DE19528020A1 - Self-monitoring residual current circuit breaker - Google Patents

Description

The invention relates to a self-monitoring Residual current circuit breaker according to the preamble of claim 1.

The German main patent application P44 29 949.4 describes a self-employed Monitoring residual current circuit breaker, the imminent defect Detects early to replace the switch before it fails can.

According to the German main patent application P44 29 949.4, this is done in that, with the help of a timer and a timer, its response time in predetermined time intervals is measured and stored.

One extrapolates from the temporal increase in the response time to the Target response time and can thereby determine the time at which the switch will fail.

So that the power does not fail during this monitoring process, prevents Locking element triggering the rear derailleur, d. that is, it will only be the electromagnetic one Trigger monitored since the rear derailleur normally does not require monitoring.  

The residual current circuit breaker according to the main patent application P44 29 949.4 owns but uses some electronic and mechanical equipment not to solve the additional tasks mentioned below.

• - Fail-safe behavior without additional switching device.
• - Preservation of the residual current protection function in the event of failure above Blocking member, d. H. e.g. B. at Electronic control unit failure.
• - Taking the insulation current into account when measuring the residual current.
• - Use of the circuit breaker for insulation current monitoring.
• - Monitoring of the main current contacts for welding.
• - Check the opening of the magnetic release contacts.
• - Check the electronics.

The invention is based on the object of a residual current circuit breaker P44 29 949.4 to create this with the elements described can fulfill additional tasks or requirements.

This task is performed in a generic device by characterizing features of the claims solved.

The above Locking element engages between the rear derailleur and trigger or in the rear derailleur directly and prevents the tappet of the trigger from actuating the rear derailleur.

In addition, the locking member is designed so that it, even if predetermined Limit response values are exceeded to open the Main power contacts and then serve as a restart lock, which is equivalent to fail-safe behavior.

So that the lock in the event of a fault in the control electronics In this case, the fault current protection function is not blocked for example, by an automatically unlatching spring from her Locked positions pulled out.

However, this does not happen after a fail-safe power cut.

The residual current circuit breaker according to P44 29 949.4 also has the disadvantage that the response current is set too low because normally certain Isolation currents or capacitive leakage currents flow to earth, which the of the monitoring electronics of the switch generated and measured Falsify test fault currents. That is, if the one described in P44 29 949.4 Ramp generator a test fault current of, for example, 25 mA Resistor can flow, but the insulation current, for example, 5 mA the microprocessor adds this insulation current to the test fault current. Since the response current is always the sum of both, it fluctuates around that same, naturally large values as the insulation current.

According to the invention, this disadvantage is eliminated in that the insulation current is constantly measured and during the testing or monitoring process from  Test fault current is automatically deducted. The big ones disappear Fluctuations in the response value. The main patent application P44 29 949.4 refrains from that Check main power contacts, although it is extremely rare, e.g. B. after Short circuits for welding the main power contacts can occur.

The same applies to the clamping of a rear derailleur. This would remove the residual current protection function, i. H. the switch would be in Failure current failure fail.

In order to eliminate this disadvantage as well, according to the invention, automatically the mains voltage directly or, for example, via a series resistor behind the Contacts measured and in the event of a fault current to a fault current circuit breaker upstream or downstream welding-proof switchgear if the Main power contacts given the command to switch off.

To weld the main power contacts after a short circuit control, these must be delayed according to the invention, z. B. after 20 ms or open after the next zero crossing. Do not open, turn on downstream switching device and can no longer be switched on (fail-safe Behavior).

The measurement signal is also used for optical and / or acoustic signaling processed or to the center of a building system forwarded.

Another option for checking the rear derailleur for welding the main current contacts after a short circuit is as follows:
Since after a short circuit the mains voltage is switched off by the corresponding circuit breaker, LS for short, one or more capacitors are required as an intermediate energy store in order to keep the monitoring electronics of the residual current circuit breaker ready for operation.

After each short circuit, the response time is checked and the contacts of the Rear derailleur open. This can be done in that a fault current of Order of magnitude of the test fault current is generated, which is the magnetic release Addressing brings. This opens the rear derailleur with the help of its plunger. After the LS has been switched on again, the mains voltage measurement shows behind the main current contacts of the residual current circuit breaker whether the contacts are really open. If not, the lock now tries to open the contacts. If this does not succeed (Mains voltage is still displayed), generates a switch in the Residual current circuit breaker has a short circuit that triggers the CB again. At the residual current circuit breaker, this is confirmed by acoustic and / or optical Alarm displayed. Should the LS be switched on again against all reason, the Power lines in the residual current circuit breaker blown or with the help of or several insulated knives cut open.  

In the main patent application P44 29 949.4 is not like that Microprocessor learns that the magnetic trigger is at the predetermined Triggers response value. In the simplest case, this is done using auxiliary contacts, such as common in protective switchgear technology. Another possibility is light barriers, preferably alternating light barriers (Reflection light barriers) as described in P195 14 580.1. A more elegant possibility is that in the secondary winding of the Trigger, inductive current peak arising when the magnetic contacts are opened is measured and evaluated. Of course, the microprocessor can be used with a building system Plant correspond. Part of all electronic functions, such as e.g. B. Compare, save, etc. from the center of this system will. Based on drawings, the invention and its advantageous embodiment are explained and described in more detail.

Show it

Fig. 1 is a schematic drawing of one of many possible forms, the switch lock that the locking member

Fig. 2 power contacts the principle diagram of an embodiment of the contemporary residual current circuit breaker with fiction, shown therein device for detecting the main welds and means for fail-safe behavior,

Fig. 3 shows a residual current circuit breaker with short-circuit switch and detonators or knives.

In Fig. 1a to 1e, the different tasks of the locking member and their solutions are shown.

Fig. 1a shows the lock 1 in the starting position. The main current contacts 2 and 3 , which can disconnect the network 4 and 5 and the magnetic contacts of the magnetic release 6 are still closed here.

The plunger 7 , which can open the switching mechanism 8 for the purpose of opening the main current contacts 2 and 3 , is still in the starting position. 9 represents the drive of the lock 1. When the command comes from the microprocessor timer to initiate the monitoring process, the lock 1 first moves between the trigger 6 and the switching mechanism 8 ( FIG. 1b). Immediately afterwards, the magnetic release 6 is triggered, the plunger 7 strikes against the lock 1 , which prevents the switching mechanism 8 from opening and thus preventing the main current contacts 2 and 3 from opening ( FIG. 1c). After the monitoring process has ended, the lock 1 withdraws and, due to its special shape, closes the magnetic contacts of the magnetic release 6 by pressing the plunger 7 downward ( FIG. 1d).

When checking the residual current response time it turned out that this is too high in terms of residual current protection, the lock 1 travels between the switching mechanism 8 and the trigger 6 and thereby opens the main current contacts 2 and 3 and remains in this position so that the contacts are not can close more ( Fig. 1e). If necessary, the magnetic release is closed by an additional switching operation of the lock so that the magnetic contacts cannot become dirty. Fig. 2 shows the basic circuit diagram of the residual current circuit breaker according to the invention with a device shown therein for detecting welds of the main current contacts and with fail-safe behavior. The two mains lines, phase 4 and zero 5, pass through the summation current transformer 10 and the switching mechanism 8 . If a fault current occurs, the converter 10 generates a signal which triggers the trigger 6 , which in turn opens the switching mechanism 8 with the aid of the plunger 7 and thus interrupts the current in the power lines 4 and 5 . To monitor the response time, the response time of the residual current circuit breaker is measured at predetermined time intervals, for example with the aid of a timer integrated in the microcomputer 12 (μP), compared with a target response time and an alarm is given if the same is exceeded.

If no alarm is given, the measured response time is saved and at the next measurement (test) determines its rise.

From this increase, determined in this way, it is possible to determine the point in time of exceeding close the maximum target response time, d. H. extrapolate and use them in a more appropriate way Way to display. This gives you enough time to Have the residual current circuit breaker replaced in good time.

Since the response time can vary from switch to switch, for example, it must be between 0 and 500 ms for "30 mA switches" one uses the µP 12 fault currents with increasing time until these Response time reached.

The predetermined times after which a measuring process is initiated are determined according to the size of the response time. If the response time approaches the setpoint, the are automatically reduced Time intervals after which the next measurements are made.

In order to be able to display the welding of contacts 2 and 3 after a short circuit, the voltmeter 14 is attached behind contacts 2 and 3 and is also connected to microprocessor 12 . As already described under FIG. 1e, the lock 1 should open the main current contacts 2 and 3 when it is found when checking the residual current response time that this is too high in terms of residual current protection.

If the contacts are welded or the switching mechanism is jammed, the lock 1 does not succeed, which the measuring device 14 immediately passes on to the microprocessor 12 , which causes the switching device 15 to open. Fig. 3 shows another embodiment of the residual current circuit breaker according to the invention. If it turns out during the automatic check of the response values that they have exceeded their setpoints and the switch is not replaced despite visual and / or acoustic warning, the plunger 7 of the trigger 6 opens the contacts 2 and 3 of the switching mechanism 8 . If these are welded or jammed, which is determined with the aid of the voltage measurement 14 , the microprocessor 12 closes the relay 16 and thereby triggers the circuit breaker 15 . If, contrary to expectations, it is switched on again without replacing the residual current circuit breaker, the supply lines are automatically cut mechanically with the help of the unit 17 , which can be done, for example, using an insulated knife or a miniature detonator.

Claims (15)

1. Residual current circuit breaker, which measures its response time at predetermined time intervals with the help of a timer and an electronic timepiece, compares it with target response times, gives an alarm in good time if the setpoint values are exceeded and prevents the main current contacts from opening during measurement with the aid of a blocking element, characterized in that the Locking element is designed so that even if predetermined limit response values are exceeded, it can serve to open the main current contacts and then as a restart lock, which is equivalent to a fail-safe behavior. 2. Residual current circuit breaker according to claim 1, characterized in that the Locking element closes the contacts of the magnetic release again when retracting. 3. Residual current circuit breaker according to claims 1-2, characterized in that the lock, for example, with a fault in the control electronics a spring is pulled out to maintain the residual current protection function, but not after a fail-safe current protection shutdown. 4. Residual current circuit breaker according to claims 1-3, characterized in that welding and / or jamming of the main current contacts for example after short circuits, by measuring the mains voltage, preferably via a voltage divider or series resistor behind the Contacts is recognized. 5. Residual current circuit breaker according to claims 1-4, characterized in that after detection of the non-opening of the main current contacts a Residual current circuit breaker upstream or downstream switching device switches off. 6. Residual current circuit breaker according to claims 1-5, characterized in that after a short circuit, lightning, or the like and after opening the Residual current circuit breaker upstream in any case Miniature circuit breaker a time-delayed switch-off of the main current contacts of the residual current circuit breaker. 7. Residual current circuit breaker according to claims 1-6, characterized in that a possibly flowing insulation current and / or capacitive leakage current can both be deducted from the test fault current. 8. Residual current circuit breaker according to claims 1-7, characterized in that the insulation current or the capacitive leakage current is constantly monitored. 9. Residual current circuit breaker according to claims 1-8, characterized in that to control the opening of the magnetic release, the inductive current peak is measured and evaluated when opening the magnetic contacts in the  Trigger coil is created. 10. Residual current circuit breaker according to claims 1-9, characterized in that a defect in the control electronics is indicated by a red LED. 11. Residual current circuit breaker according to claims 1-10, characterized characterized in that if the main power contacts fail a switch Short circuit generated, the upstream circuit breaker to Triggering brings. 12. Residual current circuit breaker according to claims 1-11, characterized in that in an emergency situation the power lines with the help of one or more isolated knife cut open or with a miniature detonator be separated. 13. Residual current circuit breaker according to claim 6, characterized in that after switching off the circuit breaker at least one capacitor serves as a buffer for energy to the monitoring electronics keep it operational. 14. Residual current circuit breaker according to claims 1-13, characterized characterized in that a microprocessor or a microcomputer the Response time monitored and all other electronic functions, such as. B. Control, save, etc. takes over. 15. Residual current circuit breaker according to claims 1-14, characterized characterized that the entire monitoring process takes place automatically.