DE3813403A1 - Mobile residual-current device (residual-current circuit breaker) - Google Patents

Abstract

The object exists of strengthening a residual-current device to such an extent that it remains switched on in the event of a mains voltage failure while at the same time monitoring the protective-earth conductor. The solution comprises the trip device 6 having a second winding 18 as well as a first winding 17. The second winding 18 is connected in parallel with a first voltage-dependent resistor 8 which is connected in the protective-earth conductor PE. In the event of a residual current, the residual current flowing through the first voltage-dependent resistor 8 produces a voltage drop which leads to tripping via the second winding 18 of the trip device 6. Residual-current devices trip as a function of the mains voltage. Residual-current devices have been used for a long time in r.c.d.-operated circuit breakers. It is not yet finally possible to assess the extent to which residual-current circuit breakers will become a real alternative to fault-current protection circuit breakers which trip independently of the mains voltage. <IMAGE>

Description

The invention relates to a portable Residual current switch according to the preamble of claim 1.

A differential current switch according to the preamble of claim 1 is already known ("Why residual current circuit breakers with mains voltage-independent tripping? ", etz, Vol. 107, 1986, Issue 20, p. 938 to 943). Residual current switches have a similar build like residual current circuit breaker. An essential sub differed in function, however, is that when it occurs of a "differential current" in the electrical system that from the sum current transformer output signal with the help of an auxiliary energy dependent electronic unit is increasingly fed to the release, which then initiates the shutdown.

The differential current switches known so far are designed that they switch off in the event of a power failure. An unguarded connected consumer would be switched off and at Return of the mains voltage is not switched on again. This for example, could not become one with a freezer cause insignificant damage.

The invention is therefore based on the object of making a difference Current switch of the type described at the outset so far gene that he in the event of a power failure with simultaneous over protection of the protective conductor remains switched on.

This object is achieved by the in the characteristics of  Claim 1 specified circuitry measure solved.

The advantages achieved by the invention are that Security of the differential current switch in one crucial Point is increased.

An embodiment of the invention is shown in drawings represents and is explained in more detail below. Show it

Fig. 1 shows a circuit of a portable differential current switch with a two-winding trigger

Fig. 2 this trigger in side view.

According to Fig. 1 and 2 of the portable differential current switch has a plug 1 for connection to a single-phase network having a phase conductor L, a neutral conductor N and a protective earth conductor PE. The outer conductor L and the neutral conductor N are guided through a summation current transformer 3 to fixed contacts, which include a movable contact 12 for the outer conductor L and a movable contact 10 for the neutral conductor N , both of which end directly in a plug socket 13 , which for the Connection of consumption is provided. The protective conductor PE is outside half of the summation current transformer 3 leads to a connection point 14 , to which a voltage-dependent resistor 8 is connected, the free side of which is connected to a connection point 15 , which is designed as a fixed contact. The associated movable contact 11 also ends in the plug socket 13 .

A winding is applied to the summation current transformer 3 and is directly connected to an electronic amplifier 2 . This is on the one hand with a first winding 17 of a solver in connection, on the other hand with the movable contact 12 of the outer conductor L. The free side of the winding 17 of the trigger 6 is connected to the movable contact 10 of the neutral conductor N the. The trigger 6 now has a second winding 18 , which is preceded by a voltage-dependent resistor 7 , to which an ohmic resistor 19 is connected in series such that the free side is connected to the connection point 14 . The trigger 6 is mechanically coupled to a switch lock 9 , which opens the movable contacts 10 , 11 and 12 of the switch in the differential current case. A test circuit with a test contact 4 and a test resistor 5 is used to check the functionality of the switch.

The operation of the differential current switch according to the invention is as follows: The electronic amplifier 2 receives its power supply via the winding 17 of the trigger 6 from the outgoing side of the outer conductor L and the neutral conductor N.

In the event of a fault, a "differential current" would normally generate a voltage in the converter winding via the current path of the conductors L , N or PE , which triggers the trigger 6 through the electronic amplifier 2 , causing the contacts 10 , 11 and 12 to pass through the key switch can be opened.

Now there are a number of possible errors that can occur in practice. In an installed system, for example, the socket circuit is incorrectly connected if the protective conductor is interchanged with the outer conductor. Then the electronic amplifier 2 has no operating voltage. If the connected and grounded consumer (protection class I) came into contact, the switch would not switch off and the metal housing of the consumer would be connected to the mains. In such a case, the triggering takes place with the aid of the second winding 18 on the trigger 6 .

The voltage-dependent resistor 8 has the task of protecting the connected trigger 6 in the event of a short-circuit current via the protective conductor PE . It also prevents false tripping, caused by permissible neutral voltages of less than 25 V and the current that occurs in the protective conductor PE to the earthing point (forced earthing on the consumer side).

The voltage-dependent resistor 7 , in conjunction with the voltage-dependent resistor 8, has the task of preventing the switch from being triggered in the event of brief interference pulses, such as can occur, for example, when fluorescent lamps are switched on.

Claims (3)

1.Variable differential current switch, with a summation current transformer, which in the event of a residual current gives a signal to an electrical supply fed from the electrical supply network, which amplifies this signal and transmits it to a winding applied to a release and causes the shutdown via a switching circuit, thereby characterized in that the trigger ( 6 ) is provided with a second winding ( 18 ) which is connected in parallel with a first voltage-dependent resistor ( 8 ) located in the protective conductor PE , and that in the case of a difference in current the voltage through the first voltage-dependent resistor ( 8 ) flowing differential current generates a voltage drop, which leads to tripping via the second winding ( 18 ) of the release ( 6 ). 2. Differential current switch according to claim 1, characterized in that a second voltage-dependent resistor ( 7 ) between the second winding ( 18 ) of the trigger ( 6 ) and the first voltage-dependent resistor ( 8 ) is used, wherein between the two voltage-dependent resistors ( 7 , 8 ) a series ohmic resistor ( 19 ) is connected. 3. Differential current switch according to one of claims 1 or 2, characterized in that the voltage-dependent resistors ( 7 , 8 ) consist of VDR resistors.