DE2652190C3 - Circuit arrangement with a safety socket strip for determining the quality of the protective conductor - Google Patents

Description

The invention relates to a circuit arrangement with a safety socket strip, a test device to determine the quality of the protective conductor and one as an adapter for a single-phase network trained residual current circuit breaker, in which the test device between the terminals for the Outer and the neutral conductor of the safety socket strip switched voltage divider and a resistor connected to the midpoint of the voltage divider connected.

It is already known. Elements of residual current protective shells to be accommodated in safety plugs (DE-PS 22 04 418). Such safety plugs that work on the principle of residual current protection circuit, are between the power grid and a or several electrical devices used as consumers. The purpose of the residual current circuit breaker is to the sum of the currents flowing in and out of one or more connected electrical devices measure, which is normally zero. However, if there is a difference between the incoming and outgoing currents, caused by a leakage current to earth or to the earthed protective conductor, the residual current circuit breaker disconnects with a certain size of the discharge routine via built-in switching contacts Circuit and thus avoids endangering all those who use the electrical appliances in Come into contact. The reference point for the earth potential is usually the one used in the The existing, earthed protective contacts used to feed the socket An extension of the The protective effect is achieved in that there is also a fault current in the protective conductor circuit Winding arrangement of the summation current transformer is arranged, possibly with the addition of voltage-dependent Resistors (DE-PS 18 09 025).

To check the potential of the earthing contact springs or earthing contact sockets of sockets is already a test plug has been developed which, if necessary, additional circuit arrangements for testing the Safe contact between the earthing contact springs of two-pole earthing contact sockets with the earthing contact strips the protective contact plug to be connected (DD-PS 74 299). As an indicator for that Presence of a potential at the earthing contact springs or earthing contact sockets of sockets in a glow lamp is used to measure the magnitude of the conductor-earth voltage. Thus, only the flows as a measured variable small glow lamp current in the μ Α range. However, currents of this magnitude are already flowing in capacitive, i.e. open grounding. This only allows a statement to be made as to whether the protective conductor is even connected to the Socket contacts. Furthermore, in the event of a fault in the measuring device or in its Incorrect operation and at the same time interrupted protective conductor no protection against dragged Contact voltages given.

In special cases it is desirable to determine that the grounding conductor is of sufficient quality, in order to be able to control the protective effect of residual current circuit breakers at any time. These Checking the earthing quality of the protective conductor requires previously created specifically for this purpose Test equipment. However, these have the disadvantage that residual current protective devices can be plugged in at the place of use not to be available because, apart from the impossibility of such devices to be operated by laypeople let the effort not be justified.

The invention is therefore based on the object of providing a device with a residual current circuit breaker Circuit to provide a circuit that designed a control of the protective conductor at any time, with it Manufacture with little effort and can be inserted into the circuit in a simple manner.

The object is achieved according to the invention in that the residual current circuit breaker acts as a safety plug and the resistor are designed as a variable resistor that the variable resistor to the protective conductor of the safety plug is connected, that the voltage divider has approximately equal partial resistances possesses and is connected via contacts of a switching element with outer and neutral conductors that parallel to A rheostat is connected to a measuring instrument and that the protective conductor is connected to an externally accessible Terminal is connected.

The advantages achieved by the invention are that the circuit according to the invention interacts with a residual current circuit breaker allows the sufficient quality of the residual current circuit breaker required protective conductor with regard to its function at any time with the simplest To be able to check operation, even during the checking process never a dangerously high current over the examiner can flow to earth.

A terminal connected to the protective conductor and accessible from the outside also offers the advantage that with Lack of a protective conductor in the installation (two-pole socket without protective contacts, as in many places usual) an equivalent auxiliary earth is connected to the base of the rheostat and the measuring instrument can be. In this way, conditions can also be created for this case, such as those for a real protective circuit of electrical devices in terms of residual current protective circuit are specified according to VDE 0100. The built-in circuit makes it possible to test the Earthing quality of the auxiliary earth connected for this purpose is possible at any time. Additional further measuring devices are not required.

Advantageous configurations of the subject matter of the main claim can be found in the subclaims.

It is particularly advantageous that the inventive Circuit consists of only a few components, which together with the components of a Residual current circuit breaker in a safety socket strip (claim 3) or in the housing of the safety plug (Claim 4) can accommodate.

Overall, the circuit according to the invention contributes to the fact that when using electrical Devices, e.g. B. on small construction sites, during disaster relief as well as in the field of camping, gardening and hobbies a significantly higher level of security is achieved than is known so far.

An embodiment of the invention is ^; n shown in the drawing and is described in more detail below. It shows

F i g. 1 a circuit for testing the protective conductor of a residual current protective circuit,

Fig. 2 shows a pluggable residual current circuit breaker and downstream safety socket strip with this circuit,

F i g. 3 a pluggable residual current circuit breaker with a downstream safety socket strip, whereby the circuit is housed in the housing of the residual current circuit breaker.

F i g. 1 shows a safety plug 1 with a built-in residual current protective circuit (only partially shown), which is connected to the mains via a feed socket 2. The power network has an outer conductor R, a neutral conductor (or center conductor) Mp and a protective conductor SL . The neutral conductor and protective conductor are each grounded individually or together. The safety plug 1 is connected to a safety socket strip 4 via a connecting line 3. Outer conductor R and neutral conductor Mp are routed to a voltage divider 6 via contacts 5 of a test button PT. The common base point of the rheostat and the measuring instrument is connected to the protective conductor SL and is also connected to a terminal 9 which is led to the outside and to which an auxiliary earth (substitute protective conductor) with its earthing resistor 10 can be applied.

FIG. 2 shows one of the circuit arrangements according to FIG. 1 corresponding device arrangement shown. The same reference numerals apply here; the scale of the measuring instrument is additionally designated by 11, and with 12 the control button for the rheostat.

According to Figure 3 is the circuit arrangement of the test circuit in the housing of the safety plug 1. Otherwise, the same reference numerals apply as before.

The functioning of the entire device arrangement is as follows:

By pressing the test button PT , the voltage divider 6 is connected to the mains voltage via the contacts 5. At the midpoint of the voltage divider, half the mains voltage is connected to earth, in any case, regardless of the polarity with which the plug is connected to the socket. The advantage of using this voltage divider in the circuit is that, in extreme cases, never more than half the mains voltage can act as contact voltage during the test process. At this midpoint of the voltage divider 6 is the series connection of a continuously variable control resistor 7 with the earth resistance of the protective conductor Si. or with the earth resistance 10 of the substitute protective conductor. If the internal resistance of the voltage divider 6 is neglected, half the mains voltage is distributed over the two resistors, one of which 7 can be changed from very large values to very small values and the other is unknown , which shows the voltage drop across this resistor. With a ground resistance of z. B. zero ohms, the total voltage drops across the variable resistor 7, the maximum display of the measuring instrument 8 thus means good grounding. With a ground resistance of z. B 2000 ohms, the pointer of the measuring instrument 8 will decrease depending on the set value of the variable resistor 7, since the voltage drop across the variable resistor 7 is lower by the amount of the voltage drop across the ground resistor. This drop in voltage at the control resistor 7 is therefore an inversely proportional value to the contact voltage occurring at the opposing ground. The scale 11 of the measuring instrument 8 can therefore, provided that the mains voltage is constant, be calibrated directly in contact voltage. By specifying a maximum permissible contact voltage (e.g. 50 V), the earthing resistance can be determined according to Ohm's law.

In cooperation with that located at the entrance of the entire arrangement, according to the principle the FI protection functioning safety plug 1 can still be achieved that during the Test sequence, the current, which increases when regulating the variable resistor 7, never become larger can be used as the nominal trip value of the safety plug 1, e.g. B 30 mA, since when this current is exceeded the Safety plug 1 triggers and thus interrupts the circuit.

The procedure for the functional test is as follows:

First, when the control resistor 7 is fully switched on, when the test button PTein is pressed, only a small current will flow from the center point of the voltage divider 6 via the protective conductor SL or via the earthing resistor 10 of the substitute protective conductor to the Eide. The measuring instrument 8 still shows practically full deflection. When the control resistor 7 is subsequently reduced, the measuring instrument pointer will steadily decrease, especially in the case of an earthing with a higher resistance, and thus indicate the contact voltage at the earthing resistor. In the case of a bad, i.e. excessively high-resistance earth, the pointer of the measuring instrument 8 will indicate a dangerous contact voltage and thus signal that the earthing

resistance must be reduced. If the soil is sufficiently good, on the other hand, when the Regulating resistor 7, the displayed voltage drop will only be small and the upstream safety plug 1 will trigger before a dangerous one Contact voltage is reached.

With these criteria, the statement that the grounding is sufficiently good is clear. The advantage of this The combination lies in the fact that, despite simple operation, an exact test of the protective function is given and In addition, due to the effect of the safety plug 1, it is never dangerous, even during the testing process high current can flow through a person to earth. The scale of the measuring instrument 8 needs to be the Operation and reading still to be simplified, no graduations and numbers, just two to have colored fields for "good" and "bad".

For this purpose 2 sheets of drawings

Claims (5)

Patent claims: 1.Circuit arrangement with a safety socket strip, a test device for determining the quality of the protective conductor and a fault current circuit breaker designed as an intermediate plug for a single-phase network, in which the test device has a voltage divider and a resistor connected between the terminals for the outer and the neutral conductor of the safety socket strip which is connected to the center point of the voltage divider, characterized in that the residual current circuit breaker is designed as a safety plug (1) and the resistor as a regulating resistor (7) that the regulating resistor is connected to the protective conductor (SL) of the safety plug (1) is that the voltage divider (6) has approximately equal partial resistances and is connected to outer (R) and neutral (Mp) via contacts (5) of a switching element, that a measuring instrument (8) is connected in parallel to the variable resistor (7) and that the protective conductor (SL) with an externally z accessible terminal (9) is connected. 2. Sound arrangement according to claim 1, characterized in that the contacts (5) are parts of a button (PT) . 3. Circuit arrangement according to claim 2, characterized in that the testing device in the housing the safety socket strip (4) is arranged (Fig. 2). 4. Circuit arrangement according to claim 2, characterized in that the testing device in the housing the safety plug (1) is arranged (Fig. 3). 5. Circuit arrangement according to claims 3 or 4, characterized in that the terminal (9) is attached to the outside of the housing of the safety socket strip (4).