IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0169253
(2011-06-27)
|
등록번호 |
US-8696309
(2014-04-15)
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발명자
/ 주소 |
- Riggi, Jr., Vincent T.
- Monshower, Barry
- Hyslop, Justin D.
|
출원인 / 주소 |
|
대리인 / 주소 |
Wood, Phillips, Katz, Clark & Mortimer
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인용정보 |
피인용 횟수 :
0 인용 특허 :
3 |
초록
▼
A gas leakage seal for a turbine, including first and second cloth layers having woven warp and weft wires, wherein the first and second cloth layers are brazed together by a flux paste whereby the cloth layers have their edges aligned and the brazing substantially seals gaps between the wires along
A gas leakage seal for a turbine, including first and second cloth layers having woven warp and weft wires, wherein the first and second cloth layers are brazed together by a flux paste whereby the cloth layers have their edges aligned and the brazing substantially seals gaps between the wires along substantially the entire length and width of the brazed together cloth layers. Weld beads having a thickness greater than the combined thickness of the brazed together cloth layers connect the edges of the cloth layers along their length. The turbine includes two members with aligned recesses in which opposite of the weld beads are received. The seal is made by brushing a nickel and/or cobalt based flux paste on one side of one of the cloth layers, brazing that cloth layer to a side of the second cloth layer to substantially seal the gaps between the wires, and creating weld beads with an electron beam to connect the edges of the cloth layers along their length.
대표청구항
▼
1. A seal for generally sealing a gas-path leakage-gap between spaced-apart first and second members of a turbine, comprising a first cloth layer having woven warp and weft wires, said first cloth layer having opposite edges extending a length;a second cloth layer having woven warp and weft wires, s
1. A seal for generally sealing a gas-path leakage-gap between spaced-apart first and second members of a turbine, comprising a first cloth layer having woven warp and weft wires, said first cloth layer having opposite edges extending a length;a second cloth layer having woven warp and weft wires, said second cloth layer having opposite edges extending a length;wherein said first and second cloth layers are brazed together by a flux paste whereby said cloth layers have their edges aligned and said brazing substantially seals gaps between said wires along substantially the entire length and width of the brazed together cloth layers;edge connectors connecting the edges of the cloth layers along their length, said edge connectors having a thickness greater than the combined thickness of the brazed together cloth layers. 2. The seal of claim 1, wherein said wires are cobalt based and said cloth layers are each about 0.03 inches thick. 3. The seal of claim 1, wherein the wires of said first and second cloth layers are woven in a Dutch twill weave. 4. The seal of claim 3, wherein each of said cloth layers have about 220 weft wires per inch and 40 warp wires per inch, with said weft wires having a diameter of about 0.0084 inch and said warp wires having a diameter of about 0.0105 inch. 5. The seal of claim 1, wherein said flux paste includes nickel, and said brazed connection of the cloth layers comprises the nickel of the flux paste filling gaps in the cloth via capillary action during brazing and forming a metallurgical bond with the wires. 6. The seal of claim 1, wherein the edge connectors comprise solid weld beads from an electron beam weld. 7. The seal of claim 6, wherein the solid beads are wires electron beam welded along the edges of the cloth layers. 8. The seal of claim 6, wherein the solid beads are cloth wire materials at the edges of the cloths electron beam welded and shaped as a bead. 9. The seal of claim 1, further comprising a third cloth layer having woven warp and weft wires and having opposite edges extending along a length, wherein said second cloth layer is brazed on one side to the first cloth layer and said third cloth layer is brazed to the other side of the second cloth layer by a flux paste with its edges aligned with the edges of the first and second cloth layers. 10. The seal of claim 9, wherein said brazed connection between said second and third cloth layer substantially seals the gaps between said wires along substantially the entire length and width of the brazed together cloth layers. 11. A turbine, comprising: a first turbine member having a recess therein;a second turbine member movable relative to said first turbine member, said second turbine member being spaced from said first turbine member with a gap therebetween and having a recess therein aligned with said first turbine member recess;a seal against gas leakage through the gap between the first and second turbine members, said seal having a first cloth layer having woven warp and weft wires, said first cloth layer having opposite edges extending a length,a second cloth layer having woven warp and weft wires, said second cloth layer having opposite edges extending a length,wherein said first and second cloth layers are brazed together by a flux paste whereby said cloth layers have their edges aligned and said brazing substantially seals gaps between said wires along substantially the entire length and width of the brazed together cloth layers, andedge connectors connecting the edges of the cloth layers along their length, said edge connectors having a thickness greater than the combined thickness of the brazed together cloth layers;wherein the seal is received in the turbine member recesses with the edge connector on one edge received in the first turbine member recess and the edge connector on the other edge is received in the second turbine member recess. 12. The turbine of claim 11, wherein said wires are cobalt based and said cloth layers are each about 0.03 inches thick. 13. The turbine of claim 11, wherein the wires of said first and second cloth layers are woven in a Dutch twill weave. 14. The turbine of claim 11, wherein each of said cloth layers have about 220 weft wires per inch and 40 warp wires per inch, with said weft wires having a diameter of about 0.0084 inch and said warp wires having a diameter of about 0.0105 inch. 15. The turbine of claim 11, wherein said flux paste includes nickel, and said brazed connection of the cloth layers comprises the nickel of the flux paste filling gaps in the cloth via capillary action during brazing and forming a metallurgical bond with the wires. 16. The turbine of claim 11, wherein said flux paste includes cobalt, and said brazed connection of the cloth layers comprises the cobalt of the flux paste filling gaps in the cloth via capillary action during brazing and forming a metallurgical bond with the wires. 17. The turbine of claim 11, wherein the edge connectors comprise solid weld beads from an electron beam weld. 18. The turbine of claim 17, wherein the solid beads are wires electron beam welded along the edges of the cloth layers. 19. The turbine of claim 17, wherein the solid beads are cloth wire materials at the edges of the cloths electron beam welded and shaped as a bead. 20. The turbine of claim 11, wherein said seal further has a third cloth layer having woven warp and weft wires and has opposite edges extending along a length, wherein said second cloth layer is brazed on one side to the first cloth layer and said third cloth layer is brazed to the other side of the second cloth layer by a flux paste with its edges aligned with the edges of the first and second cloth layers. 21. The turbine of claim 20, wherein said brazed connection between said second and third cloth layer substantially seals the gaps between said wires along substantially the entire length and width of the brazed together cloth layers. 22. The turbine of claim 11, wherein said seal is movable relative to both said first and second turbine members. 23. A method of making a seal against gas leakage through a gap between first and second turbine members movable relative to one another, comprising the steps of: providing first and second cloth layers each with opposite edges extending a length, each cloth layer having woven warp and weft wires;brushing a flux paste on substantially one entire side of one of said cloth layers, said flux paste being based on a selected one or more of nickel and cobalt;positioning the other of said cloth layers against the one side of the one cloth layer;brazing together said first and second cloth layers with their edges aligned whereby said selected one or more of nickel and cobalt of said flux paste substantially seals the gaps between said wires along substantially the entire length and width of the brazed together cloth layers; andconnecting the edges of the cloth layers with edge connectors along their length, wherein the edge connectors have a thickness greater than the combined thickness of the brazed together cloth layers. 24. The method of claim 23, wherein said providing step provides cloth layers which are each about 0.03 inches thick formed of cobalt based wires. 25. The method of claim 23, wherein the wires of said first and second cloth layers are woven in a Dutch twill weave. 26. The method of claim 23, wherein each providing step provides cloth layers having about 220 weft wires per inch and 40 warp wires per inch, with said weft wires having a diameter of about 0.0084 inch and said warp wires having a diameter of about 0.0105 inch. 27. The method of claim 23, wherein in said brazing step the selected one or more of nickel and cobalt of the flux paste fills gaps in the cloth via capillary action and forms a metallurgical bond with the wires. 28. The method of claim 23, wherein the edges connecting step comprises electron beam welding forming edge connectors which are weld beads.
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