DE19903938C1 - Self-recovery current limiter has insulated separating bar in compression chamber held under influence of super pressure - Google Patents

Abstract

An insulated separating bar (20) is located in at least one of the compression chambers under the influence of the super pressure produced in a limited case and is pushed against an elastic device (6). The bar has a separating element (21) located above the liquid mirror (9) and an insulating element (22) lying on at least one intermediate wall (12). The insulating element has an opening (23) that connects with the connecting channel of the intermediate wall during normal operation and does not connect in a limiting case. Self-recovery current limiter contains electrodes (1) made of solid metal to be connected to an electric circuit, and several compression chambers (4) lying behind each other between the electrodes and partially filled with liquid metal (7). The chambers are formed by pressure-tight insulating bodies (5) and insulating walls (12) with connecting channels (8). An insulated separating bar (20) is located in at least on of the compression chambers under the influence of the super pressure produced in a limited case and is pushed against an elastic device (6). The bar has a separating element (21) located above the liquid mirror (9) and an insulating element (22) lying on at least one intermediate wall (12). The insulating element has an opening (23) that connects with the connecting channel of the intermediate wall during normal operation and does not connect in a limiting case.

Description

The invention relates to a self-recovering current limiting device Liquid metal according to the preamble of claim 1.

Such a self-recovering current limit is known from the publication SU 922 911 A. tion device known, which contains electrodes made of solid metal, which by as pressure-resistant insulating housing formed first insulating body are separated. In are inside the insulating housing by insulating partitions and there arranged between the second insulating body, which is used as an annular sealing washer are executed, partially filled with liquid metal, one behind the other de Compressor rooms formed with each other with liquid metal filled, eccentrically arranged connecting channels of the partition walls are connected. So there is a normal operation over the liquid metal continuous internal conductive connection between the electrodes. in the The liquid metal becomes a current limiting case due to the high current density displaced from the connecting channels. So that is the electrical connection the electrodes are interrupted via the liquid metal, which limits the Short-circuit current leads. After switching off or removing the short circuit The connecting channels fill again with liquid metal, whereupon the Current limiting device is again operational. In the document DE 40 12 385 A1 becomes a current limiting device with only one compression terraum and as a medium above the liquid level vacuum, Shielding gas or an insulating liquid mentioned. It is after pamphlet DE 26 52 506 A1 known, gallium alloys in contact devices, in particular to use GaInSn alloys.

In the case of current limiting devices with several compressor rooms, in follow the connecting channels one behind the other when a occurs Short circuit due to the number of current-limiting partial arcs  correspondingly high voltage drop built up, which eventually to the underr of the short-circuit current leads. The known current limit However, directions have too high a current limiting factor, the means too high a ratio between the forward current and the current to be limited Short-circuit current, on.

The invention is therefore based on the object, the current limiting ver hold a generic current limiting device, in particular regarding their current limiting factor and their response time ser.

Starting from a current limiting device of the type mentioned According to the invention, the task is characterized by the characterizing features of the independent claim solved, while the dependent claims advantageous developments of the invention can be found.

Due to the overpressure in the The movable isolating slide valve against the spring force becomes the compression chamber of the elastic means so that it is due to the overlap of the associated connecting channel through the insulating element to a section current path comes. By choosing the spring force, the An speaking behavior of the isolation switch and thus also the response speed of the current limiting device can be set. The be written mechanism of action is self-acting, that is, it is based solely on the triggering effect of a short-circuit current and the result pressure change.

It is expedient in each case between two partitions or older An isolating slide valve is natively arranged in each compressor room. By this independent isolating slide valve ensures that depending on the location of the pressure event, always an isolating slide valve speaks. This redundancy ensures high reliability. The  the triggering effect of a short-circuit current and the result pressure change.

It is expedient in each case between two partitions or older An isolating slide valve is natively arranged in each compressor room. By this independent isolating slide valve ensures that depending on the location of the pressure event, always an isolating slide valve speaks. This redundancy ensures high reliability. The  Use of elastic, erosion-resistant materials with a low coefficient of friction, for example Teflon, for the isolating slide valves are used for tight guidance.

Various means can be used as elastic means. A gas or is advantageous Gas mixture, especially a the liquid metal before oxidation protective inert gas. Additionally or alternatively, an Fe dermittel, for example a spring proposed.

With the means described so far changes after the Arc the relative pressure between both sides of the separating element, whereby the isolating isolating slide under the action of the elastic means is automatically reset. However, this deferral should be deliberate are made, the invention also proposes with the isolation slider before releasable holding means and release means. Before latching holding means and mechanical or electromagnetic be activatable release means.

It is advantageous to use a gallium alloy as the liquid metal. In particular special GaInSn alloys are easy to handle thanks to their physiolo safety. An alloy of 660 parts by weight gallium, 205 parts by weight of indium and 135 parts by weight of tin are normal pressure from 10 ° C to 2000 ° C liquid and has sufficient electrical Conductivity.

Further details and advantages of the invention result from the following embodiment. In the associated single Fig. 1, a current limiting device according to the invention is shown in longitudinal section.

The current limiting device 10 contains on both sides an elec trode 1 made of solid metal, preferably copper, which is formed rotationally symmetrically and merges into an outer connecting conductor 2 . Between the electrodes 1 there are a plurality of compression spaces 4 , which are formed by a corresponding number of annular sealing disks 11 and insulating partition walls 12 . The electrodes 1 , the sealing disks 11 and the intermediate walls 12 are held by a molded housing 5 , where known means for sealing the compression spaces 4 and for the force-fitting connection of the elements 1 , 11 and 12 mounted in the molded housing 5 are provided, however, for reasons of clarity are not shown. The means for sealing can be, for example, sealing rings between the sealing disks 11 and the intermediate walls 12 or electrodes 1 . The means for non-positive connection are, for example, continuous tension screws along the two lines 3 . The two outer compressor rooms 4 are laterally delimited by one of the electrodes 1 and by an intermediate wall 12 . The inner compression spaces 4 are laterally delimited by two intermediate walls 12 . The generally multi-part shaped housing 5 and the sealing washers 11 are pressure-resistant first and second insulating bodies. All compressor rooms 4 are partially filled with a liquid metal 7 , for example a GaInSn alloy. There is a vacuum above the liquid metal 7 . The intermediate walls 12 are provided below the liquid level 9 with connecting channels 8 . The connec tion channels 8 are also filled with liquid metal 7 .

In the inner compressor rooms 4 , an isolating slide valve 20 is gela gert. The isolating slide valves 20 each consist of a separating element 21 located above the liquid level 9 and an isolating element 22 which projects vertically from it and is partly located in the liquid metal 7 . Teflon is advantageously used as the material. The separating element 21 is guided tightly with respect to the adjacent partition walls 12 , so that at most a slow pressure equalization between the partial spaces of the compressor space 4 located above and below half of the separating element 21 can take place. Above the separating element 21 , an elastic means in the form of a spring 6 is supported against this and the associated sealing ring 11 . By the respective spring 6 Iso liertrennschieber 20 in their downward rest position, as can be seen the two isolating slide valves 21 shown on the right in FIG. 1, are kept. The insulating elements 22 lie on the respective adjacent intermediate walls 12 and each have a through opening 23 , which are in the rest position of the isolating slide 20 in extension of the connecting channels 8 of the adjacent partition walls 12 , so that there is a continuous electrically conductive connection between the electrodes 1 . Each Isolierennschieber 20 is ver against the spring force of the spring 6 slidably, the insulating member 22 slides along the adjacent partition 12 along. At the bottom of the insulating element 22 there is a vertical extension 24 which, together with the separating element 21 , ensures a tilt-free and thus jamming-free displacement of the isolating slide 20 . For quick pressure equalization between the above and below the set 24 of the subspaces of the compressor chamber 4 when moving the isolating slide 20 , the extension 24 is provided with a pressure compensation bore 25 .

When an external short circuit occurs, the liquid metal 7 is displaced by the short-circuit current generally at different intensities from the individual connecting channels 8 . In Fig. 1 the case is shown that the liquid metal 7 should be displaced most quickly in the event of a short circuit from the connecting channel 8 of the second intermediate wall 12 located from the left. Thus, a current-limiting arc ignites there, as a result of which an overpressure p arises in the two adjacent compressor spaces 4 below the respective separating element 21 compared to the partial space above the separating element 21 . In Fig. 1 it is shown that the excess pressure p builds up fastest in the second compressor chamber located from the left, so that due to this excess pressure p the associated isolating slide valve 20 moves upward against the spring force of the spring 6 . In the course of this displacement in a very short time, this isolating slide valve 20 reaches its opening 23 out of connection with the connecting channel 8 of the right intermediate wall 12 , whereas this connecting channel 8 is covered by the insulating element 22 . This leads to a restriction of the current path in the liquid metal 7 and thus to a quick and effective disconnection of the short circuit. After the arc has been extinguished, the insulating isolating slide 20 returns to its rest position by reducing the excess pressure p.

The present invention is not limited to the embodiment described above, but also includes all embodiments having the same effect in the sense of the invention. Thus, the invention can be modified, for example, in that a protective gas is located above the liquid metal 7 instead of vacuum, which, when the above-described excess pressure p occurs, as a resilient means on the respective isolating separator slide 20 brings a restoring force additionally or alternatively to the spring 6 . Furthermore, the isolating slide valve 20 could be connected to the locking means by which displaced isolating slide valve 20 are held back until they are reset by suitable release means. This development of the invention allows the faulty circuit to be interrupted for any length of time.

Claims (13)

1. Self-recovering current limiting device with liquid metal, containing electrodes ( 1 ) made of solid metal for connection to a circuit to be protected and several with liquid metal ( 7 ) partially filled, between the electrodes ( 1 ) one behind the other compressor chambers ( 4 ) by pressure-resistant insulating bodies ( 5 ; 11 ) and by this insulating partition walls ( 12 ) with connecting channels ( 8 ) are formed, characterized in that

• - That in at least one of the compressor rooms ( 4 ) an isolating slide ( 20 ) is under the influence of the excess pressure which arises in the case of limitation and is displaceably mounted against an elastic means ( 6 ),
• - That the Isolierennennschieber ( 20 ) located above the liquid level ( 9 ), essentially there tightly guided separating element ( 21 ) and a protruding, at least one intermediate wall ( 12 ) adjacent insulating element ( 22 ) and
• - That the insulating element ( 21 ) has at least one through opening ( 23 ), which is in nominal operation in and in the case of limitation except for connection with a connecting channel ( 8 ) of the adjacent partition ( 12 ).

2. Self-recovering current limiting device according to claim 1, characterized in that between two adjacent intermediate walls ( 12 ) each an isolating slide valve ( 20 ) is mounted. 3. Self-recovering current limiting device according to claim 1, characterized in that in each compressor space ( 4 ) an isolating slide valve ( 20 ) is mounted. 4. Self-recovering current limiting device according to one of the vorste existing claims, characterized in that the Isoliertrennschie ber ( 20 ) consist of elastic, erosion-resistant material with a low coefficient of friction. 5. Self-recovering current limiting device according to claim 4, characterized in that the isolating slide valve ( 20 ) consist of Teflon. 6. Self-recovering current limiting device according to one of the first Henden claims, characterized in that the elastic means is a gas or gas mixture lying above the liquid metal. 7. Self-recovering current limiting device according to one of the preceding claims, characterized in that the elastic means ( 6 ) is a spring means. 8. Self-recovering current limiting device according to claim 7, characterized in that the spring means is an isolating body by ( 11 ) and separating element ( 21 ) engaging spring ( 6 ). 9. Self-recovering current limiting device according to one of the vorste existing claims, characterized in that the Isoliertrennschie over ( 20 ) remains in its limit position adopted by holding means and releasable from this separation position by a release means. 10. Self-recovering current limiting device according to claim 9, characterized in that the holding means between the insulating body ( 5 ; 11 ) and isolating slide valve ( 20 ) are engaging locking means. 11. Self-recovering current limiting device according to claim 9 or 10, characterized in that the release means from the outside mecha is nisch actuated.   12. Self-recovering current limiting device according to claim 9 or 10, characterized in that the release means electro from the outside is magnetically actuated. 13. Current limiting device according to one of the preceding claims, characterized in that the liquid metal ( 7 ) is a GaInSn alloy.