Contact Piece For A High-Voltage Circuit Breaker And Method For Producing Same

Abstract

A contact piece for a high-voltage circuit breaker includes at least a contact pin and a contact carrier. The contact carrier is configured to mechanically fasten the contact pin in the high-voltage circuit breaker. The contact pin includes a contact shaft. The contact carrier and the contact shaft are formed as a monolithic contact element. A method for producing a contact piece is also provided.

Claims

1-14. (canceled)

15. A contact piece for a high-voltage circuit breaker, the contact piece comprising: at least one contact pin including a contact shaft and a contact carrier, said contact carrier configured to mechanically fasten said at least one contact pin in the high-voltage circuit breaker; and said contact carrier and said contact shaft being constructed as a monolithic contact element.

16. The contact piece according to claim 15, wherein the contact piece is a fixed or a movable contact piece of an arc contact.

17. The contact piece according to claim 15, wherein said contact carrier and said contact shaft are formed as a one-piece cast part.

18. The contact piece according to claim 15, wherein said contact element is formed as a cast part, and said contact shaft is cast into said contact carrier as an insert part.

19. The contact piece according to claim 15, wherein said contact pin includes a contact tip being at least one of fastened to or disposed at an end of said contact shaft.

20. The contact piece according to claim 19, wherein said end of said contact shaft is disposed opposite to said contact carrier.

21. The contact piece according to claim 19, wherein said contact tip is welded to said contact shaft.

22. The contact piece according to claim 15, wherein at least one of said contact shaft or said contact carrier is composed of aluminum, steel, copper or copper/chromium/zirconium or includes aluminum, steel, copper or copper/chromium/zirconium.

23. The contact piece according to claim 19, wherein said contact tip is composed of at least one of tungsten/copper or graphite or includes at least one of tungsten/copper or graphite.

24. The contact piece according to claim 15, wherein said contact carrier is a hollow cylinder having an increased cross section in a region of a connection between said contact pin and said contact carrier.

25. The contact piece according to claim 15, wherein said contact pin is a cylindrical rod having an increasing cross section in a region of a connection between said contact pin and said contact carrier.

26. The contact piece according to claim 15, wherein said contact carrier includes a web, said contact shaft is disposed on said web, and a longitudinal axis of said contact shaft is perpendicular to a longitudinal axis of said web.

27. The contact piece according to claim 26, wherein said contact carrier has a base area, said web is disposed on said base area, and said contact shaft is disposed in a center of said web.

28. The contact piece according to claim 15, wherein said cylindrical contact carrier has an outer circumference, a base area with an outer periphery, an end fastened to said contact pin and an opposite end, and fastening elements are at least one of disposed on said outer periphery or disposed along said outer circumference in a region of said opposite end.

29. The contact piece according to claim 28, wherein said fastening elements are threaded bores.

30. The contact piece according to claim 15, wherein said cylindrical contact carrier has a base area, and fastening elements encircle said contact carrier in a region of said base area.

31. The contact piece according to claim 15, wherein said cylindrical contact carrier has a top face, and fastening elements are provided as at least one of a clamping face or threaded bores or a brim-shaped element encircling said contact carrier in a vicinity of said top face.

32. A method for producing a contact piece for a high-voltage circuit breaker, the method comprising the following steps: producing at least one contact pin including a contact shaft and a contact carrier as a monolithic contact element; and configuring the contact carrier to mechanically fasten the at least one contact pin in the high-voltage circuit breaker.

33. The method according to claim 32, which further comprises producing the contact carrier and the contact shaft as the monolithic contact element in one production step.

34. The method according to claim 32, which further comprises forming the contact carrier and the contact shaft by casting to form the monolithic contact element.

35. The method according to claim 32, which further comprises forming the contact carrier and the contact shaft y casting aluminum to form the monolithic contact element.

36. The method according to claim 32, which further comprises placing the contact shaft as an insert part in a mold for producing the contact carrier, and casting the contact shaft into the contact carrier during casting.

37. The method according to claim 36, which further comprises forming the contact shaft of at least one of aluminum, steel, copper or copper/chromium/zirconium.

38. The method according to claim 25, which further comprises welding a contact tip to an end of the contact shaft.

39. The method according to claim 38, which further comprises forming the contact tip of at least one of tungsten/copper or graphite.

40. The method according to claim 38, which further comprises welding the contact tip to an end of the contact shaft opposite the contact carrier.

Description

[0024] The Single FIGURE schematically shows a sectional illustration of a monolithic contact piece 1 according to the invention of a high-voltage circuit breaker, comprising a contact shaft 2 of a contact pin 10 and comprising a contact carrier 5.

[0025] The single FIGURE schematically shows a sectional illustration of a monolithic contact piece 1 according to the invention of a high-voltage circuit breaker. For the sake of simplicity, the FIGURE does not illustrate a second contact piece which is associated with the monolithic contact piece 1 in the high-voltage circuit breaker, wherein both contact pieces produce a switchable electrical contact, for example an arc contact. A second contact, for example a hollow-cylindrical rated current contact, can be arranged in the high-voltage circuit breaker, in particular formed around an arc contact. When the high-voltage circuit breaker is activated, the arc contact is first closed, that is to say the arc contact pieces are brought into mechanical and electrical contact, and subsequently the rated current contact is closed, that is to say the rated current contact pieces are brought into mechanical and electrical contact. When the high-voltage circuit breaker is deactivated, the rated current contact is first opened and subsequently the arc contact is opened.

[0026] An arc, which can be produced between the arc contact pieces during switching, can be extinguished by a switching gas, in particular SF.sub.6. To this end, the contact pieces or the intermediate space, in particular between the arc contact pieces, are/is supplied with switching gas. A switching gas nozzle can be provided, in particular arranged around the arc contact, in order to produce a desired switching gas flow at the contact pieces. The switching gas nozzle, arranged between the arc contact and the rated current contact, can electrically shield the arc contact from the rated current contact. In addition or as an alternative, electrodes can be provided for shielding and for controlling the switching gas flow during switching.

[0027] The FIGURE illustrates a contact piece, by way of example a monolithic contact piece 1 according to the invention. In the exemplary embodiment of the FIGURE, the contact piece 1 comprises a contact pin 10 as arc contact piece and a cylindrical contact carrier 5, which is arranged symmetrically around the contact pin 10, for fastening the contact pin 10 and also can serve, in particular, as a rated current contact piece. The contact piece 1 in the FIGURE is designed, in particular, as a fixed contact piece relative to which movable contact pieces are moved during switching. As an alternative, the contact piece 1 can be moved by means of elements of the kinematic chain of the high-voltage circuit breaker, which elements are not illustrated in the FIGURE for reasons of simplicity.

[0028] In the exemplary embodiment of the FIGURE, the contact pin 10 of the contact piece 1 is designed in the form of a rod, with a circular-cylindrical cross section. The contact pin 10 comprises a contact shaft 2 and a contact tip 3 which are connected to one another, in particular by welding. The contact pin 10 is connected to the contact carrier 5 at a first end of the contact shaft 2. In the region of the connection, the cross section of the contact shaft 2 or of the contact pin 10 increases continuously in the direction of the contact carrier 5. This provides a high degree of mechanical stability and a large cross section for good current flow in the connection region when the contact is closed. The pin tip 3 is arranged at a second end of the contact shaft 2, opposite the first end. The pin tip 3 can consist of tungsten/copper or comprise tungsten/copper, for high erosion resistance to an arc and for good electrical conductivity in contact with the second arc contact piece when the contact is closed.

[0029] The contact shaft 2 can consist of a highly conductive, mechanically stable metal, in particular aluminum, steel, copper or copper/chromium/zirconium, or comprise the metal. Alloys of the materials of the pin tip 3 and of the contact shaft 2 can be present at the connection point 4 between pin tip 3 and contact shaft 2, in particular in the case of welding. The pin tip 3 is rounded at that end which is situated opposite the connection point 4, in order to prevent tilting or jamming with the opposite contact piece of the contact during switching. In the case of a sleeve-like opposite contact piece, which is not illustrated in the FIGURE for the sake of simplicity, in the event of activation, the sleeve of the opposite contact piece is pushed over the contact pin 10 in such a way that good electrical contact between the contact pin 10 and the opposite contact piece is produced. In the event of deactivation, the sleeve of the opposite contact piece is withdrawn from the contact pin 10, until there is no longer any electrical contact between the two contact pieces.

[0030] The contact carrier 5 is substantially hollow-cylindrical, with a web 8 on the base area of the cylinder, which web is formed along a diameter of the base area of the cylinder. Between the lateral surface of the cylinder of the contact carrier 5 and the web 8, a continuous recess or passage opening 9 is formed on both sides of the web 8 in the base area. For example, switching gas can flow through the passage opening 9 during switching; heated switching gas can flow away for extinguishing an arc and/or after the arc has been extinguished.

[0031] The contact pin 10 is arranged in the central point of the base area of the circular-cylindrical contact carrier 5, in the center of the web 8. The longitudinal axis of the contact pin 10 or of the contact shaft 2 is equal to the longitudinal axis or center axis of the cylindrical contact carrier 5. According to the invention, the contact shaft 2 of the contact pin 10 and the contact carrier 5 with the web 8 are designed in a monolithic manner, that is to say from one piece, in particular without a screw or adhesive-bonding connection. The monolithic contact element comprising contact carrier 5 with web 8 and contact shaft 2 can be manufactured from a casting, that is to say can be cast as one piece in a mold. As an alternative, the monolithic contact element can be produced from a contact shaft 2 which is inserted into a mold as insert part and the contact carrier 5 with web 8 is produced by casting in the mold. The contact shaft 2 is cast into the contact carrier 5 or into the web 8, and a monolithic piece is produced, in particular when contact carrier 5 and contact shaft 2 are composed of the same material.

[0032] The contact pin 10 with a congruent longitudinal axis in relation to the longitudinal axis of the cylindrical contact carrier 5 is positioned vertically on the web 8 and also on the base area of the cylindrical contact carrier 5. This allows exact adjustment or arrangement in the high-voltage circuit breaker, with congruent longitudinal axes of the two contact pieces of a contact, in particular of an arc contact. The longitudinal axis of a sleeve-like contact piece can be arranged exactly congruently to the longitudinal axis of the contact pin 10 and the contact pin 10 can be fixed such that it is stable over the long term in the spatial position in the high-voltage circuit breaker. As a result, tilting or jamming or irreversible destruction of the contact pieces can be avoided during switching.

[0033] Fastening elements 7 are arranged in the contact carrier 5 for spatial fixing. As fastening element 7, the base area of the cylindrical contact carrier 5 can be increased in size toward the outside analogously to a brim of a hat. The brim can serve as a clamping face for clamping in the high-voltage circuit breaker, for example by means of clamping springs. As an alternative or in addition, threaded bores or continuous bores can be provided as fastening elements 7, in particular in the brim, by means of which bores the contact piece 1 is fastened and fixed in the high-voltage circuit breaker with the aid of screws. A second brim can be arranged on the outside of the cylindrical contact carrier 5, in a manner shifted parallel to the first brim spatially along the longitudinal axis of the contact piece 1, with the function described above for the first brim, in particular likewise with threaded bores and/or continuous bores as fastening elements 7 for fastening and fixing the contact piece 1 in the high-voltage circuit breaker, for example with the aid of screws and/or clamps.

[0034] The open end of the cylindrical contact carrier 5, which end is situated opposite the end of the contact carrier 5 with the web 8, can serve as rated current contact piece. The open hollow cylinder of the contact carrier 5 can be arranged opposite a rated current contact piece, with contact fingers arranged on a cylinder periphery for example, with congruent longitudinal axes of the cylindrical rated current contact pieces. During switching, the contact fingers of the cylindrical rated current contact piece, which is not illustrated in the FIGURE for reasons of simplicity, are pushed over, in particular, the outer periphery of the contact carrier 5 in the event of activation, or withdrawn when the high-voltage circuit breaker is deactivated. The rated current contact is closed and, respectively, opened in this way.

[0035] Owing to the monolithic design of the contact shaft 2 with the contact carrier 5, good electrical conductivity over the entire contact piece 1 is provided, in accordance with the material selection, in particular the use of aluminum, steel, copper or copper/chromium/zirconium. Electrical line losses when the high-voltage circuit breaker is activated, in particular at screw or adhesive-bonding connections of the contact pin 10 to the contact carrier 5, can be avoided. Deviations from a spatial position of the contact pin 10, with congruent longitudinal axes of the contact pin 10 and of the contact carrier 5, which can lead to tilting, jamming and destruction of the contact pieces during switching are avoided owing to the contact piece 10 being produced from a casting. In the case of screw connections of the contact pin 10 and the contact carrier 5 to one another, an exactly congruent position is difficult to produce and changes in the position at high switching speeds are difficult to avoid owing to play of the screw connection.

[0036] The above-described exemplary embodiments can be combined with one another and/or can be combined with the prior art. For example, different materials can be used. The contact tip 3 can be produced, for example, from the contact shaft 2 by coating the tip of said contact shaft, for example with carbon, by silver-plating, evaporation-depositing or sputtering conductive, erosion-resistant layers and/or by other coating methods. The contact pin 10 can be designed with a continuously increasing cross section or the cross section can be equal over the entire contact shaft 2. Screw, clamping, adhesive-bonding, welding or other connections can be provided for fastening the contact piece 1 in the high-voltage circuit breaker. Finger-like fastening elements 7 can be provided instead of brims. The fastening elements 7 can also be formed directly in the cylinder casing of the contact carrier 5. The contact carrier 5 can have shapes which differ from round cylinders, such as with an elliptical base area or annular for example.

[0037] Instead of a web 8, the base area can be designed to be complete, without opening 9. As an alternative, for example, two webs 8 which are arranged crosswise in relation to one another can be provided. The base area of the contact carrier 5 can be of planar design or, as illustrated in the FIGURE, with annular steps which allow better adjustment and fixing of the contact piece 1 in the high-voltage circuit breaker.

[0038] When a contact pin 10 is used as an insert part which is cast into the contact carrier 5 or into the web 8 of the contact carrier 5, it is possible for, for example, an oxide layer as surface coating on the contact shaft 2 to be removed before potting. As a result, good electrical contact and the formation of a monolithic body without intermediate layers are possible during casting. Welding connections of contact carrier 5 and contact shaft 2 can likewise produce a monolithic contact piece 1. Final processing and setting of the contact piece 1 can be performed, for example, after casting or welding. Coaxial deviations in the longitudinal axes of the contact pin 10 and of the contact carrier 5 can be avoided or eliminated in this way. The monolithic design of the contact piece 1 prevents, in particular completely, mechanical play between contact pin 10 and contact carrier 5, giving the above-described advantages.

LIST OF REFERENCE SYMBOLS

[0039] 1 Contact piece [0040] 2 Contact shaft [0041] 3 Contact tip [0042] 4 Connection point of the contact tip with the contact shaft [0043] 5 Contact carrier [0044] 6 Base area of the cylindrical contact carrier [0045] 7 Fastening element, for example threaded bore [0046] 8 Web of the contact carrier [0047] 9 Passage opening in the base area of the contact carrier [0048] 10 Contact pin