The present application hereby claims priority under 35 U.S.C. §119 on European patent application number EP 09 015 686.0-2214 filed Dec. 18, 2009, the entire contents of which are hereby incorporated herein by reference.
The invention relates to an electrical circuit breaker and/or a switch position indicator for a circuit breaker.
A circuit breaker is known from DE 197 30 583 B4, for example.
In such an electrical circuit breaker, the drive mechanism of the circuit breaker can have an associated switch position indicator, with the aid of which it is indicated to a user whether the circuit breaker is in its off-position and thus in a nonconductive state, or in its on-position and thus in a conductive state.
The problem of the invention is to improve this switch position indicator.
At least one embodiment of the invention is directed to an electrical circuit breaker and/or a switch position indicator.
According to at least one embodiment of the invention, an electrical circuit breaker is provided that is furnished with a first contact and a second contact which can be moved in different directions. The circuit breaker is furnished with a drive mechanism that is coupled to the second contact. The circuit breaker is furnished with a reversing gear that produces a coupling between the second and the first contact. A first indicator element is provided that is associated with the reversing gear.
The indicator element according to at least one embodiment of the invention is associated with the reversing gear. Therefore, if a malfunction occurs in the area of the reversing gear, this has an influence on the indication of the indicator element.
This brings the advantage that, if a user wishes to switch the circuit breaker into a desired state or desired switching position and if the indication of the indicator element according to the invention indicates a different state than that which is desired or the desired switching position, the user can infer a malfunction, in particular of the reversing gear of the circuit breaker, solely based on the invented indicator element.
Such a malfunction of the reversing gear in particular cannot be recognized with a circuit breaker according to the prior art, since the switch position indicator in that case is typically associated only with the drive mechanism, but not with the reversing gear.
It is understood that the circuit breaker can be configured in various manners. In particular, the movement of the two contacts can also be configured differently than in the exemplary embodiment explained below. To that extent, the reversing gear can be a coupling between the two contacts in general that is realized mechanically or in some other manner. With the aid of the switch position indicator according to the invention, a malfunction of this coupling of the two contacts in particular can be recognized.
In an advantageous embodiment of the invention, a second indicator element is present, which is coupled to the drive mechanism, wherein the two indicator elements are each provided for indicating an off-position or on-position of the circuit breaker, and wherein a malfunction of the circuit breaker exists if the two indicator elements indicate different states. The off-position represents a nonconductive state, and the on-position a conductive state of the circuit breaker.
In this manner, recognizing a malfunction of the circuit breaker is facilitated for the user.
The reversing gear preferably comprises, among other things, a deflection lever that can be pivoted about a deflection shaft, the first indicator element being associated with the deflection lever. It is expedient in this case if the first indicator element is fixedly connected to the deflection shaft.
It is particularly advantageous if at least a part of the deflection shaft projects outward from the circuit breaker, the first indicator element being fixedly connected to this part of the deflection shaft. In this manner, the production of the circuit breaker can be simplified. In particular, the first indicator element according to at least one embodiment of the invention can be retroactively mounted on existing circuit breakers.
Additional characteristics, application possibilities and advantages of the invention follow from the description of exemplary embodiments of the invention below, which are shown in the figures of the illustration. All described and/or graphically indicated characteristics, on their own or in any desired combination, constitute the subject matter of the invention, independently of their combination in individual claims and/or the references thereof, and independently of their formulation or representation in the description or in the drawing.
a, 1b each show a schematic longitudinal section through an exemplary embodiment of an electrical circuit breaker according to the invention in its off-position and its on-position, and
a, 1b and 2 show an individual electrical circuit breaker 10, which is typically a component of a multiphase switching device. The circuit breaker 10 is, in particular, a high-voltage circuit breaker which is typically set up vertically in the outdoors, as shown in
The circuit breaker 10 shown in
The upper movable contact carrier 15 is provided with a bottom 19 containing an opening in which an electrically conductive first contact, specifically a contact pin 21 is guided movably and roughly coaxially with the longitudinal axis 13. Along the inside wall of the lower movable contact carrier 16, an electrically conductive second contact, specifically, a tulip contact 22, is movably guided roughly coaxially with the longitudinal axis 13. The movable contact carrier 15, the bottom 19 and the contact pin 21 belong to a first, upper contact system in the exemplary embodiment shown in
An insulator nozzle, extending in a direction towards the contact pin 21 and largely surrounding it, is typically connected to the tulip contact 22. This insulator nozzle is not shown in
The upper movable contact carrier 15 is connected to a hat-shaped cover 24. A deflection shaft 26 is pivotably seated in the cover 24. The pivot axis of the deflection shaft 26 is oriented roughly perpendicular to the longitudinal axis 13 and lies perpendicular to the drawing plane in
A deflection lever 27 is rotationally fixedly connected to the deflection shaft 26. The deflection lever 27 is oriented roughly perpendicular to the deflection shaft 26. At one free end, the deflection lever 27 is pivotably connected to a connecting rod 28, which is in turn pivotably connected to the contact pin 21. The other free end of the deflection lever 27 contains a longitudinal slot 29 in which a sliding element 30 is movably housed. The sliding element 30 is pivotably connected to a pushrod 31. The pushrod 31 is oriented roughly parallel to the longitudinal axis 13 and runs through an opening in the bottom 19 of the upper movable contact carrier 15 in the direction towards the lower movable contact carrier 16. There the pushrod 31 is connected to the tulip contact 22. The pushrod 31 consists of an insulating material. It is of course also conceivable that only a part of the pushrod 31 consists of an insulating material or that it is constructed to be insulating.
In particular, the pushrod 31 can consist of conductive material and comprise an insulating intermediate element.
It is noted that the pushrod 31 can also be mounted on the above-mentioned insulator nozzle, not shown in
Starting from the lower movable contact carrier 16, the insulator body 12 is prolonged downwards with a roughly tubular ground insulator 33. The ground insulator 33 is closed by a cover 34 containing an opening through which a drive rod 35 extends. The drive rod 35 is oriented roughly coaxially with the longitudinal axis 13 and is connected to the tulip contact 22. The drive rod 35 consists of an insulating material or is constructed to be at least partially insulating, and is connected to a mechanical (with spring), electrical, pneumatic or hydraulic drive unit 36.
The insulator body 12, the two high-voltage connection plates 17, 18, the cover 24, the ground insulator 33 and its cover 34 form a gas-tight interior space 38 which is filled with an insulator gas such as SF6. As mentioned, the deflection shaft 26 (see
In the part of the deflection shaft 26 running outside the gas tight interior 38, a first indicator element 41 is fixedly mounted on the deflection shaft 26. The indicator element 41 is located on the rear side of the circuit breaker 10 in
It is understood that the first indicator element 41 can also be coupled in a different manner to the deflection shaft 26 and/or to the deflection lever 27 and/or to the connecting rod 28 and/or to the pushrod 31. This coupling can be configured directly or indirectly. In general, the first indicator element 41 is associated with the above-mentioned components of the circuit breaker 10 forming a reversing gear 47, in particular, with the deflection lever 27, and the first indicator element 41 is only fixedly connected to the deflection shaft 26 in the present special embodiment.
In the part of the drive rod 35 running outside the gas-tight interior 38, a second indicator element 44 is fixedly mounted on the drive rod 35. In the present exemplary embodiment, the indicator element 44 is constructed like a rod, projects roughly perpendicularly from the drive rod 35 and points in the direction of an associated position indicator 45.
The two position indicators 42, 45 each have a figure symbol, in particular a “0” for the off-position and a “1” for the on-position. The off-position represents a nonconductive state and the on-position a conductive state.
The circuit breaker 10 is shown in its nonconductive state in
For a transition from the off-position of
Due to the above-explained opposite movements of the tulip contact 22 on the one hand and the contact pin 21 on the other, the two contacts approach one another and finally come into engagement. The latter-mentioned state is shown in
For a transition from the on-position of
The off-position of the circuit breaker 10 according to
Those components that produce the mechanical coupling between the tulip contact 22 and the contact pin 21, i.e., the pushrod 31, the deflection lever 27, the deflection shaft 26 and the connection rod 28, were already referred to as reversing gear 47.
If there is a malfunction of one of the above-mentioned components of the reversing gear 47, it is possible that the nonconductive state of
Such a fault becomes identifiable because only the second indicator element 44 connected to the drive rod 35 points to the icon “0” of the associated position indicator 45 in the off-position, whereas the first indicator element 41 connected to the deflection lever 27 points to the icon “1” of the associated position indicator 44.
Thus if the two indicator elements 41, 44 point to different icons of the respective associated position indicators 42, 45, a malfunction of the circuit breaker 10 can be inferred. In particular, it can be inferred that the nonconductive state of the circuit breaker 10 in accordance with
If the distance between the two contacts 21, 22 falls below a defined distance, i.e. the distance is not sufficient to guarantee a specified dielectric strength, this is also indicated by the position indicators 42, 45 in that at least one of the two indicator elements 41, 44 is in an intermediate position between the icons “0” and “1”.
Example embodiments being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the present invention, and all such modifications as would be obvious to one skilled in the art are intended to be included within the scope of the following claims.
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