DE945106C - Protection device for converter systems with single-anode discharge vessels - Google Patents

Description

Protective device for converter systems with single-anode discharge vessels The invention relates to a protective device for power converter systems in which to a converter unit, for example a three-phase or a six-phase Rectifier, associated discharge paths not in a common discharge vessel, but are each housed in a special single-anodic discharge vessel.

While in the case of multi-anode converters, when the failed AC voltage or when the power converter is switched on after the ignition process has ended is immediately ready for operation because all anodes participate in the current delivery there is a risk of overload with single-anode discharge vessels if Ignite individual vessels too late or not at all. This danger is exacerbated by the Invention prevented.

According to the invention are to form a protective device for power converters with single-anode discharge vessels in the control circuit of a circuit preventing the current output Switch the normally open contacts of excitation relays of the individual single-anode Discharge vessels connected in series so that when switched on or on again the power converter system after the failure of the supply voltage the current output of a Converter group is prevented until all discharge vessels ignited to have. Either one in the main circuit can be used as the current discharge preventive switch for example between rectifier and direct current consumer or direct current network Horizontal switch or a grid control switch can be used, if the single-anode discharge vessels with grid control belonging to the converter group are equipped. The excitation relays of the single-anode discharge vessels are in the excitation circuit of the individual discharge vessels and are designed in such a way that they have their working contacts close "as soon as or as long as a current flows in the excitation circuit. If according to the invention all working contacts of these excitation relays in series connection are placed in the control circuit of the switch preventing the output of current, so this switch can only be switched on when all discharge vessels have ignited, if so in all excitation circuits of the individual single-anode Discharge vessels an excitation current flows.

So it is ensured according to the invention that when you turn on of a converter group or when such a group is switched on again after a failure has occurred AC voltage the power output to the consumer or the consumer network for so long is prevented until the permanent excitation of all single-anode discharge vessels sustaining excitation arc has been ignited at the cathode.

When using the protective device according to the invention, it is excluded that in the absence of excitation in one or the other of the single-anodic Discharge vessels the other discharge vessels are overloaded; because the converter group is only switched on here if actually for all discharge vessels readiness for ignition is established.

The estimation device is advantageously supplemented to the effect that the switch preventing the output of current is actuated if during operation for some reason the excitation current in one of the to a converter unit or converter group belonging single-anode discharge vessels does not occur. Appropriate a time relay is provided, which the converter group only after expiry a certain time after the absence of excitation in one of the single-anodic discharge vessels turns off.

An exemplary embodiment of the invention is shown in the drawing. Three single-anode discharge vessels 1, 2 and 3 form a three-phase rectifier, which has a transformer q. is fed from a three-phase network 5 and over a switch 6 is connected to a direct current network 7. The switch 6 has One control circuit each for switching on E and switching off A. The control circuit for switching off is connected to the normally open contact of a zero voltage relay 8, so that the switch 6 and thus the rectifier are switched off as soon as the Voltage of the three-phase network 5 fails.

The restart of switch 6 via its control circuit for activation E is monitored by three excitation relays 11, 21 and 31, which the single-anode discharge vessels 1, 2 and 3 are assigned. Each of the excitation relays has two switch positions with associated contacts. The one indicated in the drawing Position (relay contacts on the left) is assumed when in the relevant excitation circuit no excitation current flows. The other position (relay contacts on the right) is assumed when from the excitation current source 9 an excitation current to the excitation anode of the relevant an anodic discharge vessel flows. The latter working contacts of the excitation relay are, as the drawing shows, all connected in series, so that the control circuit for activation E of the switch 6 can only be closed if in all single-anode discharge vessels where the excitation current flows. The one when it is not flowing Excitation current closed normally open contacts of the excitation relays are switched in such a way that that in the absence of the excitation current in at least one of the discharge vessels the control circuit for a timing relay is closed, which after expiry a certain time the control circuit for switching off A of switch 6 is actuated.

It has already been mentioned that the switch 6 is also through a switch can be replaced, which lies in the lattice circle of the single-anode discharge vessels. In any case, the relevant switch is used to control the current output of the converter to be prevented until all single-anodic discharge vessels have ignited.

Claims (4)

PATENT CLAIMS: i. Protection device for converter systems with single-anode discharge vessels, characterized in that the working contacts of excitation relays of the single-anode discharge vessels are connected in series in the control circuit of a switch preventing the output of current (main current switch or grid circuit switch), so that when switched on or switched on again after the failure, the current output of a converter group is so is prevented for a long time until all discharge vessels have ignited. 2. Device according to claim i, characterized in that that in the absence of excitation at least one discharge vessel of a converter group the switch preventing the output of current is actuated. 3. Establishment according to claim 2, characterized in that each excitation relay has two switch positions and that the contacts associated with the two positions are connected to a control current source and the circuits for switching on and off the power supply preventing Switch are connected so that the switch can only be switched on when all Excitation relays are turned on, while the switch is turned off as soon as at least one excitation relay drops out. 4. Device according to claim 3, characterized in that that the switch-off takes place with a time delay when the exciter relay has dropped out. Cited publications: German patent specifications No. 342 910, 403 98g.