ARC EXTINGUISHING SYSTEMS

Abstract

A system for short-circuiting or grounding low-voltage and/or medium-voltage installations. The system includes at least one fault detection unit for detecting an arc and at least one signal-processing unit for processing signals from the at least one fault detection unit. The signal-processing unit is or can be connected to the fault detection unit for signal transmission. The system further includes at least one control unit which is or can be connected to the signal-processing unit for signal transmission, an electrical energy storage device in or on the control unit, and at least one fast-switching switching element having a mechanical energy store.

Claims

1-12. (canceled)

13. A system for short-circuiting or grounding a low-voltage and/or medium-voltage installation, the system comprising: at least one fault detection unit for detecting an arc; at least one signal processing unit for processing signals of the at least one fault detection unit, said signal processing unit being connected to, or configured for connection to, said fault detection unit for signal transmission; at least one control unit connected to, or configured for connection to, said signal processing unit for signal transmission, and an electrical energy storage apparatus in or on said at least one control unit; and at least one fast-switching switching element having a mechanical energy store, said fast-switching switching element being connected to, or configured for connection to, said control unit for transferring electrical triggering energy from said electrical energy storage apparatus, wherein the electrical triggering energy is used, or usable, to effect a triggering of a switching operation of said at least one fast-switching switching element, wherein said mechanical energy store is effective to perform the switching operation with the drive energy stored in said mechanical energy store.

14. The system according to claim 13 configured for a three-phase apparatus, wherein said at least one fast-switching switching element is a plurality of fast-switching elements each assigned to a respective phase.

15. The system according to claim 13, wherein the electrical triggering energy is set to a high level relative to potentially occurring electromagnetic interference.

16. The system according to claim 15, wherein the electrical triggering energy is set to a high level in comparison with an electromagnetic compatibility of switchgear.

17. The system according to claim 13, wherein said electrical energy storage apparatus is disposed physically separate from said mechanical energy store.

18. The system according to claim 17, wherein said control unit and said electrical energy storage apparatus are disposed in a low-voltage compartment, whereas said fast-switching switching element and said mechanical energy store are disposed in a region of a busbar and/or a switchgear to be protected.

19. The system according to claim 13, wherein said fault detection unit for detecting an arc has an optical sensor for optically detecting an arc and a current sensor configured to monitor a current characteristic on one or more busbars to be protected.

20. The system according to claim 13, wherein said control unit comprises an interface for connecting a computer or a data transmission unit.

21. The system according to claim 13, wherein said control unit includes inputs for blocking or initiating a triggering of a switching operation.

22. The system according to claim 13, wherein said control unit comprises an input for an emergency power supply.

23. The system according to claim 13, wherein: said at least one fast-switching switching element has an insulating medium, being an insulating fluid in a switching space, wherein said insulating medium completely fills said switching space with built-in components, wherein a switching operation in said switching space changes over between a closed switching position and an open switching position; and wherein an equalizing vessel with a variable volume for said insulating fluid adjoins said switching space.

24. . The system according to claim 23, further comprising an equalizing piston in said equalizing vessel for adjusting the variable volume, wherein a predeterminable amount of the variable volume is filled with said insulating fluid and said equalizing piston is loaded with a pressure element with a force acting on said equalizing piston counter to an expansion of the insulating fluid and, when a volume of the insulating fluid decreases, said equalizing piston is pushed into said equalizing vessel and the variable volume is completely filled with the insulating fluid; and said equalizing piston interacts with a signaling element configured to issue a warning signal when the variable volume drops below a predeterminable value for the variable volume.

25. The system according to claim 24, wherein said signaling element is a microswitch.

26. The system according to claim 24, wherein the warning signal is transmitted to said control unit connected to said at least one fast-switching switching element.

27. The system according to claim 23, wherein the insulating fluid is an insulating oil.

28. The system according to claim 23, wherein the switching operation moves a movable contact into contact with a fixed contact or moves the movable contact away from the fixed contact.

29. The system according to claim 23, wherein said variable volume is formed by a bellows, disposed to replace a part or an entire said equalizing vessel or adjoins a free end of said equalizing vessel.

30. The system according to claim 29, wherein said bellows is a corrugated bellows or a folded bellows.

31. The system according to claim 29, further comprising a signaling element configured to issue a warning signal when the variable volume drops below a predeterminable value for the variable volume.

32. The system according to claim 23, wherein said signaling element is a microswitch.

Description

[0028] The exemplary embodiments are explained below with reference to figures.

[0029] FIG. 1: Schematic design of the system for short-circuiting or grounding low-voltage installations and/or medium-voltage installations.

[0030] FIG. 2: Schematic design of a fast-switching switching element with an oil loss warning system.

[0031] FIG. 1 shows an exemplary schematic design of the system for short-circuiting or grounding low-voltage installations and/or medium-voltage installations 1. A fault detection unit 10 serves to detect an arc by means of different sensors, in particular optical sensors 4 and current sensors 6. If the individual sensors of the fault detection unit 10 detect a signal, said signal is routed from the fault detection unit 10 to a signal processing unit 20 for evaluation. The signal processing unit 20 then determines, also on the basis of the correlation of the individual measured values of the individual sensors, for example, whether there is a fault that requires grounding or short-circuiting. If such a fault, in particular arc, is identified, a signal, in particular a fault signal, is routed from the signal processing unit 20 to a control unit 30. The control unit 30 then provides fast-switching switching elements 40, 42, 44 with electrical triggering energy from an electrical energy storage apparatus 35. By way of the electrical triggering energy, a mechanical energy store in the fast-switching switching elements 40, 42, 44 that provides drive energy for the fast-switching switching elements 40, 42, 44 for switching operations, in particular short-circuiting or grounding, is triggered, or a central mechanical energy store 45 that provides drive energy for the fast-switching switching elements 40, 42, 44 for switching operations, in particular short-circuiting or grounding, is triggered.

[0032] The control unit 30 here has an electrical energy storage apparatus 35 that is installed in the control unit 30, but the electrical energy storage apparatus 35 can also be arranged in physical proximity to the control unit 30. For the setup and/or maintenance of the control unit 30, the control unit 30 optionally has an interface for connecting a computer or a data transmission unit 15. As a further option, there are inputs 18 and 19 to block or trigger triggering of a switching operation. An emergency power supply can also optionally be provided or arranged at the optional input 17.

[0033] FIG. 2 shows an exemplary schematic design of a fast-switching switching element 40 with an oil loss warning system. The fast-switching switching element 40 here has a switching space 50 in which a moving contact 70 is arranged so as to be movable and a fixed contact is arranged. The moving contact is arranged in the switching space 50 so as to be movable for example by means of a bellows 55 or through a hermetically sealed passage. An equalizing vessel 90 adjoins the switching space 50 so that the insulating fluid can cross between the switching space 50 and the equalizing vessel 90. The equalizing vessel 90 is closed off on a side not connected to the switching space 50 by way of an equalizing piston 100 that is mounted in a movable but sealing manner. The insulating fluid 60 completely fills the switching space 50, with its built-in components, and the equalizing vessel 90, up to the equalizing piston. A pressure element 110 acts on the equalizing piston 100 and produces a force on the equalizing piston 100 in such a way that said equalizing piston is pushed into the equalizing vessel 90, and, when the volume of the insulating fluid 60 decreases, pushes the equalizing piston into the equalizing vessel 90 or, when the volume of the insulating fluid 60 increases, pushes the equalizing piston 100 out of the equalizing vessel 90 against the force of the pressure element 110, and therefore compensates for a change of volume of the insulating fluid 60. If the volume of the insulating fluid decreases below a predetermined or predeterminable value, the equalizing piston then interacts with a signaling element 120; in this case it pushes a microswitch as the signaling element 120. In the event of a drop below a predetermined or predeterminable value for the volume of the insulating fluid 60, a warning signal is therefore triggered and/or the readiness for switching is cancelled, or blocked.

LIST OF REFERENCE SIGNS

[0034] 1 System for short-circuiting or grounding low-voltage installations and/or medium-voltage installations; [0035] 4 Optical sensor; [0036] 6 Current sensor; [0037] 10 Fault detection unit; [0038] 15 Computer or data transmission unit; [0039] 17 Input for optional emergency power supply; [0040] 18 Optional input; [0041] 19 Optional input; [0042] 20 Signal processing unit; [0043] 30 Control unit; [0044] 35 Electrical energy storage apparatus; [0045] 40 Fast-switching switching element; [0046] 42 Fast-switching switching element; [0047] 44 Fast-switching switching element; [0048] 45 Optional central mechanical energy store; [0049] 50 Switching space; [0050] 55 Hermetically sealed bellows; [0051] 60 Insulating fluid, in particular insulating oil; [0052] 70 Moving contact; [0053] 80 Fixed contact; [0054] 90 Equalizing vessel; [0055] 100 Equalizing piston; [0056] 110 Pressure element, in particular spring element; [0057] 120 Signaling element.