DE442763C - Arrangement for limiting or reducing the current in part of a line network - Google Patents

Description

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The most common way of limiting or diminishing the current in a certain way Part of a line network is the series connection of an impedance in the circuit 5 or the full interruption of the latter. what the involvement of an infinitely large Impedance or the reduction of the current to zero equals. However, one has also tried to achieve the same purpose by shunting an impedance to the To achieve a circuit, whereby the current can also be reduced to zero, if the impedance is infinitely small. This will often have a faster effect than achieved by connecting the impedance in series. A protective effect in can be achieved in many cases when such a series connection is not possible. The shunt was sometimes switched on automatically when the current or the Voltage exceeds or falls below a certain value (amplitude).

The invention also relates to such an automatic connection of a shunt. However, it differs from the known arrangements in that the automatic switching does not depend on the size of the current or the voltage is based, but in a manner known per se on the Change in amplitude and on the speed with which this change takes place, d. H. on the discharge of the current or

di , de

the tension- according to the time, j or

Tf ^m

any part of the network. The size of this time derivative is not at all of that Size of the amplitude dependent.

The invention achieves, inter alia, the essential advantage that the switching device comes into effect faster than before, for example the above-mentioned advantage of switching on a shunt before connecting an impedance in series

ίο comes into its own better.

Some embodiments of the invention are shown schematically in the drawing in Figs shown.

In Figs. 1 and 2 .ein flows. Between electricity 1 and 2 and occurs through an arbitrary consumer 3. The current through 3 is limited by switching on a shunt between points 4 and 5 will. The switching means can be in can be carried out in different ways. For example, in Fig. Ι it is represented by a automatic switch 6 is shown, which is switched on by a coil 7.

In Fig. 2, an ordinary adjustable resistor 12 is switched on in the shunt, an electrical control device, e.g. B. a coil 7, b'esitzt.

The means used to create a control force dependent on the time derivative of the current or voltage can also be arranged in many ways. In Fig. 1, an inductive resistor 8 is used for this purpose, the inductance of which can be drawn with L. A voltage = L · τ- then occurs between the ends of this resistor. This] tension, that is

depends on the time line of the current, you z. B. with constant, L is proportional, is now used to actuate a switching element of the type described above. In Fig. Ι this takes place in that the control coil 7 is fed directly by this voltage. In Fig. 2, a series transformer 13 with little loaded secondary winding is switched on in the current branch whose time derivative is to be exploited, which then generates a secondary voltage which is practically proportional to the time derivative of the primary current and which can be used to feed the control coil 7.

In Fig. Ι and 2 it was assumed that the time constant of the coil 8 or 13 connected control coil 7 is lower than that of the first-mentioned coil, which is the condition for asserting the current dissipation in the desired manner. If you want to intensify this effect even more, so can be connected in series with the control coil (or a current transformer connected to it 14) switch an ohmic resistor 15, as Fig. 3 shows. If you replace this resistance with a capacitance or switch if you do both, you can even get an arrangement in which the control coil is influenced by a current mainly dependent on the second derivative, making the effect even faster and more powerful than by taking advantage of the first Derivation can be done.

Instead of the mechanical means for switching on the secondary circuit, spark gaps can also be used which of course work even faster than the mechanical means.

Claims (5)

Patent claims: ι. Arrangement for limiting or reducing the current in part of a Line network by connecting a shunt to the power supply unit to be protected or by regulating the impedance such a shunt ,, characterized ,, that the control means for the activation or the regulation is arranged in such a way that it is through the time derivative of the current or the voltage or both in the one to be protected Power supply is affected. 2. Arrangement according to claim ij thereby characterized in that in series with the part of the line network j its current is to be limited or reduced, a self-induction influencing the control means is switched on. 3. Arrangement according to claim 1, characterized in that in parallel with the part of the line network whose current is to be limited or reduced Capacitance switched on in series with the auxiliary device influencing the control means (transformer, choke or the like) is. 4. Arrangement according to claim 3, characterized in that in series with the auxiliary device influencing the control means an ohmic resistance or a capacity lies. 5. Arrangement according to claim 1, characterized in that the control means consists of a switch which closes the previously interrupted shunt. 1 sheet of drawings.