EP0981147A2 - Power switch - Google Patents

Abstract

This circuit breaker has one with an insulating Medium-filled, cylindrical quenching chamber, which an extinguishing zone extending along a longitudinal axis (2) (1). He also assigns one in the course of a Power contact arranged fixed contact arrangement (3) and a movable contact arrangement (4). Further is an increased that occurs during a switch-off process Blowing volume storing pressure of the insulating medium (12) intended.

A circuit breaker is to be created in which simple means ensure that even low-current arcs are reliably extinguished. This is achieved in that, in the switched-on position, at least one contact bridge (5) having two contact points (7, 8) connects the fixed contact arrangement (3) and the movable contact arrangement (4) to one another in an electrically conductive manner. The at least one contact bridge (5) is rotatably mounted in a holder (6). The side of the at least one contact bridge (5) which interacts with the fixed contact arrangement (3) is acted upon in the radial direction outwards in relation to the longitudinal axis (2) by a force.

Description

TECHNICAL AREA

The invention relates to a circuit breaker according to the Preamble of claim 1.

STATE OF THE ART

It is with a gaseous insulating and extinguishing medium, preferably sulfur hexafluoride, filled circuit breakers known that have at least one quenching chamber. The Extinguishing chamber is usually with a power path and provided with a nominal current path. The power track shows at least one fixed and one moving contact on. The quenching chamber can be single-blown or with a Double-blown chamber can be formed. Furthermore, the quenching chamber is designed as a self-blown chamber, where the energy of the arc is for quenching the same necessary blowing pressure generated in one Blow volume is saved until one promising blowing of the arc is possible. On particularly rapid pressure build-up in the blowing volume is achieved, if the arc in one of the known measures in Rotation is set.

In a circuit breaker where the energy of the Arc the blowing pressure necessary to extinguish the same self-generated, it can happen that when switching off small flows a too small pressure build-up in the blowing volume takes place, so that in this case a successful blowing of the Arc is not possible. With the help of elaborate Measures, for example by installing an additional one Blow piston into the quenching chamber, must be ensured that the arc is safely extinguished even in this switching case becomes.

PRESENTATION OF THE INVENTION

The invention as set out in the independent claims is marked, solves the task of a circuit breaker to create, which is achieved with simple means, that even low-current arcs are safely extinguished.

The advantages achieved by the invention are substantial to be seen in the fact that when switching off comparatively small currents an additional arc ensures that a sufficient amount of that for blowing the arc required pressurized medium arises. The volume and the dimensions of the arcing chamber can also be advantageous be kept small since the means for producing the additional arc require little space.

The further refinements of the invention are objects of the dependent claims.

The invention, its further development and the achievable with it Advantages are shown below using the drawing, which represents only one embodiment, explained in more detail.

BRIEF DESCRIPTION OF THE DRAWING

Fig.1 einen ersten, stark vereinfachten Teilschnitt durch die Löschzone der Löschkammer eines erfindungsgemässen Leistungsschalters in eingeschaltetem Zustand,

Fig.2 einen zweiten, stark vereinfachten Teilschnitt durch die Löschzone dieser Löschkammer während des Öffnens mit einem vergleichsweise stromstarken Lichtbogen, und

Fig.3 einen dritten, stark vereinfachten Teilschnitt durch die Löschzone dieser Löschkammer während des Öffnens mit einem vergleichsweise stromschwachen Lichtbogen.

Show it:

1 shows a first, greatly simplified partial section through the quenching zone of the quenching chamber of a circuit breaker according to the invention in the switched-on state,

2 shows a second, greatly simplified partial section through the quenching zone of this quenching chamber during opening with a comparatively high-current arc, and

3 shows a third, greatly simplified partial section through the quenching zone of this quenching chamber during opening with a comparatively low-current arc.

In the figures, elements having the same effect are the same Provide reference numerals. All for immediate understanding Elements not required by the invention are not shown.

WAYS OF CARRYING OUT THE INVENTION

1 shows a first, greatly simplified partial section through an extinguishing zone 1 of the extinguishing chamber of a circuit breaker according to the invention in the switched-on state. For the sake of clarity, the other parts of the arcing chamber, in particular also its housing and its drive, are not shown. This quenching chamber is filled with an insulating medium, for example with gaseous sulfur hexafluoride (SF ₆ ). The quenching chamber has a longitudinal axis 2, around which a fixed contact arrangement 3 and also a movable contact arrangement 4 are arranged centrally symmetrically. The movable contact arrangement 4 is actuated in the axial direction by a drive (not shown).

When switched on, as shown in Fig.1, is the fixed contact arrangement 3 via a contact bridge 5 electrically conductive with the movable contact arrangement 4 connected. The contact bridge 5 consists of an electrical conductive metal, it is in the shape of a contact finger educated. It is possible to make this contact bridge 5 in one Install contact basket, it can also consist of several in parallel arranged contact fingers exist. The contact bridge 5 is rotatable in a schematically illustrated holder 6 stored. The bracket 6 can be resilient, wherein the contact bridge 5 pressed perpendicular to the longitudinal axis 2 to a sufficiently large contact force of the contact bridge 5 to reach. The contact bridge 5 has a support point 7 on that in the on state on the movable Contact arrangement 4 rests. The contact bridge 5 has one further support point 8, which in the switched-on state rests on the fixed contact arrangement 3. On the the Support point 8 opposite side of the contact bridge 5 a tension spring 9 is attached, which a force on the Exercises contact bridge 5, the direction of which by an arrow 10 is indicated. The pivot point of the bracket 6 is chosen so that contact forces generated by electrodynamic forces Support 8 of the contact bridge 5 more on the fixed contact arrangement 3 press than this at the Support 7, which on the movable contact arrangement 4th presses the case is.

A schematically indicated wall 11 encloses annular blow volume 12, the inner Limiting the outside of the fixed contact arrangement 3 forms. The current path for the through the closed Extinguishing chamber flowing alternating current leads when the Circuit breakers for comparatively small nominal currents is designed from the fixed contact arrangement 3 the support point 8 in the contact bridge 5 and through this and the support point 7 into the movable Contact arrangement 4. If the circuit breaker and thus the Arcing chamber designed for comparatively large nominal currents is parallel to the current path described above, usually arranged outside and concentric to it, separate nominal current path provided. From this nominal current path the alternating current to be switched off commutates with the initiation of the Shutdown in a known manner to that described above Current path.

On the constructive design of the contact bridge 5 together with the Support points 7 and 8 are not discussed further here. The Parts that are stressed by arcing foot points can also be used erosion-resistant, made of electrically conductive material Covers should be provided. For these covers preferably tungsten copper used, but it can also Graphite can be used.

2 shows the extinguishing zone 1 shown in FIG Extinguishing chamber in a first intermediate position shortly after the movable contact arrangement 4 when moving in the direction an arrow 13 detached from the contact bridge 5 while doing so has drawn an arc 14. During this shutdown process a comparatively large switch-off current is to be interrupted become. The generated by the cut-off current Electrodynamic forces act on the tension spring 9 the contact bridge 5 counteracted force, so that Contact bridge 5 remains in the same position as in activated state of the extinguishing chamber, the support point 8 remains in contact with the fixed contact arrangement 3. The arc energy of the arc 14 heats the gas in the Extinguishing zone 1 strongly and thus creates a sufficiently large Gas pressure. The pressurized gas flows into the blowing volume 12 from where it is stored until one promising blowing of the arc 14 is possible.

3 shows the extinguishing zone 1 shown in FIG Extinguishing chamber in another intermediate position shortly after the movable contact arrangement 4 when moving in the direction an arrow 13 detached from the contact bridge 5 while doing so has drawn an arc 14. During this shutdown process a comparatively small cut-off current is to be interrupted become. The generated by the cut-off current electrodynamic forces act through the tension spring 9 force exerted on the contact bridge 5, they can in this switching case, however, do not compensate for this force, so that the contact bridge 5 tilts around the pivot point the bracket 6 executes around. The support 8 of the Contact bridge 5 lifts due to the action of the tension spring 9 from the fixed contact arrangement 3 as soon as the Movable contact arrangement 4 separates from the support point 7. The result of this lifting is that between the support point 8 of the contact bridge 5 and the fixed contact arrangement 3 an auxiliary arc 15 is additionally drawn.

The arc energy of this low current arc 14 is not enough to ensure successful blowing necessary, sufficiently large amount of pressurized gas produce. The arc energy of this additional Auxiliary arc 15 heats the gas in its environment and generates an additional amount of pressurized gas. The pressurized gas generated by the arc 14 now flows together with the through the Auxiliary arc 15 generated pressurized gas in the Blow volume 12 from where it is stored until one promising blowing of the arc 14 is possible.

The force of the tension spring 9 is set so that it is only in the current range can move the contact bridge 5, in which the Generation of an amount sufficient for blowing pressurized gas not by the arc 14 alone more is guaranteed. The auxiliary arc 15 occurs accordingly only on when the generation of pressurized gas must be supported by the arc 14 to a ultimately successful power cut ensure.

The arc 14, like the auxiliary arc 15, depending on the instantaneous value of the one to be switched off Alternating current, a different intensity, so hence the generation of pressure in extinguishing zone 1 is different. If the arc current in the Area around a current zero crossing, so prevails in the extinguishing zone 1 has a lower gas pressure than in the blowing volume 12. This pressure drop between the blowing volume 12 of the extinguishing zone 1 causes a flow of the compressed gas from the Blow volume 12 out into the extinguishing zone 1. This gas flow cools the arc 14 and, if present, also the Auxiliary arc 15 and brings him or her in one Current zero crossing to go out.

LIST OF DESIGNATIONS

1

Extinguishing zone

2nd

Longitudinal axis

3rd

fixed contact arrangement

4th

movable contact arrangement

5

Contact bridge

6

bracket

7, 8

Support point

9

Tension spring

10th

arrow

11

wall

12th

Blowing volume

13

arrow

14

Electric arc

15

Auxiliary arc

Claims (4)

Circuit breaker with at least one cylindrical quenching chamber filled with an insulating medium, which has a quenching zone (1) extending along a longitudinal axis (2), with a fixed contact arrangement (3) arranged in the course of a power current path and with a movable contact arrangement (4), with a blowing volume (12) which stores the increased pressure of the insulating medium occurring during a switch-off process,
characterized, that in the switched-on position at least one contact bridge (5) having two support points (7, 8) connects the fixed contact arrangement (3) and the movable contact arrangement (4) to one another in an electrically conductive manner, that the at least one contact bridge (5) is rotatably mounted in a holder (6), and that the side of the at least one contact bridge (5) cooperating with the fixed contact arrangement (3), in relation to the longitudinal axis (2) in the radial direction to the outside, is acted upon by a force. Circuit breaker according to claim 1, characterized in that a tension spring (9) is provided for the force acting radially outwards. Circuit breaker according to claim 1 or 2, characterized in that the holder (6) is less distant from the contact point (7) interacting with the movable contact arrangement (4) than from the opposite contact point (8). Circuit breaker according to claim 1, characterized in that the contact bridge (5) is arranged in a contact basket.

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