DE19601880A1 - Load network arrangement with PE conductor for protection of electrical devices from electric shock hazard - Google Patents

Abstract

A consumer (load) network with at least one outer conductor or line and a conductor (2) taking on the protection function, protective earth (PE), and a neutral conductor (3). A test current device is used in order to monitor the protective earth (PE) conductor (2) for its functional capability in which a test current is passed into the protective earth conductor (2). In conjunction with an evaluating device (5), a test current sensor (4) supplies an 'open' switch signal to a switching device (7) in the consumer (load) lines, when the evaluation result is below a given threshold value of an actuating device (6).

Description

The invention relates to a consumer network arrangement with at least one outer conductor, one the protective function receiving manager, here generally called protective conductor, optionally a neutral conductor, and with an arrangement for Monitoring the protective conductor. Usually used for protection of devices with too high contact voltage in the various a so-called PE- Conductor used as protective conductor. In the case of insulation fault in the system to be protected or in the system to be protected the device causes a backflow through the protective conductor Residual current, which is a residual current circuit breaker or at a circuit breaker to trigger larger outputs brings. A prerequisite for the effectiveness of such protection However, the measure is to ensure the current path through the entire protective conductor branch. Is this on anyone Interrupted point or too high resistance, the protective measure can me be questioned. Interruptions can be caused by both Wire break as well as bad terminal points or not or incorrectly connected protective conductor. Too high grounding resistances can also be the usual protective measure affect your safety.

The invention has for its object a consumer to develop a network arrangement that is even more secure is achieved.

The described task is solved by a Ver consumer network arrangement according to claim 1. The monitoring the protective conductor is working properly here by a test current device, the test current the protective conductor there. A test current sensor works with one Evaluation device together, which is below a predetermined bar or predetermined threshold value of an actuation  direction of a switching device in consumer lines opening switching signal.

The fact that either continuously, clocked or occasionally the Protective circuit is monitored with the help of a test current, it is ensured that the protective conductor circuit is closed and can take protective measures based thereon.

In a simple arrangement, the test current device essentially a connection of an outer conductor to the Form a protective conductor through a resistor, the opp was adjusted to the desired test current. A such an arrangement creates an artificial one, so to speak Residual current, which is given as a test current to the protective conductor becomes. The protective conductor can in particular according to the regulations conditions for so-called PE conductors.

The actuating device of the switching device can do this be designed, the switching contacts of the switching device without to keep the opening switching signal in the closed position or to bring in this. If the test current is worse as a result Contacts in the protective conductor becomes too low, the switching contacts open as long as the error is pending.

According to an advantageous embodiment, test current sensors are Evaluation device and actuator together as a mains relay, since it works according to the quiescent current principle works and in operative connection with the switching device stands.

According to another embodiment, the test current sensor and Evaluation device formed together as an optocoupler the actuating device of the switching device strikes. You get a simple and potential-free one Monitoring. An optocoupler on the primary side Has light-emitting diode, with sufficient brightness Turn on the LED on its secondary side, so that a  Mains voltage relay switching contacts can close as long as these conditions are met. These conditions match a desired low resistance and one accordingly large test current.

In principle, the conductor taking over the protective function can are also connected to a socket outlet. The the The protective function of the conductor can also be earthed Connect consumer housing.

The invention will now be based on cal in the drawing illustrated exemplary embodiments will:

In Fig. 1, a consumer network arrangement is my device with Prüfstro, Prüfstromsensor, evaluation and betae actuating device of a switching device repeatedly.

An exemplary embodiment is illustrated in FIG. 2, the test current sensor, evaluation device and actuating device being designed as a network relay.

In Fig. 3, an embodiment is shown in which Prüfstromsensor and evaluation device together Opto-couplers are formed as.

In Fig. 4 a modification of the embodiment of Fig. 3 is shown, wherein the actuating current is obtained from an external auxiliary voltage.

In Fig. 5 a consumer network arrangement is shown, where the conductor, which takes over the protective function, is connected to the ground of a grounded socket.

In Fig. 6 an arrangement is shown, wherein the conductor assuming the protective function is connected to ground for a grounded consumer housing.

The consumer network arrangement of FIG. 1 has an outer conductor 1, a protective function acquiring conductor 2 and a neutral conductor 3. The conductors are connected to an arrangement for monitoring the functionality of the protective conductor. This arrangement has a test current sensor 4 and an evaluation device 5 , which is electrically connected to an actuating device 6 of a switching device with switching contacts in consumer lines. The test current device 8 is formed in wesentli Chen by connecting the outer conductor 1 to the protective conductor 2 via a resistor 9 . The test current is conducted via the test current sensor 4 . The desired test current can be set by suitably measuring the resistance in the circuit. The evaluation device 5 emits an opening signal to the actuating device 6 below a predeterminable or predetermined threshold value, or it sets the delivery of a closing signal if the test current becomes too low.

The consumer network arrangement of FIG. 1 is further a connecting unit 10, which may be understood as a socket, and a monitored hazard to consumers apparatus 11 illustrated with a spare resistor 12.

A particularly simple solution is obtained with a mains voltage relay according to FIG. 2, in which a small control current is sufficient to switch on and hold the switching device in the closed position. Here, the test current sensor, evaluation device and actuating device are designed as a network relay which is in operative connection with the switching device 7 .

The strength of the test current to be set advantageously can be based on the circumstances of an upstream fault current protection device. The arrangement according to FIG. 2 can be understood or implemented as module 13 , since module 13 according to FIG. 1 takes the place of.

A simple and potential-free monitoring is obtained when using an optocoupler 14 according to FIG. 3. If the test current determined by the resistor 9 causes a light-emitting diode of the optocoupler arranged on the primary side to shine sufficiently brightly, this can be switched through on the secondary side of the optocoupler so that the Actuating device 6 of the switching device 7 is acted upon and the switching contacts go into the closed position. In the case of larger relays or contactors, a corresponding amplifier circuit can also be arranged between the optocoupler 14 and the actuating device 6 or a protective control circuit. In simple cases, the opto-coupler can also be replaced by a relay, the circle on the input side being formed by the relay coil and the secondary side, i.e. the output side, by the relay contact instead of the light-emitting diode. The relay acts as an amplifier here, as shown in principle in FIG. 3.

The actuating current can also be provided according to FIG. 4 by an external, that is, by an auxiliary voltage 15 according to FIG. 4.

The conductor 2 taking over the protective function can also be designed as a grounding circuit in the embodiment according to FIG. 5, the conductor 2 according to FIG. 5 being connected to ground 16 for connection units or sockets 10 . According to FIG. 6 of the protective function of acquiring conductor 2 is as He dung circle with a mass 16 to be protected Verbrauchergerä tes 11 in connection.

Claims (8)

1. Consumer network arrangement with at least one outer conductor ( 1 ), a conductor ( 2 ) taking over the protective function, here generally called protective conductor, possibly a neutral conductor ( 3 ), and with an arrangement for monitoring the protective conductor for its functionality, a test current device ( 8 ) test current on the protective conductor ( 2 ) and wherein a test current sensor ( 4 ) in cooperation with an evaluation device ( 5 ) below a predeterminable or predetermined threshold value of an actuating device ( 6 ) of a switching device ( 7 ) with switch contacts in consumer lines supplies an opening switching signal . 2. Consumer network arrangement according to claim 1, characterized in that the test current device essentially forms a connection of an outer conductor ( 1 ) to the protective conductor ( 2 ) via an opposing stand ( 9 ) which is adapted to the desired test current strength. 3. Consumer network arrangement according to claim 1, characterized in that the protective conductor ( 2 ) is constructed according to the provisions for so-called PE conductors. 4. Consumer network arrangement according to claim 1, characterized in that the actuating device ( 6 ) is designed to hold the switching contacts of the switching device ( 7 ) without opening switching signal in the closed position or to bring it into this. 5. Consumer network arrangement according to claim 1 or 2, characterized in that the test current sensor ( 4 ), evaluation device ( 5 ) and actuating device ( 6 ) are designed together as a network relay which is in operative connection with the switching device. 6. Consumer network arrangement according to claim 1 or 2, characterized in that the test current sensor ( 4 ) and evaluation device ( 5 ) together as Op tokoppler ( 14 ) are formed, which acts on the actuating device ( 6 ). 7. A consumer network arrangement according to claim 1, characterized in that the conductor ( 2 ) assuming the protective function is connected to ground ( 16 ) for connection units ( 10 ), in particular sockets, in connection. 8. Consumer network arrangement according to claim 1, characterized in that the conductor ( 2 ) assuming the protective function is connected to ground ( 16 ) egg nes consumer device ( 11 ).