DE666002C - Device for testing switches for short-circuit strength - Google Patents

Description

Device for testing switches for short-circuit resistance Subject of the main patent is a device for testing switches for short-circuit strength. The short-circuit current is taken directly from a generator, however the returning voltage applied to the switch to be tested with not from the Short-circuit current obtained through flowing means. It is possible in this way using a transformer to apply a voltage to the switch under test to be applied, which is far higher than the recurring voltage of the generator, so that the test switch: is subject to a correspondingly higher breaking capacity.

In the main patent, the permanent value is now that of the test switch applied voltage increases, but at the same time the return time, i. H. the time between the zero value of the short-circuit current and the peak value being reached the recurring 5operiod alternating voltage of the generator passes. It is but it is important that after the current zero crossing the recurring voltage is like this builds up as quickly as possible. In addition, the main patent is the capacity on the Transformer, the voltage of which is pressed on the test switch, only low, see above that a flashback can only be initiated with low energy. You would on the other hand, connect a capacitance in parallel to the transformer, so increased only the return time of the voltage applied to the test switch.

These disadvantages are avoided according to the invention that the Switch a voltage that does not break down in the event of a short circuit (alternating voltage) is fed via a spark gap, which under the influence, one by the recurring voltage of the generator triggered ignition spark gap flips over. Then the alternating voltage does not need to start with the recurring one Voltage of the generator to build up. Appropriately, they are taken directly or by means of a transformer the phase not connected to the test switch. It is also recommended that the alternating voltage to charge a capacitor, the spark gap is connected upstream so that more energy is available at the spark transition. the Ignition spark gap, which initiates the spark transition in good time, is advantageous to the same phases via an auxiliary spark gap like the test switch connected. It then divides the ignition spark gap at the generator terminals recurring after the short circuit has been interrupted by the switch to be tested Voltage immediately after exceeding a certain value. Since the auxiliary and Spark gap work without a time delay, so practically suggests the same Moment also the main spark gap upstream of the capacitor over, so that the interrupting switch receives the alternating voltage pressed immediately.

The figure shows a circuit diagram of the device according to the invention. It is a the short-circuit generator, b the circuit breaker and e 'the switch to be tested or test switch. Upstream and test switches work together in such a way that the initially closed test switch is opened as soon as the upstream switch initiates the short circuit. The transformer d is connected to the third phase of the generator which is not in the short-circuit circuit. This is provided on the secondary side with the spark gap f, which is connected to the switch c via the capacitor e. One electrode of the spark gap l contains an ignition spark gap g in a manner known per se. This and thus also the main spark gap f are caused to flash over because it is connected to a terminal of the generator a via a spark gap lc and a current-limiting resistor k . The initial spark gap h cuts off part of the voltage returning to the generator and ensures that the ignition spark gap g ignites vigorously. So that the voltage on the capacitor e has a phase position of 90 ° with respect to the short-circuit current in the sense of an inductive load on a network, a self-induction i and an ohmic resistance nt are provided in the connection line with the transformer d.

Claims (5)

PATENT CLAIMS: i. Device for testing switches for short-circuit resistance, in which the switch to be tested receives a recurring voltage at the end of the switching process by means of special means through which the short-circuit current does not flow, according to patent 545 361, characterized in that one of the switch ( s ) to be tested is pressed , in the event of a short circuit, voltage (alternating voltage) that does not break down is fed via a spark gap (f) which flashes over under the influence of an ignition spark gap (g) caused by the returning voltage of the generator. 2. Device according to claim i, characterized in that the the voltage applied to the test switch (c) as an alternating voltage applied to the test switch phase of the generator (a) not connected directly or as a transformer is removed. 3. Device according to claim i and 2, characterized in that the voltage applied to the test switch (c) charges a capacitor (e), which the main spark gap (f) is connected upstream. 4. Device according to claim i to 3, characterized in that the phase position of the AC voltage charging the capacitor (e) with respect to the short-circuit current is regulated by an ohmic and inductive resistor (m, i) . 5. Device according to claim i to 4, characterized characterized in that the ignition spark gap (g) via an auxiliary spark gap (h) and a series resistor (k) connected to those phases of the generator where the test switch (c) is located.