DE1179289B - Residual current circuit breaker with summation current transformer and test circuit for testing the switch function - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school KL: H02d

German class: 21c-68/70

Number: 1179 289

File number: Sch 31131 VIII b / 21 r

Filing date: March 15, 1962

Opening day: October 8, 1964

The invention relates to a residual current circuit breaker with summation current transformer and test circuit for checking the switch function and the purpose of to train this device in such a way that the downstream system on the residual current circuit breaker required functionality can be checked.

Accordingly, the invention consists essentially in that for the purpose of checking the absence of earth faults of the neutral conductor on the neutral conductor located behind the circuit breaker ίο via the break contact of the switch as well as a per se known display device in a manner known per se from The extra-low voltage taken from the mains is applied. A special design of the residual current circuit breaker is that the test circuit while retaining the low voltage divider and the display device in test circuits for checking the switch function, the earthing resistance of the protective conductor as well as the voltage difference between the mains and the neutral conductor and protective conductor.

Other developments of the subject matter of the invention consist in that, on the one hand, the display device is provided with a mechanical or an electrical reset lock and on the other hand only one handle is used to operate the test switch for all tests.

The advantages of the subject matter of the invention are that the residual current circuit breaker itself compared to the known is considerably improved in its effect and extended application. the new exam facilities are simple, take up little space and only require one low performance. You can use the normal housing of a residual current circuit breaker without difficulty and can also be retrofitted into existing devices. Furthermore, the so far non-existent possibility created, except for the test of the functionality of the switch now also to be able to check the functional requirements of the system.

It is known to monitor the absence of earth in a conductor by applying a low voltage between the earthed protective conductor and the ungrounded monitoring conductor. It is also known in the case of contact protection to use a low voltage to monitor the neutral conductor. A protective circuit against contact voltage with a control line is also known, which in turn forms a circuit with a second control current under low voltage, which causes the shutdown via a switching device. In a residual current circuit breaker with summation current transformer and test circuit for testing
the switch function

Applicant:

Protective Apparatus Society Paris + Co. m. B. H.

K. G., Schalksmühle (Westphalia)

Named as inventor:

Dipl.-Ing. Gerd Lindner, Hagen (Westphalia)

older, not previously published patent application is proposed for a residual current circuit breaker, a low voltage generated by means of a transformer into the center conductor, which is earthed in front of the switch to insert.

B i 1 d 1 shows an example of a circuit of this test circuit. Here, 10 means the converter, 11 the secondary converter winding, 13 the lock with release 12,14 the actual switch with the normally closed contacts 25 and 26, 15 and 18 the partial resistances of a voltage divider with the tap point 24 and a display element 27. The drawn switch 14 is located is in the switched-off position, so that the voltage divider 15 and 18 is set via the normally closed contact 26 and a low voltage (against M ₁ ) is tapped at 24, which in the event of a ground fault of the switched-off M _p conductor connected to 25 causes a current to flow through the display element 27, ζ. Β. a flag occurs, which then indicates the error. If necessary, a switch in the voltage divider circuit and / or also a display circuit can be attached in order to be able to suppress the permanent display of the display element.

B i 1 d 2 shows the test circuits described above in connection with other test devices. In this circuit, 16 means a third transformer winding to reduce the current required for the required transformer flow, 17 the switch for the switch test, 19 a, 19 b and 20 a, 20 & the selector switch for testing the system for sufficient earth resistance of the protective conductor (position α) and on voltage between protective conductor and neutral conductor M _p (position b), 21 a voltage-dependent relay with the normally closed contact 21 α, 25 a voltage indicator lamp for checking the voltage supply of the test device and 28 a

409 690/294

Switch which, when actuated in conjunction with the leading switch 19a, presses a low voltage (against M _p ) via the display device 27 and the auxiliary switch 25 connected to the main switch when the main switch is switched off on the then switched-off M _{p conductor.} If this Mp conductor has a ground fault, then the display device 27 is conductive and gives a corresponding display as long as the switches 19 and 28 are held in their direction of actuation.

Now it does not always seem expedient to equip every switch with all test equipment and thus possibly making it much more expensive. So can especially in urban networks in which the grounding of the neutral conductor in front of the residual current circuit breaker is usually carried out using short cable lengths, the test for voltage between protective conductor and neutral conductor can be dispensed with, so that result in simpler circuit combinations, as shown for example in the B i 1 d e r 3 and 4 in principle and which differ from each other only in the generation of the extra-low voltage.

Here, 29 denotes the operating earth of the neutral conductor in front of the residual current circuit breaker, 14 the main switch with the auxiliary switch 25, 27 the display device, 16 the third converter winding, 15 and 18 the voltage conductor (in B i 1 d 3) or the extra-low voltage transformer (in the figure 4) as well as 29 and 32 limiting resistors, 30 one for the voltage supply of the test device and behind 31 a main switch with which the type of test (test of the switch: position a; test for earthing resistance of the protective conductor: position b) can be determined.

The switches 30 and 31 are expediently combined and designed, for example, roughly as B i 1 d 5 shows, so that the voltage supply is switched on via the switch 30 by turning the test button in the direction of the contact 31a, the point 24 at potential against M _{p is} raised and a current limited by the limiting resistor 29 flows to M ₁ via the third converter winding 16 and the switch 31a, which current triggers the switch if the result is positive. If the switched-off neutral conductor has a finite resistance to earth after the switch has been triggered, a current flows through the contact 25 and the display device 27, which makes this device respond as long as the switch 30 is closed. If the test button is rotated in the opposite direction after the switch is turned on again, is placed over switch 31 and the protective conductor is optionally a limiting resistor 32 to a potential to the neutral conductor, so that via the earth resistance against M _n a current - depending on the earth resistance - which marks this resistance as good or too high when the switch is triggered.

If the earth resistance is positive, the switch triggers and switches via switch contact 25 the switched off neutral on the display device to the potential of the point 24, so that at Earth fault of the disconnected neutral conductor, the display device responds. By the fact that the switch 30 lagging against switches 31a and 31 &, this display is independent of the size of the connected in parallel Earth resistance of the protective conductor. The display device can be equipped with a mechanical reset lock or be provided with self-holding contacts.

Claims (4)

Patent claims: 1. Residual current circuit breaker with summation current transformer and test circuit for testing the switch function, characterized that for the purpose of checking the absence of earth faults in the neutral conductor on the one behind the circuit breaker lying neutral over the normally closed contact of the switch as well as a known per se Display device a low voltage taken from the network in a manner known per se is created. 2. Residual current circuit breaker according to claim 1, characterized in that this test circuit in test circuits for the test Switch function and / or test for earthing resistance of the protective conductor and / or voltage difference between mains and neutral and protective earth is included in such a way that only one common Element for generating the required low voltage is required. 3. Residual current circuit breaker according to claim 1 and 2, characterized in that the display member has a mechanical or electrical reset. 4. Residual current circuit breaker according to claim 1 to 3, characterized in that only one Handle for actuating the test switch is used for all tests. Considered publications: German Auslegeschrift No. 1 030 915,
093 467; German Patent Nos. 933 349, 888 718;
Swiss patent specification No. 178 668. Legacy Patents Considered:
German Patent No. 1 141 367. 1 sheet of drawings 409 690/294 9.64 © Bundesdruckerei Berlin