A turbine shroud assembly is disclosed including an inner shroud having a surface adjacent to a hot gas path, an outer shroud, a damper block disposed between the inner shroud and the outer shroud, a first biasing apparatus, and a second biasing apparatus. The first biasing apparatus provides a firs
A turbine shroud assembly is disclosed including an inner shroud having a surface adjacent to a hot gas path, an outer shroud, a damper block disposed between the inner shroud and the outer shroud, a first biasing apparatus, and a second biasing apparatus. The first biasing apparatus provides a first biasing force to the inner shroud, biasing the inner shroud a first deflection distance in a direction toward the hot gas path and away from the outer shroud. The second biasing apparatus provides a second biasing force to the damper block, biasing the damper block a second deflection distance in a direction toward the hot gas path and away from the outer shroud. The second deflection distance is greater than the first deflection distance.
대표청구항▼
1. A turbine shroud assembly, comprising: an inner shroud having a surface adjacent to a hot gas path;an outer shroud;a damper block disposed between the inner shroud and the outer shroud;a first biasing apparatus providing a first biasing force to the inner shroud, biasing the inner shroud a first
1. A turbine shroud assembly, comprising: an inner shroud having a surface adjacent to a hot gas path;an outer shroud;a damper block disposed between the inner shroud and the outer shroud;a first biasing apparatus providing a first biasing force to the inner shroud, biasing the inner shroud a first deflection distance in a direction toward the hot gas path and away from the outer shroud; anda second biasing apparatus providing a second biasing force to the damper block, biasing the damper block a second deflection distance in the direction toward the hot gas path and away from the outer shroud,wherein the second deflection distance is greater than the first deflection distance, loading the damper block to the inner shroud. 2. The turbine shroud assembly of claim 1, wherein the first biasing apparatus includes at least one spring, the spring connecting to or contacting the inner shroud and configured to exert the first biasing force on the inner shroud. 3. The turbine shroud assembly of claim 1, wherein the first biasing apparatus is a springless biasing apparatus. 4. The turbine shroud assembly of claim 3, wherein the biasing apparatus is driven by a pressurized fluid. 5. The turbine shroud assembly of claim 1, wherein the first biasing apparatus includes at least one bellows connecting to or contacting the inner shroud, the at least one bellows configured to expand toward the hot gas path in response to an increased internal pressure within the at least one bellows and to exert the first biasing force on the inner shroud. 6. The turbine shroud assembly of claim 5, wherein the at least one bellows hermetically caps a pressurized fluidic supply line. 7. The turbine shroud assembly of claim 1, wherein the first biasing apparatus includes at least one thrust piston connected to or contacting the inner shroud and configured to exert the first biasing force on the inner shroud. 8. The turbine shroud assembly of claim 1, wherein the first biasing apparatus includes a deflection limiter, the deflection limiter arranged and disposed such that the first deflection distance does not exceed a predetermined deflection. 9. The turbine shroud assembly of claim 8, wherein the deflection limiter is adjustable, altering the predetermined deflection. 10. The turbine shroud assembly of claim 1, wherein the second biasing apparatus includes at least one spring, the spring connecting to or contacting the damper block and configured to exert the second biasing force on the damper block. 11. The turbine shroud assembly of claim 1, wherein the second biasing apparatus is a springless biasing apparatus. 12. The turbine shroud assembly of claim 11, wherein the second biasing apparatus is driven by a pressurized fluid. 13. The turbine shroud assembly of claim 1, wherein the second biasing apparatus includes at least one bellows connecting to or contacting the damper block, the at least one bellows configured to expand toward the hot gas path in response to an increased internal pressure within the at least one bellows and to exert the second biasing force on the damper block. 14. The turbine shroud assembly of claim 13, wherein the at least one bellows hermetically caps a pressurized fluidic supply line. 15. The turbine shroud assembly of claim 1, wherein the second biasing apparatus includes at least one thrust piston connected to or contacting the damper block and configured to exert the second biasing force on the damper block. 16. The turbine shroud assembly of claim 1, wherein the damper block includes a thermal barrier coating, wherein the turbine shroud assembly further includes a third biasing apparatus providing a third biasing force to the damper block, biasing the damper block a third deflection distance in the direction toward the hot gas path and away from the outer shroud, and wherein the third deflection distance is greater than the first deflection distance, loading the damper block to the inner shroud. 17. A turbine shroud assembly, comprising: an inner shroud having a surface adjacent to a hot gas path;an outer shroud;a damper block disposed between the inner shroud and the outer shroud;a first springless biasing apparatus driven by a pressurized fluid, providing a first biasing force to the inner shroud, biasing the inner shroud a first deflection distance in a direction toward the hot gas path and away from the outer shroud, the first springless biasing apparatus including at least one bellows, at least one thrust piston, or a combination of at least one bellows and at least one thrust piston;a second springless biasing apparatus driven by the pressurized fluid, providing a second biasing force to the damper block, biasing the damper block a second deflection distance in the direction toward the hot gas path and away from the outer shroud, the second springless biasing apparatus including at least one bellows, at least one thrust piston, or a combination of at least one bellows and at least one thrust piston; andan adjustable deflection limiter, the deflection limiter arranged and disposed such that the first deflection distance does not exceed a predetermined deflection, the predetermined deflection alterable by adjustment of the deflection limiter,wherein the second deflection distance is greater than the first deflection distance, loading the damper block to the inner shroud. 18. The turbine shroud assembly of claim 17, wherein the damper block includes a thermal barrier coating, wherein the turbine shroud assembly further includes a third springless biasing apparatus driven by the pressurized fluid, providing a third biasing force to the damper block, biasing the damper block a third deflection distance in the direction toward the hot gas path and away from the outer shroud, the third springless biasing apparatus including at least one bellows, at least one thrust piston, or a combination of at least one bellows and at least one thrust piston, and wherein the third deflection distance is greater than the first deflection distance, loading the damper block to the inner shroud. 19. A turbine shroud assembly, comprising: an inner shroud having a surface adjacent to a hot gas path;an outer shroud;a damper block disposed between the inner shroud and the outer shroud;a first biasing apparatus providing a first biasing force to the inner shroud, biasing the inner shroud a first deflection distance in a direction toward the hot gas path and away from the outer shroud;a second biasing apparatus providing a second biasing force to the damper block, biasing the damper block a second deflection distance in the direction toward the hot gas path and away from the outer shroud; and a third biasing apparatus providing a third biasing force to the damper block, biasing the damper block a third deflection distance in the direction toward the hot gas path and away from the outer shroud,wherein the second deflection distance is greater than the first deflection distance and the third deflection distance is greater than the first deflection distance, loading the damper block to the inner shroud. 20. The turbine shroud assembly of claim 19, wherein: the first biasing apparatus is a first springless biasing apparatus driven by a pressurized fluid, the first springless biasing apparatus including at least one bellows, at least one thrust piston, or a combination of at least one bellows and at least one thrust piston;the second biasing apparatus is a second springless biasing apparatus driven by a pressurized fluid, the second springless biasing apparatus including at least one bellows, at least one thrust piston, or a combination of at least one bellows and at least one thrust piston;the third biasing apparatus is a third springless biasing apparatus driven by a pressurized fluid, the third springless biasing apparatus including at least one bellows, at least one thrust piston, or a combination of at least one bellows and at least one thrust piston; andthe turbine should assembly further includes an adjustable deflection limiter, the deflection limiter arranged and disposed such that the first deflection distance does not exceed a predetermined deflection, the predetermined deflection alterable by adjustment of the deflection limiter. 21. A turbine shroud assembly, comprising: an inner shroud having a surface adjacent to a hot gas path;an outer shroud;a damper block disposed between the inner shroud and the outer shroud, the damper block including a thermal barrier coating;a first biasing apparatus providing a first biasing force to the inner shroud, biasing the inner shroud a first deflection distance in a direction toward the hot gas path and away from the outer shroud; anda second biasing apparatus providing a second biasing force to the damper block, biasing the damper block a second deflection distance in the direction toward the hot gas path and away from the outer shroud,wherein the second deflection distance is greater than the first deflection distance, loading the damper block to the inner shroud. 22. The turbine shroud assembly of claim 21, wherein: the first biasing apparatus is a first springless biasing apparatus driven by a pressurized fluid, the first springless biasing apparatus including at least one bellows, at least one thrust piston, or a combination of at least one bellows and at least one thrust piston;the second biasing apparatus is a second springless biasing apparatus driven by a pressurized fluid, the second springless biasing apparatus including at least one bellows, at least one thrust piston, or a combination of at least one bellows and at least one thrust piston; and the turbine should assembly further includes an adjustable deflection limiter, the deflection limiter arranged and disposed such that the first deflection distance does not exceed a predetermined deflection, the predetermined deflection alterable by adjustment of the deflection limiter.
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