DE2827305A1 - Switch position signalling device - has bistable relay controlled by switch position and controlling voltage supply to signalling lamps - Google Patents

Abstract

The device has a bistable relay operated by a component connected to the switch. A first change-over switch connects one of two switch position signalling devices to a supply voltage. There is a monostable relay with a switch whose contacts are connected to voltages generating different signals on the signalling devices. Its fixed contact is connected to that of the first changeover switch. Signal wires (2 4) of the bistable relay (K1) pass through a break contact (6) of the monostable relay (K2) whose position depends on that of the second switch (8) of the bistable relay (K1). Decoupling diodes (3 5) are inserted into the wires (2 4) immediately before or after the relay (K1).

Description

Feedback device for the position of a switching device

The invention relates to a feedback device for the position of a switching device, with a bistable relay, which is dependent on a switching element coupled to the switching device stands as a position transmitter and which has a first switch, each one of two positions connects display elements assigned to the switching device to a supply voltage, and with a monostable relay with a changeover switch, its changeover contacts with supply voltages generating two different signals on the display elements are connected and its fixed contact with the fixed contact of the bistable; relay associated first switch is connected. Such feedback devices are customary.

Such feedback devices should monitor the position of switching devices, for example of circuit breakers or disconnectors, with the highest possible level of safety transmit via line connections and via relay contacts on Lights as display elements for the switch-on and switch-off status of the switching device bring to the display. Such a feedback device must display a faultless display of the switching status of the monitored switching devices, otherwise due to incorrect switching Hazards for operating personnel or system components can arise. Disorders of the Feedback devices must be clearly recognizable in the display. Such disturbances can, for example, dips or failure of the supply voltage, breakage of the Connection lines or a fault in the monitored switching device.

The bistable relay is used in conventional feedback devices in series connection with the monostable relay between the one with the switching device coupled switching element serving as a position transmitter and the negative rail. However, there is a disadvantage to these feedback devices: the security of the The display is only preserved if the contact change in the switching element does not occur takes place extremely quickly, i.e. the switchover process must take place for a certain minimum period of time the Umsdialtglied deliver the voltage zero. If the contact changes too quickly the case may arise that the mono stable relay is too short dimensioned during the stress-free transition phase because of an unavoidable minimum inertia more drops, whereby auxiliary branches that are dependent on this drop and that after a contact change of the switching element serving as a position transmitter controls the switching process in the bistable Relay favoring high current flow through the previously de-energized winding, remain inoperative. This can be used to monitor the very fast switching process Switching device and thus also the switching element in a conventional feedback device the bistable relay remain in its original position and thus give rise to a false report. To rule out this hazardous situation, additional circuitry measures are required, which increase the Mean effort.

The invention is based on the object of a feedback device Specify the type mentioned above, which despite the simple structure even with extreme rapid switching operations of the switching device and switching element, there is a risk of incorrect displays excludes.

The object is achieved according to the invention in that the signal lines for the bistable relay via at least one break contact of the monostable relay are performed that the monostable relay is only dependent on switching from a second changeover switch of the bistable relay in each case with the currently live Signal line of the bistable relay can be connected and that in the signal lines blocking diodes are connected immediately before or after the bistable relay.

This means that - depending on the position of the switching element - after a switching process the full supply voltage on the winding assigned to the new switching state of the bistable relay. A breakdown of the bistable relay in the previous one Position and thus a false indication in the case of very fast gear changes locked out. This feedback device is only available with little effort To create components.

It is advantageous if the signal lines of the bistable relay connected on the output side and then via only one break contact of the monostable Relays are performed. This is used to connect the bistable relay to the negative Rail only requires one line and only one break contact of the monostable Relay occupied.

In an advantageous embodiment, all coils are relays each bridged by a quenching diode. This leads to the formation of an overvoltage avoided when switching off a relay winding.

The invention is illustrated below with reference to that shown in the figure Embodiment explained in more detail.

The switching element 1 is connected to the switching device, not shown here coupled and applies the positive voltage of the rail in the switch-on position EI P via the signal line 2 and the blocking diode 3 to the one marked with an asterisk Winding of the bistable relay K1. In the switch-off position of the switching device mentioned connects the switching element 1 in the position Al, the rail P via the blocking diode 5 containing signal line 4 with the second, unmarked winding of the bistable Relay K1. The previously unoccupied connections of the two windings of the bistable Relays K1 are electrically connected to each other and have a break contact 6 of the monostable relay K2 connected to the negative voltage of the N rail. That mentioned One-shot relay K2 is in node 7 with the negative rail and via one second switch 8 of the monostable relay with the current live signal line 2 or 4 can be connected. The second switch 8 of the bistable relay K1 also takes like its first switch 9, the position marked with an asterisk, if that bistable relay K1 assumes the position also marked with an asterisk, i.e. when the rail P via the position El of the switching element 1 with the signal line 2 is connected. Bridge switch 8 in the position marked with the asterisk this and the mono stable relay K2 in series the blocking diode 3, which with one Asterisk marked winding of the bistable relay K1 and the normally closed contact 6 of the monostable relay.

In the unmarked position of the switch 8 bridge this and the monostable relay K2, the blocking diode 5, the unmarked winding of the bistable Relay K1 and the normally closed contact 6 of the monostable relay.

Each of the windings of the bistable relay K1 and the winding of the monostable relay K2 is bridged by a quenching diode 10, 11 and 12, to the formation of overvoltages when separating these windings from the supply voltage to exclude.

Serve to display the switching position of the monitored switching device as display elements the incandescent lamps LA and LE, on the one hand on the negative rail N, on the other hand via the first changeover switch 9 of the bistable relay K1 and one Changeover switch 13 of the monostable relay either with a rail 14 for flashing light or a rail 15 for quiet light can be connected by the fixed contact of the Changeover switches 9 and 13 are connected together.

The following is the mode of operation of the shown in the figure Exemplary embodiment are shown. Here - as shown in the figure - it is assumed that the switching device is in the switch-on position, i.e. that the switching element 1 assumes the position El. This takes the bistable Relay K1 to the position marked with an asterisk. This is the first and the second changeover switch 9 and 8 also in the one marked with an asterisk Location. The monostable relay K2 is energized, so that the bistable relay K1 over the normally closed contact 6 is separated from the supply voltage. The light bulb LE shows the fault-free switching status of the switching device is indicated by steady light. Kick now as a disturbance, for example, a Interruption of the supply voltage from rail P - be it due to a voltage breakdown or a line break - on, the bistable relay Xi remains in its position, the monostable relay However, relay K2 drops out. So that the switch 13 falls into its excellent Position back and applies a flashing light generating voltage BL as a Supply voltage to the incandescent lamp LE, so that the malfunction is clearly signaled will. It is assumed here that the supply voltage BL consists of an interference-independent Voltage source comes from.

As an example of a further malfunction, it is assumed that at a subsequent switch-off process. the switchgear does not move to the switch-off position is reached and jamming of the switching device occurs in an intermediate position. This takes place in exactly the same way as in the previous fault case via Flashing light of the incandescent lamp LE indicates the malfunction status.

If the switchgear is switched off properly the switching element 1 in the position A1 over, whereby via the signal line 4 the Supply voltage of the positive rail P via the blocking diode 5 to the unmarked Winding of the bistable relay K1 is placed. The monostable relay K2, which over the changeover switch 8 located in the position shown on the now de-energized Signal line 2 has dropped out. The switch 13 is thus in the position shown, so that the incandescent lamp LE Flashing light shows. Since the normally closed contact 6 is also in the position shown is located, the bistable relay Kl goes into the unmarked position and thus also the first and second changeover switches 9 and 8 of this relay. The monostable relay is thereby excited via the signal line 4, so that the bistable relay K1 de-energized after reaching the new position by opening the normally closed contact 6 will. About the switch 9 and 13, which is now the position shown in the figure have left the quiescent light generating supply voltage RL of the rail 15 on the LA light bulb. This is the fault-free switch-off position of the switching device signals. In the last illustrated switching process of the invention It is a feedback device in contrast to switching operations in conventional feedback devices It is completely irrelevant how quickly the switching process takes place. Even if hypothetical it is assumed that the transition of the switching element 1 from the position El in the new Position A1 takes place so quickly that the supply voltage without a break from that with a Asterisk marked winding of the bistable relay K1 to the unmarked winding is placed, a correct display of the new switching status of the monitored Switching device achieved; because by the action of the blocking diodes 3 and 5 is initially a current flow from the signal line 4 via the two windings, which are then in series of the bistable relay K7 and those still in the position shown second switch 8 to the monostable relay K2 prevented. This is to be prevented essential, because otherwise it could be due to the voltage distribution on both windings of the bistable relay Kl this remain in its starting position. So must the relay K2 drop out first. Only then does the unmarked winding of the bistable relay K2 due to the presence of the entire supply voltage at the unmarked winding energized, so that the first switch of this relay the associated incandescent lamp LA is controlled and the monostable via the second switch 8 Relay K2 is connected to the voltage of the positive Schene P and thus quiet light appears on the bulb LA.

The inventive arrangement of mono- and bi- stable Relay and the associated switching contacts are thus excluded.

1 Figure 3 claims

Claims (3)

Patent claims y) i. Feedback device for the position of a Switching device, with a bistable relay, which is dependent on a with the switching device coupled switching element stands as a position transmitter and one has first changeover switch, each of which has one of two positions of the switching device Associated display elements with a supply voltage connects, and with a monostable relay with a changeover switch, the changeover contacts with two different Signals are connected to the display elements generating supply voltages and its fixed contact with the fixed contact of the first associated with the bistable relay Changeover switch is connected, that is, the signal lines (2, 4) for the bistable relay (K1) via at least one break contact (6) of the monostable relay (K2) are performed that the monostable relay (K2) is only dependent on switching from a second changeover switch (8) of the bistable relay (K1) in each case with the straight live signal line (2, 4) of the bistable relay (K1) can be connected and that in the signal lines (2, 4) immediately before or after the bistable relay (K1) blocking diodes (3, 5) are connected. 2. Feedback device according to claim 1, d a -d u r c h g e k to e nz e i c h n e t that the signal lines (2, 4) of the bistable relay (K1) connected on the output side and then via only one break contact (6) of the monostable relay (K2) are performed. 3. Feedback device according to claim 1 or, d a d u r c h it is noted that all the coils of the relays (K1; K2) each have a Quenching diode (10, 11; 12) are bridged.