 is a schematic representation of such a device. It is the same switchgear as it; is shown for example in Fig.2. The oil switch 3 and the cutting knife q. associated signaling means and the actuators of the oil switch 3 are shown in Fig. q. omitted to simplify the circuit arrangement. However, the same designations have been chosen here for the same organs in both figures. The circuits for the remote control are all from an auxiliary power source 3q. fed. If one assumes that the current source 2 is live and that one intends to close the oil switch 3, one must first carry out the preliminary circuit by actuating the contact 26. As a result, the coil 35 of the contact 36 is energized, whereby the contact 36 is closed, which, assuming correct operation, has the consequence; that the line g 'is illuminated. If then the switch 3 is closed - the closing of the contact 3 "causes the short circuit 'of the contacts 26 and thus keeping the contact 36 closed, whereby the line g' remains switched on as long as the oil switch 3 is in the switched-on state Others, switching operations and display operations are carried out in a similar manner by a contact device 37, 38, which is through the contact q. " and P3 are controlled.

In the above-described exemplary embodiment, the backup takes place disconnected line parts against the penetration of operating voltage by a Relay circuit. Instead of this relay-like backup, it can be advantageous to use of the invention, also a device such that the entire replica occurs is fed from the converter via amplifier devices, so that by no means a Reverse current can occur. Another advantage of this arrangement is that the converters are not loaded.

Claims (5)

CLAIMS1: i. Device for the graphic representation of the in conditions existing or occurring in a monitored network by means of a simulation, in which the symbols directly or via converters of the usual type with the associated Power supplies are connected, characterized in that means are provided, the - during a preparatory switching operation, the voltage transmission is switched off or prevent power supplies that are unequal in terms of phase and voltage. 2. Establishment according to claim i, characterized in that each voltage converter in the secondary circuit a zero voltage relay - is inserted. 3. Device according to claim i, characterized characterized in that the replicas from the transducer via amplifier devices be fed. ¢. Device according to Claims i to 3, characterized in that the display of the interconnection of two power supplies by inserting resistors, Reactances o. The like. Is monitored in such a way that the intended interconnection of non-synchronized networks, the brightness of the display organs Changes. 5. Device according to claim i to q., Characterized _, that the remote control elements are arranged in an actuating circuit which is fed from a special auxiliary power source.