Title:
A CAPACITOR AND A PROCESS FOR ELECTRICALLY CONNECTING ELECTRODE LAYERS TO A POINT OF CONNECTION
Document Type and Number:
WIPO Patent Application WO/2001/057892
Kind Code:
A1
Abstract:
A capacitor including a capacitor element (1) that has a roll (4) of alternate dielectric layers (8) and electrode layers (9), which roll has two end surfaces (5, 6), in which the electrode layers are connectably exposed, and two contact elements that are electrically connected to the electrode layers at the end surfaces. In accordance with the invention, at least one of the contact elements includes a contact part (10, 11) which, before being connected to the electrode layers at the end surface, displays a plurality of through-running openings (15) through which a flame-sprayed metal material is affixed to attach the contact part to the end surface. The invention also relates to a process for electrically connecting the electrode layers in such a capacitor element to an external predetermined connection point.
Inventors:
CONNOLLY JOSEPH (GB)
Application Number:
PCT/SE2001/000117
Publication Date:
August 09, 2001
Filing Date:
January 24, 2001
Export Citation:
Assignee:
ABB AB (SE)
CONNOLLY JOSEPH (GB)
CONNOLLY JOSEPH (GB)
International Classes:
H01G4/224; H01G4/232; H01G4/32; H01G4/38; H01G13/00; H01G; (IPC1-7): H01G4/232
Foreign References:
| US3513369A | 1970-05-19 | |||
| US4901199A | 1990-02-13 | |||
| US2539332A | 1951-01-23 | |||
| US3593072A | 1971-07-13 |
Attorney, Agent or Firm:
L-O LUNDQUIST PATENTBYRĂ… AB (Box 80 Karlstad, SE)
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Claims:
C L A I M S
| 1. | A capacitor including at least one capacitor element (1) that includes at least one roll (4) of alternate dielectric layers (8) and electrode layers (9), which roll (4) has first and second end surfaces (5,6), facing away from each other, in which said electrode layers (9) are connectably exposed, and two contact elements (2,3) that are electrically connected to the electrode layers (9) at the end surfaces (5,6), characterized in that at least one of the contact elements (2,3) includes a contact part (10,11) which, before being connected to the electrode layers (9) at the end surface (5,6) as aforesaid, displays a plurality of throughrunning openings (15) in which an electrically conducting attachment aid (17) in the form of a flamesprayed metal material is affixed to attach the contact part (10,11) to the end surface (5,6). |
| 2. | A capacitor as claimed in claim 1, characterized in that the contact part (10,11) consists of metal threads (14,23,24) that are electrically connected to each other, the throughrunning openings (15) being arranged between the metal threads (14,23,24). |
| 3. | A capacitor as claimed in claim 2, characterized in that the metal threads (14) form a meshlike structure and in that said openings (15) consist of the interstices in the meshlike structure. |
| 4. | A capacitor as claimed in claim 2, characterized in that the metal threads (23) are parallel and in that the throughrunning openings (15) are arranged in elongate spaces between the parallel metal threads (23). |
| 5. | A capacitor as claimed in claim 1, characterized in that the contact part (10,11) consists of a metal plate and in that said openings (15) consist of a plurality of holes made through the plate. |
| 6. | A capacitor as claimed in any one of the claims 15, characterized in that the flamesprayed metal material includes a zinc alloy, a molybdenum alloy, a silver alloy, a carbon compound, a copper alloy, an aluminium alloy, or a mixture thereof. |
| 7. | A capacitor as claimed in any one of claims 16, characterized in that it includes at least two of said capacitor elements (1) and in that the contact part (10,11) is attached to each of said at least two capacitor elements (1). |
| 8. | A capacitor as claimed in any one of claims 16, characterized in that it includes at least two of said capacitor elements (1) and in that these have a substantially annularcylindrical shape, are arranged one above another so that their central axes coincide, and are connected to each other so as to form a seriesconnected stack of capacitors. |
| 9. | A capacitor as claimed in any one of claims 16, characterized in that the capacitor element (1) includes a plurality of subelements (27,28,29) arranged concentrically in relation to each other, such that the outermost of radially adjacent subelements has a central throughrunning channel with substantially annularcylindrical shape that closely abuts the inner subelement. |
| 10. | A capacitor as claimed in claim 9, characterized in that the number of subelements (27,28,29) in the capacitor element (1) is uneven and in that these are coupled in series with each other. |
| 11. | A capacitor as claimed in any one of claims 110, characterized in that the dielectric layers (8) and the electrode layers (9) consist of metallized dielectric film. |
| 12. | A capacitor as claimed in any one of claims 111, characterized in that it is a power capacitor. |
| 13. | A process, in relation to a capacitor element (1) that includes a roll (4) of alternate dielectric layers (8) and electrode layers (9), which roll (4) has first and second end surfaces (5,6), facing away from each other, in which said electrode layers (9) are connectably exposed, for electrically connecting the electrode layers (9) at one of the end surfaces (5,6) to a predetermined connection point, characterized in that it includes the steps of: a) attaching a first end of an electrically conducting connection wire (12,13,25,31) to a contact part (10,11) displaying a plurality of throughrunning openings (15), b) arranging the contact part (10,11) by the end surface (5,6) in electric contact with the connectable electrode layers (9), c) attaching the contact part (10,11) to the end surface (5,6) with the aid of an attachment aid (17) in the form of a metal material that is flamesprayed onto the end surface (5,6) through the throughrunning openings (15) of the contact part (10,11) and causing the metal material to solidify and attach the contact part (10,11) to the end surface (5,6), and d) attaching the other end of the connection wire (12,13,25,31) to the predetermined connection point. |
| 14. | A process as claimed in claim 13, characterized in that a first metal material is flamesprayed onto the end surface (5,6), before step b, to form a first electrically conducting flamesprayed coating that electrically connects to the electrode layers (9) and in that the contact part (10,11), in the subsequent steps b and c, is arranged in electric contact with and fixed to the end surface (5,6) via the first flamesprayed coating. |
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