DE477156C - Circuit arrangement for quick switch - Google Patents

Description

Circuit arrangement for high-speed switches for reclosing devices for feed lines, test resistors are placed in parallel with the switch in connection with contact instruments the sick route continuously or at time intervals scan. It is often necessary to have quick-action switches in such facilities to use. It is now known that lying parallel to the contacts of the switch To use the test resistor at the same time to switch off the quick switch to dampen developing overvoltages and render them harmless. Here but this damping resistance may only have a relatively small ohmic value, if the overvoltages are to be avoided with certainty, then flows if the damping resistor also serves as a test resistor, also through the contact instrument, that brings about the reclosing, a relatively high current. The instrument consequently it has to be built very strongly, whereby its sensitivity suffers.

According to the invention are therefore two parallel to the quick switch Resistances are placed, one of which, serving as a damping resistor, is low Ohm value, while the other, serving as a test resistor, is correspondingly high Ohmic value possesses. The test instrument is only inserted into the circuit of the high-resistance test resistor switched on.

Two exemplary embodiments are shown in the drawing. i is a switch that connects a power generator 7 to a consumer network 6. This Switch is, as indicated by the zigzag line provided with a double arrow is provided with a quick-acting switch-off device. Parallel to the quick switch is the damping resistance 4 and the test resistance 5. The test instrument 3, which by means of an auxiliary contact the closing coil io of the high-speed switch i controls, is only in the circuit of the test resistor 5, but not in the circuit of the damping resistance q ..

In the . Device according to Fig. I, both resistors are through one single switch 2, which is in the common lead to both resistors, switched on or off. Of course, the switch 2 can also be used in a known manner Row with switch i.

Fig. 2 shows a further embodiment in which the two Resistors can be controlled by separate switches 8 and 9. This lets achieve a further improvement of the device, which consists in that the damping resistor 4, which must carry high current, only for short-term loads needs to be interpreted while the test resistor 5, which has a large ohmic value, designed for long-term loads. The switches 8 and 9 are through auxiliary contacts so automatically controlled that the resistance q. only switched on for a few seconds can be, and that the Resistor 5 is always switched on is when the main current is interrupted by the switch i.

In normal operation, the switches and i are closed. When occurring an overcurrent, the quick release of the switch i will open it and initially the resistance q. turn on the circuit. When switch i is open, the Auxiliary contacts ii closed, so that the opening coil i2 also controls the switch 9 triggers. At the same time, the switch 8 is closed by the coil 13. If a certain order of movement of the switches 8 and 9, for example in such a way that the switch 9 is only opened after the switch 8 has been closed, if desired, this can be done in a manner known per se by means of damping devices or auxiliary contacts. It is only essential that the resistance q. if possible is switched off soon after triggering the switch i from the circuit. Is the The short-circuit in the network 6 is remedied, the current flowing in the resistor 5 drops so far, that the instrument 3 closes the circuit of the closing coil io and the switch i is closed. By opening the auxiliary contacts ii, the coil 13 is de-energized, so that the switch 8 opens. By closing the auxiliary contacts = q. will then the closing coil 15 of the switch 9 is energized, so that this too closes and the original operating status is restored.

Claims (5)

PATENT CLAIMS: i Circuit arrangement for high-speed switches with reclosing device, characterized in that there are two special resistors parallel to the high-speed switch, one of which has a low ohmic value and serves to dampen the overvoltages that arise when the high-speed switch is opened, while the other has a high ohmic value in the circuit of the other possessing resistance the test instrument lies. 2. Circuit arrangement for high-speed switch according to claim i, characterized in that that the low-ohmic damping 'resistance for short-term current load and the high-resistance test resistor is dimensioned for long-term loads. 3. Circuit arrangement for high-speed switch according to claims 1 and 2, characterized in that the damping resistor is connected directly to the terminals of the quick switch, while the test resistor via a switch (8) parallel to the quick switch and one in series with the Quick switch lying third switch (9) is arranged. q .. Circuit arrangement for high-speed switch according to claims 1 to 3, characterized in that - that auxiliary contacts are arranged on the quick switch, which in the "off" position of the quick switch Close the switch (8) in the test circuit and the one in series with the Open the switch (9) lying on the quick switch. 5. Circuit arrangement for high-speed switches according to claims i to 3, characterized in that the high-speed switch has auxiliary contacts possesses, which in the switched-on position of the same parallel to the quick switch open the switch (8) and the one in series with the quick switch Close switch (9).