An improved seal assembly for use with a combustion liner assembly is employed with a gas turbine engine so as to control fluid flow. The seal assembly has a bi-metal sealing member that is affixed to a first surface that is proximal to a second perpendicular surface that is not in contact with the
An improved seal assembly for use with a combustion liner assembly is employed with a gas turbine engine so as to control fluid flow. The seal assembly has a bi-metal sealing member that is affixed to a first surface that is proximal to a second perpendicular surface that is not in contact with the first surface, thus providing a potential fluid flow path. Upon heating, the bi-metal sealing member “uncoils” contacting the second perpendicular surface, thus blocking the flowpath between the two surfaces. Various metals may be provided to provide predetermined sealing characteristics.
대표청구항▼
1. A seal for use with a machine comprising: an open fluid path in a machine, the fluid path extends between fixed members that are components of the machine; anda first bi-metal valve that is located in proximity to the open fluid path, the valve is made of a bi-metal strip that is operable to move
1. A seal for use with a machine comprising: an open fluid path in a machine, the fluid path extends between fixed members that are components of the machine; anda first bi-metal valve that is located in proximity to the open fluid path, the valve is made of a bi-metal strip that is operable to move between a first position and a second position during a heating event, the valve is operable to block the fluid path;wherein: each of the fixed members is a tile formed of ceramic material, the tile is used in conjunction with a component of the machine; andthe bi-metal valve is secured to the component by the fastener. 2. The seal as claimed in claim 1, further comprising the fastener that secures the bi-metal valve relative to one of the fixed members. 3. The seal as claimed in claim 1, further comprising a clearance point that defines an open fluid channel that is bound on one side by a surface of one of the fixed members and by a surface of the bi-metal strip. 4. The seal as claimed in claim 1, further comprising a second bi-metal valve that is located behind the first bi-metal valve, the second bi-metal valve is in the fluid path and operates along with the first bi-metal valve to control fluid flow as the machine operates. 5. The seal as claimed in claim 1, wherein the component is a combustor of a gas turbine engine. 6. The seal as claimed in claim 1, wherein the tile has a curved surface. 7. The seal as claimed in claim 1, further comprising a combustor liner, one of the fixed members are located adjacent to the combustor liner and a fastener secures them together. 8. The seal as claimed in claim 1, further comprising a sealing surface that is located at a contact area between one of the fixed members and the bi-metal valve. 9. The seal as claimed in claim 1, wherein one of the fixed members has a planar portion and a substantially perpendicular portion, the valve is positioned to clear the perpendicular portion when the seal is coiled up and in a static like configuration. 10. The seal as claimed in claim 2, wherein the fastener is removable, and once removed, a new bi-metal valve may be installed and a new fastener may be installed. 11. A seal system for use with a machine comprising: a first tile;a second tile spaced apart from the first tile;a fluid channel extending in between the first and second tiles;a bi-metal strip having a mounting portion and a scrolled section;a securing member for connecting the bi-metal strip and one of the tiles together; andan engine member, the bi-metal strip is secured to the engine member by the securing member. 12. The seal system as claimed in claim 11, wherein the engine member is a combustor. 13. The seal system as claimed in claim 11, wherein the bi-metal strip is constructed of material that permits the scrolled section to expand as temperatures increase when the machine operates. 14. The seal system as claimed in claim 11, wherein the bi-metal strip expands and creates a seal against one of the tiles during an elevated temperature condition, and the bi-metal strip contracts during a reduced temperature condition. 15. The seal system as claimed in claim 11, further comprising another bi-metal strip that is secured to one of the tiles. 16. A method of controlling a fluid path in a gas turbine engine, the method comprising the steps of: providing a first fixed member;providing a second fixed member;providing a fluid path that is located between the first and second fixed members; andproviding a flexible valve that is secured to one of the first and second fixed members and is located in the fluid path, the flexible valve is operable to move between various positions based on gas turbine operating temperatures, the positions include: a first position which is a low temperature condition, whereby the first position maintains the fluid flow path in an open state, anda second position which is an elevated temperature condition, whereby the second position maintains the fluid flow path in a closed state and the fluid flow path is blocked;wherein: the first fixed member and the second fixed member are tiles formed of ceramic material, the tiles are used in conjunction with an engine member of the machine; andthe flexible valve is a bi-metal valve secured to the engine member by a fastener. 17. The method as claimed in claim 16, further comprising the step of a third position, whereby during the third position the fluid flow path is opened as the flexible valve moves back towards the first position. 18. The method as claimed in claim 16, whereby the engine member is a combustor. 19. The method as claimed in claim 16, wherein the first and second fixed members are made of a ceramic matrix composite material. 20. The method as claimed in claim 16, further comprising the step of replacing the flexible valve with a new flexible valve.
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이 특허에 인용된 특허 (16)
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