DEL0017554MA - - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

Registration date: December 28, 1953 Announced on July 19, 1956

GERMAN PATENT OFFICE

The; Ernndung relates to a method for checking. _{High-performance switches} with two separate energy sources for the high current unc [the test voltage at which. the call voltage is applied to the test switch immediately after the high current has zeroed. The invention can be used both for low-voltage switches and especially for high-voltage switches. In the known Pnüfschaltungen of this type: first the high current passed through the test switch and after the opening of the switch to achieve several focal half-waves, which can not be ignited by the low voltage of the high current circuit, shortly before or during the current zero passage. with each half-wave of the high current the high test voltage to the switching devices; .placed. The connection of the test voltage circuit: is z. B; made by a control device:; that its! triggering pulse from the switch contact separation ^! g occurring arc voltage <. '

Early use, defyelectric energy of the test voltage circuit h, but has the disadvantage that the high-voltage source: is constantly loaded during this time and therefore at the moment where the actual voltage test is to take place, do not deliver the full test voltage can. This disadvantage is' avoided by

609 550/203

L 17554 VIII el21e

that, according to the invention, the test voltage circuit is only closed when the switch contacts are in or almost in the optimal extinguishing position ^:

^J 'indicate that test ¹ "of the switch occurs under the correct conditions.

In Fig. Ι of the drawing, the position of the switching contacts ι and 2 of a call switch is shown schematically in several phases of the switch-off movement. Starting from the middle position α, an arc b of small length initially arises, which is still little exposed to the action of the solvent and then expands in a further position of the contacts to the arc c . Were the deri arcs b and ε

■ associated high-current half-waves nicely close the circuit for the test voltage, this would mean a pointless use of the energy of the test voltage circuit, and in the end position of the contacts with optimal extinction conditions, the voltage required for the test would not be available. Therefore, the test voltage may only be applied to the switching contacts 1 and 2 when they have reached the strongly drawn position that corresponds to the optimal extinguishing conditions. ,. . .

In the practical implementation of the inventive idea one can determine the late connection of the test voltage circuit either from the number of previous' high current half-waves or the Make the amount of arc voltage that occurs at the switching contacts dependent. One can also combine both possibilities with each other, so that the switching on of the voltage both from a fixed number of previous high-current half-waves as well as from the level of the Arc voltage depends.

A counter for the high current half-waves is expedient provided that, after a predetermined Halibwave number, the triggering of a Releases switching spark gap in the pre-voltage circuit. If a current-dependent control device is used Connection of the pre-voltage circuit is used, this control unit remains blocked until a The control pulse derived from the arc voltage causes the release.

For example, in a test circuit according to Weil, the high current shortly before its Zero crossing derived current pulses, which cause the connection of the test voltage circuit are blocked until the arc voltage (Ignition or extinguishing tip) of the switch-off arc a release pulse for the Control unit causes.

In Fig. 2 several half-waves of the high current i ^ are shown, which shortly before the zero passage an oscillating current i _{s is} superimposed, which is supplied by the prefect voltage circuit. However, this oscillating current is only triggered when the arc voltage L has reached a sufficiently high value. This is due to the der Stramhalb-wave 1 i ^ puberlagerteiySchwingstrpmhalbf] ';? wave i _s indicated. ¹ As 'one can see,' after the first superimposition there is a new ignition, and only after the subsequent high-current half-wave is it finally switched on.

Fig. 3 shows the corresponding circuit diagram of the test system according to Weil. In the high-current circuit of the generator, Q , is the test holder, S _p in series with an * ^j auxiliary switch 5 ^. On. The test voltage circuit, which consists of an oscillating circuit capacitor C _s , a choke L _s and the spark gap F, is also located in the terminals of the test switch. The voltage at the terminals of the capacitor C _s drives the oscillating current i _s through this circuit. A series connection is available parallel to the test switch S _p! the damping resistance R _d and · the capacitor C _e , which, together with C _s and L _s, serve to determine the frequency of the settling recovery voltage.

If after opening of the switch 6 ^ and S _p is a counter Z in "HÖchströmkreis. Triggered, the only after a predetermined number. 'Releases of · high-current half-wave a current-dependent control device which .z as an auxiliary electrode of the spark gap F' applied, the resonant circuit voltage u _cs (Fig. 2) can only reach the contacts of the test switch S _{p at this point} additional control device I derived pulse happens.

Claims (6)

Patent claims: 1. Procedure for testing heavy-duty circuit breakers ^ especially of high-voltage switches, with two separate energy sources for the high current and the Test voltage at which the test voltage immediately after the high current has zeroed is placed on the test switch, characterized in that the test voltage circuit is only closed when the switching contacts in or almost in the optimal Have reached the extinguishing position. 2. The method according to claim 1, characterized in that that the connection of the Prüfspannunigskreis of the. Number of previous high-current reverberation waves subject to wind. 3. The method according to claim 1, characterized in that that the connection of the test voltage circuit depends on the level of the occurring Arc voltage is made dependent on the switching contacts. 4. The method according to claim 1, characterized in that that the connection of the test voltage circuit both from the number of the previous High-current reverberation waves as well as the level of the arc voltage is made. 550/203 L17554VIIIc / 21e 5. Arrangement for performing the method according to claim 1 or 2, characterized in that that a counter for the high-current half-waves is provided, which triggers after a predetermined number of half-waves a switching spark gap in the test voltage circuit. 6. Order to carry out the procedure according to one or more of the preceding claims, characterized in, • that a control pulse for the connection of the test voltage circuit shortly before the zero crossing of the high current supplying control device is provided and this device remains blocked until one of the arc voltage derived second control pulse enables the control unit. Considered publications:
ATM Z 732-2, p. 214. 1 sheet of drawings