DE761123C - Multipole circuit breaker with a fault current coil - Google Patents

Description

Multipole circuit breaker with a fault current coil to the previously known circuit breakers has the residual current coil, which is between the protective line to be connected to the device and the earth, the task to release a latch when responding, whereby the switch switches off automatically. With this mode of operation of the fault current coil, there is the possibility that with weak Fault current the magnetic force field of the coil is not sufficient for the latching to solve. As a result, the circuit breaker has been built so that the overlap at the latch is small in order to have a low resistance when tripping. But this has the disadvantage that if the circuit breaker is shaken by triggers itself without the fault current coil responding.

There are also circuit breakers are known in which the fault current coil a contact arrangement closes, which a trip coil for a mechanical latch of the circuit breaker switches on. By using the latch controlling The tripping coil is the well-known circuit breaker, distinctive special designs. They cannot be made from the well-known single-pole circuit breakers with auxiliary switches assemble.

The invention is concerned with the formation of a multi-pole circuit breaker with the purpose of this switch from the usual switches with auxiliary switches put together without the safety of switching off when the fault current coil responds to belittle. In the circuit breaker according to the invention, the fault current coil closes a contact arrangement when they respond. According to the invention, (read An overcurrent limited by a resistor closes the contact arrangement. which brings the self-switch of a pole line to all-talk. This auto switch and each circuit breaker on the other pole lines has one from the main switch controlled auxiliary switch in series with the resistance between a pole line and a ~% -ulleitung c which is arranged between two pole lines, such that when the first circuit breaker responds, overcurrents in the other pole lines generated «-grounds, which cause the remaining circuit breakers to respond one after the other. The circuit breaker according to the invention, which is extremely vibration-proof, does not only respond to fault currents in the case of -Ni, but can also be addressed by electrical Build coupling from single-pole self-switches with auxiliary switches that are already are designed and used for other purposes. As for the construction of the circuit breaker according to the invention largely existing circuit breaker used «-erden occurs at the same time a simplification and cheaper production of the circuit breaker a.

An exemplary embodiment of the invention is shown in the drawing. With R, S, T a three-pole line network is referred to, which feeds the device G via a circuit breaker according to the invention. o is the neutral conductor of the network and E is the earth. The circuit breaker consists of three circuit breakers i, -2, 3, their over-current coils with Spi. SP2, Sp. Are designated.

Each circuit breaker has an auxiliary switch i., --A, 3, which is controlled by the main switch of the circuit breaker. The auxiliary switch works depending on the main switch of the self-switch. If the main switch is switched on, the auxiliary switch is open. Conversely, when the main switch is open, the auxiliary switch is closed. Each auxiliary switch lies between one pole line and the neutral line o. F 'is a resistance in the line from the neutral conductor o to the auxiliary switches ia. 2a, 3, outgoing line. With F the fault current coil is designated, which lies in the protective line h, which goes from the housing of the device G to earth. The fault current coil controls a contact arrangement H. In this contact arrangement, the pole line T is connected to one contact and the resistor il "is connected to the other contact Housing of the device voltage, a fault current flows through the protective line h to earth E. The fault current coil responds and switches on the contact arrangement 1I o flows. The overcurrent is limited by the resistance TV. The circuit breaker 3 responds to this overcurrent. by turning off. When turning off the automatic circuit-breaker 3, the auxiliary switch 3 on, a. As a result, an overcurrent is generated in the pole line R, which flows from the pole line R via the auxiliary switch 3a and the resistor IV into the -neutral conductor. The resistance ff- limits "-spring this overcurrent. When the circuit breaker i responds, the pole line R is switched off by the circuit breaker i switching off. As a result, the auxiliary switch i "is switched on. As a result, an overcurrent arises in the pole line S, which flows from the pole line S via the auxiliary switch i" and the @ \ 'resistor 11' into the neutral conductor. This overcurrent causes the self-switch 2 to switch off, whereby the auxiliary switch 2 "is closed. In this way, the self-switches have switched off one after the other in a short time (a fraction of a second) when the fault tronis coil F responds, so that the device G is disconnected from the mains.

A test button P is located in the protective line K. This test button is asleep, if it is not actuated, the protective line. With the test button it is possible to to check whether the is located between the circuit breaker and earth E. Part of the protective line and the circuit breaker itself are OK. Will namely if the test button is pressed, the fault current coil F can be interposed of the resistors [l'i, 1f'2 are each connected to one of the two pole lines R, S will. If the fault current coil responds and triggers the switch, then it is the evidence provided that the one located between the circuit breaker and the earth Part of the protective line and the circuit breaker itself is working properly.

It is not absolutely necessary that the contact arrangement of the fault current coil and the auxiliary switches are between a pole line and the neutral conductor to a Generate overcurrent in the circuit breakers. The circuit breaker can also be designed so that the contact arrangement of the fault current coil and the Auxiliary switches are located in lines between two pole lines. In this case it will be also for Limiting the overcurrent uses resistors that are in series with the contact arrangement or with the auxiliary switches.

Claims (1)

PATENT claim 3: Multipole circuit breaker with a fault current coil which, when responding, closes a contact arrangement for electrically triggering the circuit breaker, characterized in that the closing of the contact arrangement (H) causes an overcurrent limited by a resistor (W). arises, which brings only the circuit breaker (3) of a pole line to respond, and that this circuit breaker (3) and each circuit breaker (r, 2) of the other pole lines have an auxiliary switch (r ", 2a, 3a) controlled by the main switch, the is arranged in series with the resistor (W) between a pole line and a neutral line or between two pole lines, in such a way that when the first circuit breaker responds, overcurrents are generated in the other pole lines, which cause the other circuit breakers to respond one after the other From the prior art, the following publications have been considered in the grant procedure: German Patent Nos. 487 880, 567 283, 598 074.