DE208470C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

Patent 166224 deals with one Safety circuit for AC systems with one of the main line system in inductive relationship brought auxiliary line system, whose coils on opposite Ends of the conductor to be protected or on opposite sides of the conductor to be protected Apparatus lie.

With this safety circuit it can happen that a the safety circuit monitored automatic switch due to failure of its mechanical or electrical accessories get stuck. The point of failure would be in this case not be switched off because the safety circuit specified in the main patent is on Overcurrent does not respond, provided that it is in front of and behind the protected point lying current transformer flows through in the same strength and in the event that none Place in the network, an ordinary overcurrent switch would be built in, could be the largest Malfunctions occur due to a switch getting stuck. This evil avoids the present invention, which supplements the safety circuit in such a way that that at the same time with it on every line section or apparatus protected by it ordinary overcurrent protection is also combined in the following manner, which essentially relies on suitable shunts to the the auxiliary line system inducing current transformers is based. The drawing shows two Embodiments.

. 1 shows two successive cable sections a, a ' with the four automatic switches i to i'" which are used to switch them off. The primary and secondary windings of the current transformers inductively connecting the main and auxiliary line systems are denoted by d and e Secondary windings are connected in series via the relay windings h in such a way that their electromotive forces for this circuit cancel each other out during normal operation, while if a fault occurs in a cable section, its relay h will respond as a result of current reversal in one of the two current transformers and trigger its switches. The device described corresponds completely to that of the main patent. According to the invention, this circuit is now supplemented by the fact that each secondary winding e of the protective current transformer is closed by itself via an overcurrent relay h ' whose contacts, for example, parallel to those of the associated relay h in the same tripping circuit lie. The secondary winding each. In this supplementary circuit, the current of a relay h ' flows through the current transformer during operation. Would now z. B. the switch i '"of the cable a' in the event of an error occurring in the latter

fit. On days, issued on i. Mar \ 1912.)

do not switch off, ■ the overcurrent relays h ' on the cables in front would respond, and with a suitable selection of these overcurrent relays, the power generator cannot continue working on the fault by also disconnecting healthy cable sections.

In the arrangement according to FIG. 2, the overcurrent protection in the event of failure of the counter circuit in cable a ' is achieved in that the primary terminals of one of the two current transformers working together in cable a are short-circuited via a fuse s, while the other primarily via an ordinary resistor w same Size is closed. If the overcurrent lasts too long, the fuse blows, the two current transformer voltages no longer cancel each other and current occurs in the auxiliary line as a result. This sets the normal protective relay h in motion and the cable α is switched off.

Instead of connecting the fuse in parallel to the primary terminals of one current transformer, you can also connect it in parallel to the secondary terminals. In this case, resistors may have to be connected upstream of the fuses so that the voltage required for actuating the protective relay h can occur at their terminals, that is to say that in the event of a fault a sufficient voltage. large part of the secondary current also flows through the protective relay h . Furthermore, it is not absolutely necessary to connect fuses in parallel to the current transformers, but rather such resistances can also be used which are relatively constant within a certain current range, while if a certain overcurrent is exceeded, the resistance lying parallel to one of the cooperating current transformers is in its Changes values in a different way than the other. This in turn creates an imbalance in the secondary voltage of the current transformer in the event of an overcurrent, and the normal safety relays h respond. This case is illustrated in Fig. 2 for cable a '. The resistance w ' is e.g. B. made of iron, the resistor w made of nickel.

What is shown in the drawing for cable protection can, of course, also apply to all other areas of application in the main patent specified circuit are transmitted. Furthermore, the same additions are also available Applicable when the induction between the main and auxiliary line system causing coils in normal operation are not opposite electromotive but generate opposing electromagnetic or magnetomotive forces ..

Claims (1)

Patent claim: Safety circuit for AC power line systems with one from the main line system induced auxiliary line system according to patent 166224, characterized in, that the. Causing induction between the main and auxiliary pipe systems, in the normal state of the main body. processing system oppositely equal forces generating coils on the primary or Secondary side are closed by safety devices such as relays, fuses or resistors. 1 sheet of drawings.