DE1287674B - - Google Patents

Description

It is known to switch off AC circuits (see German Patent 638 981) to use a switch that has two switching paths in series, each with a valve is parallel, which are connected so that they have opposite forward direction. Through this the extinguishing conditions of the switch are significantly improved, so that the switch has a larger Manage breaking capacity or be less expensive to build with the same breaking capacity can. However, the known arrangement has the disadvantage that the valves, for. B. silicon rectifier, may have to carry the full current to be interrupted for a half-wave.

The subject of the invention is an improvement of this known circuit. According to the invention lies in the connection line between the common connection point of the two switching sections and the common connection point of the two valves is a thyristor, which is activated when the valve is switched off is only made conductive shortly before the zero crossing of the current, and means are also provided, through which current can only flow in the secondary routes if the switching paths are at least the have reached a safe extinguishing distance. Because the thyristor only shortly before the zero crossing of the current is made conductive, the valves lying parallel to the switching paths become too large Streams relieved, so that they can be dimensioned smaller, and because the bypasses only carry current be made when the switching sections have at least reached the safe extinguishing distance, this ensures that the thyristor and the rectifier in the bypass routes cannot be damaged, as will be explained later in the exemplary embodiment. The means, the byways only carrying electricity to do when the switching paths have reached the safe extinguishing distance can be in it exist that in series with the thyristor there is a switch that is only closed when the Switching paths have reached the safe extinguishing distance, or by releasing the thyristor only takes place when at least the safe extinguishing distance of the switching path has been reached. Under safe quenching distance is to be understood as the distance between the contacts of the switching path at which in Connection with the associated bypass ensures reliable extinction at each current zero crossing of the arc takes place, so no reignition occurs.

An exemplary embodiment of the invention is shown in the drawing.

1 with the switch is referred to, which has two switching paths 2 and 2 ', which are at the same time or approximately opened at the same time. A valve 3 or 3 'is located parallel to each switching path. These have opposite forward direction. In the connection line between the connection point the two switching paths and the connection point of the two valves is a thyristor 4 in series a switch 5. The thyristor is controlled by a control device 7 (not shown) from the current in the line controlled by the current transformer 6.

The mode of operation is as follows: It is assumed that the current flows from top to bottom. A such a current is called a positive direction current. When shutdown is close of the zero crossing of this current, e.g. in a time before the zero crossing in the order of magnitude of five time constants of the arc, the thyristor is made conductive, so that now, through the Arc voltage driven, the current commutates from the switching path 2 in the bypass, if the switch 5 is closed. After the commutation has ended, the switching path 2 and the the entire current now flows through the valve 3, the thyristor 4 and the switching path 2 '. If the Switching path 2 in connection with the secondary path in the current zero crossing at least the safe extinguishing distance has reached, it does not re-ignite and the switching process is ended because it is in the negative Current half-wave through the switching gap 2 'no more current can flow because the rectifier 3 blocks.

If the switching path 2 would be the safe extinguishing distance in connection with the current zero crossing Have not yet reached the secondary path, it could ignite again when the direction of the current is reversed. Included it could happen that the switching gap 2 'does not re-ignite and that now over the Rectifier 3 ', the thyristor 4 and the switching gap 2, the entire current flows, so that the thyristor and possibly also the rectifier would be destroyed. To prevent this from happening, the Switch 5 closed only when the switching paths 2 and 2 'in connection with their bypasses have reached at least the safe extinguishing distance.

The same protection can be achieved without the switch 5 if the thyristor 4 is always controlled in such a way that that it is only made conductive shortly before the zero crossing of the current when the switching path 2 or 2 'have reached the safe extinguishing distance with their valves.

Instead of the switch 5 in series with the thyristor 4, a switch can also be used, which is in series with the rectifier 3 or 3 '.

Claims (3)

Patent claims: 1. Arrangement for switching off AC circuits, in particular inductive AC circuits, with a switch that has two switching paths in series, each of which Switching path is assigned to a valve, which have opposite flow direction, thereby characterized in that between the common connection point of both switching paths and a thyristor is connected to the common connection point of both valves, which during the switch-off process is made conductive shortly before the zero crossing of the current, and that means are provided that current can only flow in the bypasses when the switching distances have at least reached the safe extinguishing distance. 2. Arrangement according to claim 1, characterized in that a in the connecting line Switch is located, which is only closed when the switching path has reached the safe extinguishing distance achieved. 3. Arrangement according to claim 1, characterized in that the thyristor is only conductive is done when the switching paths have reached the safe extinguishing distance.