DE888128C - Selective protection device for three-phase networks - Google Patents

Description

Selective protection device for three-phase networks For selective protection devices, in particular with distance protection devices, with three-phase networks, one can use the execution meet so that excitation members are only assigned to two phase conductors. These stimulus members can in particular be overcurrent or underimpedance relays. When responding they cause switchovers, if necessary together with an unbalance current relay in the current and voltage measuring path of the protective device in such a way that the direction or Measuring element current and voltage is supplied according to the respective fault.

According to the invention, the switchover required thereafter can be carried out achieve in the current and voltage measuring path in a particularly simple manner by the Introducing the current and voltage of the third phase conductor into the measurement thereof is made dependent on whether only the excitation element of one of the other phase conductors or appeals to both. When only the excitation element of a phase conductor is triggered the introduction while they respond to the stimulating members of both phase conductors is omitted. To achieve this, an auxiliary relay can advantageously be used, which has two opposing windings, one of which when Addressing of the phase conductor assigned to one phase conductor, the other during Response of the excitation element assigned to the second phase conductor is excited. The auxiliary relay causes a changeover contact to be switched when it is triggered in the current and in the voltage measuring path.

The distinction between short circuit and double earth fault is by means of to achieve an unbalance current relay, which is in a neutral conductor of the current transformer circuit the Protective device can be arranged and when responding, just like that already mentioned auxiliary relay, a changeover contact in the current and in the voltage measuring path. This changeover contact can be useful in relation to the changeover contact of the Arrange auxiliary relays in such a way that both are in the rest position one behind the other and together with a third changeover contact the current or voltage measuring path Switch to one of the two phases to which the excitation elements are assigned. the necessary switchings can be made in this way by a very small number cause of changeover contacts.

In the drawing, the invention is illustrated by an exemplary embodiment.

Fig. I shows the DC circuit of the protective device, Fig.2 the measuring path, which is intended as a voltage path and in a corresponding design can also be used as a current measuring path, since the current measurement is based on a voltage measurement can lead back.

For the sake of clarity, everything has been omitted from both figures, which does not seem necessary to understand the invention.

According to Fig. I is a ,. the contact of the phase conductor R of a three-phase network R, S, T associated excitation relay, a, the contact of one associated with the phase conductor T. and a, the contact of one in the neutral conductor of the current transformer circuit of the protective device arranged unbalance current relay. These contacts are made by speaking the relay closed. When a is closed, the winding w1 becomes an auxiliary relay B, excited. Closing a, has the excitation of winding w2 of this auxiliary relay and continues to result in the winding of relay BL. Contact a "makes this Relay B, switched on.

According to FIG. 2, the measuring path is connected as a voltage measuring path with the voltage converter circuit y, s, t, e . A corresponding conductor system y ', s', t ', e' would be assumed for the current measuring path. In the voltage measuring path, Q is the voltage winding of the directional element, Z that of the measuring element. The current windings Q 'and Z' would correspond to them for the current measuring path. The designations relating to the current measuring path are placed in brackets in the figure. In the case of the directional element, the windings Q and Q 'work together, and in the case of the measuring element, the windings Z and Z' work together.

The measuring path according to FIG. 2 is routed via changeover contacts bt, b, and b, which are switched in their rest position on conductor y (y '), with b, and b "lying one behind the other. B <is determined by the response of the relay Bt , b, by the response of the relay B, and b, by the response of the relay B. If, in the event of a short circuit, the contacts a, and cat are closed, only b = is shifted, and it is in the voltage measuring path the windings Q, Z are supplied with the linked voltage y, t or, in the current measuring path, the windings Q ', Z' are supplied with the voltage y ', t' corresponding to the current to be reported.

The relay B ,, does not respond in this case, since both Windings wl and zeis are at tension and consequently their effect lift. If, however, only a, is closed, then switching from b, at the same time switching b5, and the windings Q, Z. are chained to the Tension s ', t' laid. Accordingly, when closing a, there is only one switchover from b, instead of, while b, remains in the rest position, so that the voltage s, r or s' and y 'comes into play.

For the double earth fault, switching from b "to e (e ') has no effect. If a, alone or together with a, has been closed, the voltage t, e or t''e' is used for the measurement, if a, has been closed by itself, the voltage y, e or y ', e'. The voltages t, e and y, e are the voltage of the conductors t and y to earth. The voltages t ', e' and y ', e', on the other hand, provide a measure of the vectorial difference between the current of the relevant phase, i.e. T or R and the neutral current.

Claims (3)

PATENT CLAIMS: i. Selective protection device for three-phase networks, with the two phase conductors are associated with excitation members and by these with Response caused switchings in the current or. Voltage measuring path a directional and / or the measuring element is supplied with current and voltage in accordance with the respective fault is characterized in that the introduction of current and voltage of the third Phase conductor in the measurement is made dependent on whether only the excitation element of the one phase conductor responds or the excitation elements of both phase conductors. 2. Selective protection device according to Claim i, characterized by an auxiliary relay with two opposing windings, one of which when responding of the excitation element assigned to one phase conductor, the other when responding of the excitation element assigned to the second phase conductor is excited. 3. Selective protection device according to claim i and 2, characterized in that the current and voltage measuring path each have two changeover contacts which, in the rest position, connect both measuring lines to the switch a phase with a stimulator and one of them through the responsive the other phase associated excitation member to this, the second when responding of the auxiliary relay is switched to the third phase. q .. selective protection device according to claims i to 3 for the detection of double earth faults, characterized in that that with the changeover contact to be actuated by the auxiliary relay, another changeover contact is in series, which switches the measuring path when an unbalance current relay responds.