DE29501280U1 - Residual current circuit breaker - Google Patents

Description

Description
Residual current circuit breaker

The invention relates to a residual current circuit breaker with an electronic evaluation circuit for the fault current, a switch lock and an associated power supply unit, wherein the switch lock contains a tripping magnet with tripping coil.

In residual current circuit breakers with a switch lock, this is either kept closed by a permanent magnet and triggered by a working current coil or it is kept closed by a closed current coil. In the latter alternative, the residual current circuit breaker must be switched off again manually when the voltage returns after a power failure. When using separate closed current and working current coils, it is also known to swap their functions. The older, unpublished German patent application P 44 06 496.9 already proposes a switch lock with two working current tripping coils, each of which is followed by an intrinsically safe fault detection circuit in parallel branches, which switches the other branch off when a fault occurs in its own branch.

The latter residual current circuit breaker is based on an integrated power supply unit. In such residual current circuit breakers, the signal generated by a sensor for detecting residual currents usually feeds an electronic evaluation circuit, which controls the coil of a tripping magnet when a residual current occurs.

In known residual current circuit breakers, the power supply for the evaluation circuit is provided by an existing power supply unit. If the power supply unit fails due to a defect, the

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The tripping magnet can no longer be controlled and if a fault current occurs, there is no longer any safety.

It has recently been prescribed that if the power supply unit fails, it must also be switched off. The object of the invention is therefore to propose a residual current device that reacts to a failure of the power supply unit.

The object is achieved according to the invention in that the switch lock has a further release magnet with a release coil, to which a separate power supply unit is assigned. The two power supply units are each separate power supplies that are connected in parallel, both feeding into the power supply input of the evaluation circuit, with the second power supply being separated from the first power supply via a blocking diode.

The invention provides a solution to the problem of residual current circuit breakers, which ensures additional safety in practice. If the power supply unit usually used as the power supply unit for the evaluation circuit fails, another tripping magnet is activated, the tripping coil of which is fed by another power supply unit as its own power supply unit and carries the current for the evaluation circuit. The shutdown is thus triggered by the response of the second tripping magnet.

It would be conceivable to provide a capacitor as an additional power supply unit, which is charged by the first power supply unit. In this case, if the first power supply unit is discharged, the capacitor would discharge via the second trigger coil and thus trigger a shutdown in the evaluation circuit. However, when switching on again, if the existing power supply unit is still defective and the capacitor is

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capacitor is discharged, switching off is no longer possible. In this respect, the invention has a separate second power supply that is independent of the first power supply. This power supply has no storage capacitor, since switching off must not occur in the event of a power failure. The second power supply contains rather a transformer with a downstream rectifier.

Further details and advantages of the invention emerge from the following description of an embodiment with reference to the drawing in conjunction with the subclaims. The single figure shows the circuit units of a residual current circuit breaker that are relevant for understanding the present invention,
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In the figure, an evaluation circuit for operating a residual current circuit breaker is designated with 10. A signal FS from a residual current sensor (not shown in detail) is sent to the circuit 10 for further processing and discrimination via the input ET. When a residual current is detected, a tripping magnet (not shown in detail) is activated via a tripping coil 1, thus leading to a shutdown of the network.

A power supply unit A is provided as a power supply unit to operate the evaluation circuit 10. Additional means are now provided to ensure that if the power supply unit A fails, the evaluation circuit 10 also switches off.

In the figure, a separate power supply unit B is present as an additional power supply unit, from which a line leads via a trigger coil 2 of a second trigger magnet (not shown in detail) and via a diode D to the power supply input E of the evaluation circuit 10. The power supply is thus designed redundantly.

If power supply A fails in a circuit as shown in Figure 1, the current for the evaluation circuit 10 flows via the parallel line branch and the second trigger magnet responds.

If the power supply unit A is intact and its voltage is approximately IV higher than that of power supply unit B, the diode D is safely blocked and thus the trigger coil 2 is de-energized.

In addition to the circuit described, monitoring is also provided for power supply B, so that if it fails, it is also switched off. For this purpose, the voltage from power supply B is tapped after trigger coil 2, which is also included in the monitoring, and is applied via a filter element S to an input of an AND gate, to the other input of which a test signal from evaluation circuit 10 is fed.

In the figure, the filter element S consists of an RC combination with resistance 11 and capacitance 12, which is connected to ground via another resistance 13. Other 0 possibilities are also conceivable.

A test pulse generator is usually assigned to the evaluation circuit 10, the pulses of which are fed into an additional input of the evaluation circuit, pass through it and are finally detected by an intrinsically safe detection circuit. If the pulses are absent due to a defect in the evaluation circuit 10, a shutdown is also triggered.

The line of the test pulses in the evaluation circuit 10 is separated at a suitable point and led to the second input of the AND gate C. Only if the power supply B is intact does the pulse sequence appear at the output of the AND gate C and is again applied to the line leading from the separation point.

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Claims (1)

r: -- -· 2 7 Protection claims 1. Residual current circuit breaker with an electronic evaluation circuit for the residual current, a switch lock and an associated power supply unit, whereby the switch lock includes a tripping magnet with tripping coil, characterized in that the switch lock has a further tripping magnet with tripping coil, to which a separate power supply unit is assigned. 2. Residual current circuit breaker according to claim 1, characterized in that the two power supply units are each separate power supplies (A, B) which are connected in parallel to one another, both feed into the power supply input (E) of the evaluation circuit (10), the second power supply (B) being separated from the first power supply (A) via a blocking diode (D). 3. Residual current circuit breaker according to claim 2, characterized in that the voltage from the first power supply unit (A) is higher than the voltage from the second power supply unit (B), preferably by approximately IV. 4. Residual current circuit breaker according to claim 2, characterized in that the second tripping coil (2) is located between the second power supply unit (B) and the blocking diode (D). 5. Residual current circuit breaker according to one of claims 2 to 4, characterized in that the second power supply (B) and the second trip coil (2) are monitored for functionality. 5 6. Residual current circuit breaker according to claim 4 and 5, characterized in that the voltage from the second power supply (B) behind the second trigger coil (2) via a filter element (S) to one input of an AND gate , (C), to whose other input a test signal of the Evaluation circuit (10) is switched on. 5 7. Residual current circuit breaker according to claim 5 or 6, characterized in that the second power supply unit (B) contains a transformer with a downstream rectifier as a further power supply unit. 8. Residual current circuit breaker according to claim 6, characterized in that the output signal of the AND gate (C) is fed back to the evaluation circuit (10). 9. Residual current circuit breaker according to one of the preceding claims, characterized in that a test pulse generator is assigned to the evaluation circuit (10).