Seal element for sealing a gap and combustion turbine having a seal element
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-001/00
F02G-003/00
출원번호
US-0767835
(2004-01-29)
우선권정보
GB-0119098.2(2001-08-04)
발명자
/ 주소
Reichert,Arnd
출원인 / 주소
Siemens Aktiengesellschaft
인용정보
피인용 횟수 :
13인용 특허 :
28
초록▼
The invention pertains to a seal element for sealing a gap, in particular within a turbo-machinery, between a first component and a second components spaced apart from each other, said first component having a first surface and said second component having an opposing second surfaces. The seal eleme
The invention pertains to a seal element for sealing a gap, in particular within a turbo-machinery, between a first component and a second components spaced apart from each other, said first component having a first surface and said second component having an opposing second surfaces. The seal element comprises a support structure and a sealing structure covering at least partially said support structure. The support structure comprises at least two contacting members, each contacting member serves for putting a portion of the sealing structure in contact with one of the surfaces and being capable of following a deformation of said surface. The invention further pertains to a combustion turbine, wherein a gap is formed between a first surface and a second surface, which gap is sealed off by said seal element.
대표청구항▼
The invention claimed is: 1. A seal element for sealing a gap between a first component and a second component spaced apart from each other, the first component having a first surface and the second component having an opposing second surface, the seal element comprising: a support structure having
The invention claimed is: 1. A seal element for sealing a gap between a first component and a second component spaced apart from each other, the first component having a first surface and the second component having an opposing second surface, the seal element comprising: a support structure having at least two contacting members; and a sealing structure comprising a fibrous web and covering at least partially the support structure, wherein each contacting member serves for putting a portion of the sealing structure in contact with one of the surfaces and being capable of following a deformation and/or movement of said surface and wherein the support structure has a frame portion to which the contacting members is connected via a branch portion extending away from the frame portion. 2. A seal element for sealing a gap between a first component and a second component spaced apart from each other, the first component having a first surface and the second component having an opposing second surface, the seal element comprising: a support structure having at least two contacting members; and a sealing structure covering at least partially the support structure, wherein each contacting member serves for putting a portion of the sealing structure in contact with one of the surfaces and being capable of following a deformation and/or movement of said surface and wherein the support structure has a frame portion to which the contacting members is connected via a branch portion extending away from the frame portion, wherein the sealing structure comprises a web having metallic and/or ceramic fibres. 3. The seal element according to claim 2, wherein the sealing structure comprises a ceramic fibre fabric, a ceramic fibre tape, a ceramic fibre sleeving or a ceramic fibre mat. 4. The seal element according to claim 2, wherein the sealing structure comprises ceramic fibres consisting of Zr02, Si02 and/or A1203. 5. The seal element according to claim 2, wherein the sealing structure comprises a metallic fibre fabric, a metallic fibre tape, a metallic fibre sleeving or a metallic fibre mat. 6. The seal element according to claim 2, wherein the sealing structure comprises metallic fibres consisting of a superalioy, in particular a nickel-based, a cobalt-based or ironbased superalloy. 7. The seal element according to claim 2, wherein the sealing structure is loosely connected to said support structure. 8. The seal element according to claim 2, wherein the support structure consists of a metal, in particular a sheet metal. 9. The seal element according to claim 2, wherein the support structure baa a curved form, in particular is U-shaped, open-ring shaped or ring-shaped. 10. The seal element according to claim 2, wherein the branch portion and the contacting member are elastically deformable. 11. The seal element according to claim 2, wherein the support structure has at least two branch portions with different length. 12. The seal element according to claim 11, wherein the branch portions form together with a middle portion a two-arm spring, which spring is fastened to said frame portion at said middle portion. 13. The seal element according to claim 2, further comprising a tightening member for tightening said sealing structure between two adjacent contacting members. 14. The seal element according to claim 13, wherein said tightening member comprises a spring member. 15. The seal element according to claim 2 for the use in a hot gas chamber having a hot-gas flow region, the hot gas chamber comprising: a wall structure surrounding the hot-gas flow region and comprising the second component having the second surface, the first component being attached to said wall structure and having the first surface, which is directed to the wall structure, wherein the gap is formed between the first component and the second component, the sealing structure being in contact with the second surface of the second component and with the first surface of the first component thereby sealing the gap. 16. The seal element according to claim 15, wherein the hot gas chamber is a part of a combustion turbine. 17. The seal element according to claim 15, wherein the first component is a heat shield element of a combustion chamber or a shroud element of a turbine section. 18. The seal element according to claim 2 for the use in a combustion turbine, the combustion turbine comprising: a burner; a turbine section having a turbine inlet for hot gas to enter the turbine section; and a duct connecting the burner to the turbine section for hot gas to flow from said burner to said turbine section, whereby the first surface is foimed by the turbine inlet and the second surface by the duct in the vicinity of the turbine inlet, with the gap between the first surface and the second surface sealed by the seal element. 19. A combustion turbine, comprising: a hot gas chamber having a hot-gas flow region; a wall structure surrounding the hot-gas flow region and comprising at least one second component having a second surface directed to the hot-gas flow region; at least one first component being attached to the wall structure and having a first surface, which is directed to the wall structure; a gap formed between the first component and the second component; a seal element for sealing said gap the seal element comprising: a support structure; a sealing structure, wherein the sealing structure is a fibrous sleeve, covering at least partially the support structure, wherein the support structure comprises at least two contacting members, each contacting member puts a portion of the sealing structure in contact with one of the surfaces and being capable of following a deformation of the surface, wherein the support structure has a frame portion to which the contacting members is connected via a branch portion extending away from said frame portion. 20. The combustion turbine according to claim 19, wherein the seal element comprises a curved frame portion from which the contacting members are spaced apart and each contacting member being connected to the frame portion via a branch portion. 21. A combustion turbine, comprising: a hot gas chamber having a hot-gas flow region; a wall structure surrounding the hot-gas flow region and comprising at least one second component having a second surface directed to the hot-gas flow region; at least one first component being attached to the wall structure and having a first surface, which is directed to the wall structure; a gap formed between the first component and the second component; a seal element for sealing said gap the seal element comprising: a support structure; and a sealing structure at least partially covering the support structure, wherein the support structure comprises at least two contacting members, each contacting member puts a portion of the sealing structure in contact with one of the surfaces and being capable of following a deformation of the surface, wherein the support structure has a frame portion to which the contacting members is connected via a branch portion extending away from said frame portion, wherein the sealing structure comprises a fibrous sleeving at least partially surrounding the support structure. 22. A seal element for sealing a gap between a first component and a second component, the first component having a first surface and the second component having a second surface separated from the first surface by the gap, the seal element comprising: a fibrous sealing element; a support element providing mechanical support for the fibrous sealing element across the gap between a hot gas flow region on a first side of the gap and a cooling gas region on a second side of the gap; wherein a gas pervious property of the fibrous sealing element provides a degree of effusion cooling of the sealing element by a flow of cooling gas from the cooling gas region across the fibrous sealing element. 23. The seal element of claim 22, further comprising a tightening member urging the sealing element into close contact with the first surface and the second surface. 24. The seal element of claim 22, wherein the support element comprises a means for elastically deforming to accommodate relative movement between the first and second components.
Dinc Osman Saim (Troy NY) Cromer Robert Harold (Johnstown NY) Bagepalli Bharat Sumpathkumar (Schenectady NY) Maynard James Robert (Greenville SC), Gas-path leakage seal for a gas turbine.
Aksit, Mahmut Faruk; Safi, Ahmad; Mohammed-Fakir, Abdul-Azeez; Vedantam, Srikanth; Fang, Ning; Goetze, Gayle Hobbs; Arness, Brian Peter; Greene, John Ellington; Chi, Wei-Ming, Seal for gas turbine nozzle and shroud interface.
Mohammed-Fakir, Abdul-Azeez; Aksit, Mahmut Faruk; Safi, Ahmad; Vedantam, Srikanth; Fang, Ning, Supplemental seal for the chordal hinge seals in a gas turbine.
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