DE530231C - Device for the protection of mercury vapor rectifiers with a reverse current protection device located on the secondary side of the rectifier transformer, which is influenced by both the anode and the cathode currents - Google Patents

Description

To switch off mercury vapor rectifiers in the event of reignition, see below Differential switching arrangements subject to the simultaneous influence of the anode and cathode currents known that when the balance of the magnetic tensile forces on the triggering device of the switch is disturbed disconnect the rectifier transformer from the mains. This type of shutdown has proven to be too slow in the case of re-ignition. Switch devices have also become known that only relieve ignition switch off affected anodes alone. In addition to the disadvantage of a long response time, this device also has the Disadvantage that the other anode circuits through the easily occurring during the reignition Vacuum deterioration also get reignition.

The difficulties and disadvantages of these arrangements are avoided when at a mercury vapor rectifier system with one influenced by anode and cathode currents Reverse current protection device on the secondary side of the rectifier transformer according to the invention by this device the triggering of a multi-pole High-speed switch with an interruption in each anode circuit in the event of reignition is effected. As a result, if backfires occur on one anode, all Anode circuits are interrupted and, as a result, the switching capacity for each circuit switch is reduced by half and the rectifier temporarily shut down, so that there is a pause in the any deterioration in vacuum that may have occurred can decrease. The quick switch in turn prevents major damage from occurring in a known manner on the electrodes.

An exemplary embodiment of the invention is shown in the drawing. Herein means 3 a direct current network, which is from a polyphase alternating current network 4 via a transformer 5, a multi-pole High-speed switch 6, primary windings 7 to 12 of a number of current transformers, the cathode 19 and the anodes 13 to 18 a mercury vapor rectifier 20 is fed. The primary winding 21 of a Another current transformer is in series with that of the zero point of the six-phase transformer outgoing line.

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The actuation and control device of the quick switch.6 consists of a holding magnet 22, which is provided with an armature 23 and a holding coil 24, which is fed by a control circuit 25 via a resistor 26 and a switch 27. The armature 23 is fastened in a known manner to a lever 28 which has its pivot point at 29 and is coupled to the actuating shaft of the switch 6 via an intermediate lever 30. The latter is held in the position shown by a spring 31 and is otherwise arranged so that the armature 23 is pressed against the holding magnet when a switch-on coil 32, which is connected to the power source 25 via a switch 33, is connected to voltage .

The holding magnet 22 also has a trip coil 34 which is in series with the secondary windings 35 to 41 of the above-mentioned current transformers. These windings are connected so that the trip coil 34 is traversed by a current, which from the resulting ^ f £ supplement

between the current "is generated, on the one hand and the sum OCE _r currents on the other hand is that in" in the winding 41 cTurch the NullpunkJsXrom of the rectifier-transformer throw generates the windings 35 to 40 by the ■ 30 anode currents of the rectifier.

When the currents of the anodes 13 to 18 all flow through the cathode 19, so will the total current of the windings 35 to 40 the balance due to the in the winding 41 induced current held so that the tripping coil 34 flowing through resulting current is zero. In these circumstances the switch will 6 by the force flow generated by the holding coil 24 in its closed position Position held. If, on the other hand, the current direction changes in ■ one of the anode lines 7 to 12 reverses, the coil 34 has current flowing through it, and the Power flow of the holding magnet 22 is in a manner known per se from the armature 23 in the coil 34 moved. As a result, the switch 6 is opened by the spring 31 and thereby the backfire arc instantly extinguished. It is known that High-speed switches of the type described break the circuit in less than one period interrupt. Since the amount of heat generated in this period is very small, so can the rectifier can be put back into operation immediately after being switched off. The particular advantage of the device according to the invention is that the system is protected from damage and is immediately ready for use again.

Any other devices can also be provided in place of the current transformers which generate a resultant current in a manner known per se, which at the moment of occurrence of a flashback arises in the rectifier.

Claims (3)

Patent claims: 1. Device for the protection of mercury vapor rectifiers with a reverse current protection device on the secondary side of the rectifier transformer, which is influenced by both the anode and cathode currents, characterized in that, that they trigger a multipole high-speed switch with interruption in each anode circuit in the event of re-ignition causes. 2. Device according to claim 1, characterized in that the quick switch also controls the cathode circuit. 3. Device according to claim 2, characterized in that on the shift shaft of the switch contacts for opening and closing the cathode circuit are attached. For this purpose ι sheet of drawings