DE963444C - Control of the blown air for compressed gas switch - Google Patents

Description

When operating pressurized gas switches with higher cut-off capacities, the saving of pressurized gas poses a particular problem, because with the high cut-off currents, correspondingly large cross-sections of the outflow openings for the switching gases must be present, which in the case of a longer period of cut-off lead to correspondingly large amounts of pressurized gas Let free flow. To reduce the pressure of gas consumption ¹ already Various measures are known. For example, a throttle has been provided in the compressed gas line leading from the compressed gas boiler to a buffer tube on the peeling section, which ensures that the compressed gas flows out at a lower pressure after the arc has been extinguished, thereby greatly reducing the amount of compressed gas flowing out. A pressurized gas switch is also known in which the SchaltSitrecke is initially blown with a pressurized gas of high pressure, while after extinguishing, the arc d'as pressurized gas is reduced to a lower pressure sufficient to prevent reignition of the arc until a downstream air separator is open or the voltage insulation is secured in another way.

The invention relates to a control of the blown air for compressed gas switches that are used for short breaks and subsequent switching off or for

709 51 & 215

the normal switch-off alone is particularly suitable, since it is compared to the known gas pressure switches with short interruption brings a substantial saving in compressed gas. According to the invention are provided in this control means, which of two existing pneumatic, from each other separate pressurized gas boilers are used for a longer period of time, for short interruptions, and the other for normal shutdown with the

ίο Connect switching path. Both pressurized gas boilers are here it is expedient to fill them to the same pressure and to have controllable blow valves. A Compressed gas switch equipped in this way has compared to a switch with a pressurized gas boiler or two pressurized gas boilers connected in parallel have the advantage that with each switching operation the for the Extinguishing the arc necessary full boiler pressure available and: this guarantees the full breaking capacity in every case,

If it is a question of switching a short circuit, one of the pressurized gas boilers is activated first released for blowing the arc. This pressurized gas boiler is dimensioned so that he is responsible for maintaining the blowing over z. B. 50 to 100 HW required Druckgasmetige records. During the blowing process, the pressure drops from its maximum value according to an exponential curve to a minimum value that is sufficient to maintain the voltage insulation. If the switch is then switched on again, the boiler can after or during the interruption are replenished. Is the short circuit even after switching on again is still available, the second boiler is used for the subsequent normal shutdown. In this case, the switching path only needs to be inflated until after The arc is extinguished by a downstream isolator, the necessary voltage isolating distance made. The duration of this process is, however, with a correspondingly faster opening of the Disconnector far less than the short interruption. The second pressurized gas boiler is as a result also not emptied to the same extent as the first pressurized gas boiler. After filling up both Boiler, the duration of which depends on the compressor system, the switch is full again ready for use.

In the usual version with only one

Pressurized gas boiler for two switching operations must be the pressure still present after the short break be so large that it is sufficient for normal shutdown. The fulfillment of this requirement continues With the high pressure gas consumption for the short interruption, a large volume of the boiler ahead, which for this reason mostly consists of two parallel kettles. The known arrangement of two pressurized gas boilers, of which only one is used for a specific switching process is provided, however, in the case of the according to the invention Use has the advantage that compressed gas is saved even during the short break will. If both parallel boilers were switched on at the same time, this is due to their greater capacity the mean pressure is significantly higher than with only one boiler switched on. It therefore flows in two parallel boilers also emit significantly more compressed gas through the outflow openings of the switch than with a kettle.

Even with a graduated control of the compressed gas during the short break from one There is no guarantee that the boiler will subsequently switch off at a normal a sufficiently high pressure is available for a large boiler volume. In addition, the Control from a strong blowing of the switching path to a weaker blowing during the interruption and again to a strong blowing during the subsequent switch-off very complicated. In contrast, the control of two normal blower valves for each switching process, as the invention provides, no difficulties.

In the practical implementation of the invention, the two pressurized gas boilers are known Way to arrange this switch as a carrier of the pole columns and mechanically connect them to one another. Both boilers have their own connection lines to the switching chambers and are used for their Purposes trained relay controlled via two blow valves.

Claims (2)

PATENT APPROACH: 1. Control of the blown air for compressed gas switches with short break and normal Disconnection, characterized in that control means are provided, those of two existing ones pneumatically separated pressurized gas boilers one for a longer one Duration, e.g. B. for the short break, and the other for the normal shutdown connect to the switching path. 2. Control according to claim 1, characterized in that both pressurized gas boilers on the same pressure are filled and for themselves. Have controllable blow valves. © 60970S / 267 11.56 709513/215 5.57