DE19858601A1 - Earth leakage circuit breaker comprises current which can only be switched on by solenoid switch if mains voltage is applied and test circuit and current detector unit are supplied with sufficient current by voltage supply - Google Patents

Abstract

A voltage supply (3) can be switched on independently of the current circuits (1;2) to be monitored. These two circuits can only be then switched on by the solenoid switch (6), if the mains voltage is applied and the test circuit (4) also the current detector unit (5) are supplied with sufficient current by the voltage supply. The circuits to be monitored are switched off, not however the voltage supply, as soon as the main voltage is interrupted or sinks to a value, which no longer ensures the required current supply of the testing circuit and the current detector unit. The current circuits are automatically switched on again, if after an interruption or a sinking of the mains voltage, the supply is restored and the current supply to the circuits (4,5) is restored. The test circuit with the occurrence of a fault current, effects the switch OFF of the voltage supply and as a consequence of independently of this effects the switching OFF of the current circuits to be monitored. So that the automatic reswitching ON of the current circuits to be monitored, is effectively prevents.

Description

The invention relates to a residual current circuit breaker with a current detection unit for measuring the currents or the total current in the circuits to be monitored, which is connected to a test circuit for detecting fault currents, and to one electromagnetic switching device for the circuits to be monitored and one Power supply from the mains for the test circuit with the current detection unit.

EP 0 220 408 has made known a residual current circuit breaker that switches itself monitored by periodically using an additional winding on the summation current transformer brief power surges can be fed in and evaluated.

Furthermore, EP 0 655 820 B1 describes a residual current circuit breaker with a buzz current transformer known, in which a constantly flowing fault current is generated with the Help the electronics of the residual current circuit breaker is monitored.

Switch the self-monitoring residual current circuit breaker that has become known also in the event of a power failure. After a power failure, even if it is only for a short time, they do not switch on again automatically. So that's the Security done enough, but the availability of care often does not suffer too quickly accepting measure. Another disadvantage is that these residual current circuit breakers are due to the construction, do not allow mains voltage to be switched on.

The object of the invention is to develop a residual current circuit breaker so that it also in the event of a mains voltage interruption into a state ensuring safety goes without unnecessarily affecting the availability of care.

This object is achieved by the characterizing part of the patent ches 1 solved.

Advantageous embodiments of the invention are the subject of the dependent claims.

The residual current circuit breaker according to the invention is based on its properties rings:

Fig. 1 shows the basic structure of the residual current circuit breaker according to the invention.

Fig. 2 shows an advantageous embodiment of the basic structure.

Fig. 3 shows a variant of the basic structure with a voltage test circuit in a three-phase network.

According to the main contacts of the residual current circuit breaker are not Hand, but electromagnetically closed with the help of the mains voltage (preferably they are kept closed by latching and not by parasitic current flow).

If the mains voltage is missing during manual switch-on, the main contacts are not ge closed. The switch goes into standby and waits for the return of the Mains voltage. The standby position is characterized in that the control panel in Switch-on position and the connection of the voltage supply in the residual current protection switch to the network is established, but the main contacts due to the lack of a network voltage are open.

The main contacts are also opened if the mains voltage is interrupted later (e.g. unlatched, the energy reserve required for unlatching must be kept). The switch goes into standby and waits for the mains voltage to return nung. The control unit on the residual current circuit breaker remains in the ON position.

The voltage returns later and the residual current circuit breaker is ready position, the main contacts are closed electromagnetically. This causes the Availability no more than caused by the voltage interruption itself.

In any case: the mains voltage for the residual current circuit breaker and thus the Residual current detection function, the system is switched off and a residual current can no longer occur.

Neutral conductor interruptions can also be recognized and the consumer side can be disconnected from the network. A shift in the neutral conductor potential due to span This will then lead to the procrastination of power, which can have dangerous consequences for people and the system prevented.

Too large a fault current always leads to a shutdown. The control panel goes out switch position, the connection of the voltage supply in the residual current circuit breaker the network is disconnected and the main contacts are no longer closed automatically possible.

Manual shutdown is possible at any time. Again, the connection becomes the span Power supply in the residual current circuit breaker separated from the mains and an automatic It is no longer possible to close the main contacts.  

Neutral conductor interruptions are recognized by potential shifts on the separated neutral conductor:

• a) In the single-phase feeder with two-pole residual current circuit breaker:
  An interruption of the neutral conductor in the branch in front of the residual current circuit breaker is recognized in any case and leads to a shutdown because no voltage (or, due to leakage or fault currents, only a very small voltage) can occur between the neutral conductor and the phase conductor. If you switch on by hand when there is a neutral conductor interruption, the consumer side remains de-energized because the main contacts are not closed.
• b) In a three-phase four-wire network with a four-pole residual current circuit breaker:
  The neutral conductor separated from the mains can, if necessary, still be connected to switched on consumers at the three phases. As long as the load (including the small load from the voltage supply for the residual current circuit breaker) is evenly distributed over the phases, normal voltage relationships result between the disconnected neutral conductor and the phase conductors. The disconnection of the neutral conductor is not noticed and the residual current circuit breaker works normally. Any fault currents that occur would be recognized and switched off. There is no danger yet. As soon as the load on the phases is asymmetrical, the potential shifts on the neutral conductor that is disconnected from the mains. From this arises the risk that the voltage supply for the residual current circuit breaker is no longer sufficient and residual currents will no longer be recognized and switched off. This is countered by the fact that the residual current circuit breaker switches off the main contacts as soon as its voltage supply becomes insufficient.

The potential shift results in overvoltages and undervoltages for the other closed consumers can be dangerous. You can counteract this if the voltages are monitored by means of a voltage test circuit and the error The circuit breaker does not only switch off when the voltage supply for it itself is no longer sufficient, but also when the potential shift increases tolerant measure.

Failure of individual phases:
So that the undisturbed phases are not switched off in the event of failure or the targeted disconnection of individual phases, the voltage supply for the fault current circuit breaker must be designed in such a way that it is sufficient in any case if only one or two arbitrary phases are available. There is generally no danger from switching off individual phases.

If, on the other hand, phase failure protection is expressly desired, the failure of individual Lead phases to shutdown. As a rule, there is no automatic re-activation switch on when the failed phase voltages return!

Atmospheric disturbances and switching operations can cause short-term voltage cause fluctuations. So that this does not always lead to a shutdown with subsequent Reactivation or, due to briefly increased leakage currents, even for final shutdown circuit, the switch should only then open the main contacts or finally shut off switch if a fault (voltage fluctuation or fault current) lasts longer than one specified duration (e.g. 10 ms) continues.

Claims (6)

1. Residual current circuit breaker with a current detection unit ( 5 ) for measuring the currents or the total current in the circuits to be monitored ( 1 ; 2 ), which is connected to a test circuit ( 4 ) for detecting fault currents, and with an electromagnetic switching device ( 6 ) for the circuits to be monitored ( 1 ; 2 ) and a voltage supply ( 3 ) fed from the network for the test circuit ( 4 ) with the current detection unit ( 5 ), characterized in that the

• - The voltage supply ( 3 ) can be switched on independently of the circuits to be monitored ( 1 ; 2 ) and the circuits ( 1 ; 2 ) to be monitored can only be switched on by the electromagnetic shaft device ( 6 ) when mains voltage is present and the test circuit ( 4 ) and the current detection unit ( 5 ) are sufficiently supplied with current by the voltage supply ( 3 ),
• - Circuits to be monitored ( 1 ; 2 ), but not the power supply ( 3 ), are switched off as soon as the mains voltage is interrupted or drops to values which no longer require the required power supply to the test circuit ( 4 ) and the current detection unit ( 5 ) guarantee,
• - Circuits to be monitored ( 1 ; 2 ) are automatically switched on again when the mains voltage returns after an interruption or reduction in the mains voltage and the power supply to the test circuit ( 4 ) and the current detection unit ( 5 ) is restored
• - Test circuit ( 4 ) when a fault current occurs, the shutdown of the voltage supply ( 3 ) and, as a result or independently, the shutdown of the circuits to be monitored ( 1 ; 2 ), whereby an automatic reclosure of the circuits to be monitored ( 1 ; 2 ) is effective is prevented.

2. Residual current circuit breaker according to claim 1, characterized in that the electromagnetic switching device ( 6 ) is activated only briefly when the circuits to be monitored ( 1 ; 2 ) are switched on and the circuits to be monitored ( 1 ; 2 ) after closing by means of a holding device ( 8 ) who is kept closed and in the event of a failure or drop in the mains voltage or the occurrence of a fault current that leads to tripping, this holding device ( 8 ) is unlocked and the circuits to be monitored ( 1 ; 2 ) are opened again. 3. Residual current circuit breaker according to claim 2, characterized in that

• - The energy for triggering the holding device ( 8 ) and opening the circuits to be monitored ( 1 ; 2 ) from at least one electrical or mechanical Energiespei cher ( 9 ) is provided
• - That all of these energy stores ( 9 ) each before or with the closing of the circuits to be supervised ( 1 ; 2 ) are filled with the energy required to trigger the holding device ( 8 ) and open the circuits to be monitored ( 1 ; 2 ) is required.

4. Residual current circuit breaker according to one of claims 1, 2 or 3, in particular four-pole residual current circuit breaker, characterized in that

• - In addition to or integrated in the residual current test circuit ( 4 ), a voltage test circuit ( 10 ) is present, which monitors the voltages between the phase conductors ( 2.1 ; 2.2 ; 2.3 ) and the neutral conductor ( 1 )
• - The voltage test circuit ( 10 ) switches off the circuits to be monitored ( 1 ; 2.1 ; 2.2 ; 2.3 ), but not the switch-off of the voltage supply ( 3 ), if the voltage values are outside a specified tolerance for a specified time
• - The circuits to be monitored ( 1 ; 2 ) are automatically switched on again when the voltage values are again within the specified tolerance.

5. Residual current circuit breaker according to one of claims 1, 2 or 3, in particular four-pole residual current circuit breaker, characterized in that

• - In addition to or integrated in the residual current test circuit ( 4 ) there is a voltage test circuit ( 10 ) which monitors the voltages between the phase conductors ( 2.1 ; 2.2 ; 2.3 ) and the neutral conductor ( 1 ),
• - The voltage test circuit ( 10 ) switches off the circuits to be monitored ( 1 ; 2.1 ; 2.2 ; 2.3 ) and switches off the power supply ( 3 ) if the voltage values are outside a specified tolerance for a specified time.

6. Residual current circuit breaker according to one of claims 1 to 5, in particular four-pole residual current circuit breaker, characterized in that the voltage supply ( 3 ) is designed so that the required power supply for the residual current test circuit and, if appropriate, for the voltage test circuit is still guaranteed even if one or any two phase voltages have failed.