The present disclosure relates generally to a sliding seal between two components. The sliding seal includes a first seal section including one or more first slots formed therein, a second seal section including one or more second slots formed therein and one or more frustoconical rings disposed in
The present disclosure relates generally to a sliding seal between two components. The sliding seal includes a first seal section including one or more first slots formed therein, a second seal section including one or more second slots formed therein and one or more frustoconical rings disposed in respective ones of the slots, such that the first and second seal sections and the frustoconical rings move relative to one another during relative movement between the two components. A wave spring disposed between the first and second seal sections biases the first and second seal sections away from one another.
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1. A seal for sealing a space defined by first and second adjacent components disposed about an axial centerline, the seal comprising: a first seal section including one or more first slots formed therein; anda second seal section including one or more second slots formed therein;wherein the first a
1. A seal for sealing a space defined by first and second adjacent components disposed about an axial centerline, the seal comprising: a first seal section including one or more first slots formed therein; anda second seal section including one or more second slots formed therein;wherein the first and second seal sections are configured to sealingly engage with the first and second components;one or more frustoconical rings each including a first end and a second end, wherein each of the first ends is disposed in a respective one of the first slots and each of the second ends is disposed in a respective one of the second slots;a wave spring disposed between the first and second seal sections and operative to bias the first seal section away from the second seal section; andwherein the first and second seal sections and the one or more frustoconical rings are configured to move relative to one another. 2. The seal of claim 1, wherein the first seal section, the second seal section and the wave spring comprise components selected from the group consisting of: full hoop component and split hoop component. 3. The seal of claim 1, further comprising: a first substantially rounded protrusion extending from the first seal section and in contact with the first component along a first single line of contact selected from the group consisting of: circumferential line of contact and semi-circumferential line of contact; anda second substantially rounded protrusion extending from the second seal section and in contact with the second component along a second single line of contact selected from the group consisting of: circumferential line of contact and semi-circumferential line of contact. 4. The seal of claim 1, wherein each of the one or more frustoconical rings comprise split frustoconical rings. 5. The seal of claim 1, wherein the seal is formed from a material selected from one of a high-temperature metal alloy, a high-temperature ceramic material, and a high-temperature ceramic composite, or a combination of two or more of a high-temperature metal alloy, a high-temperature ceramic material and a high-temperature ceramic composite. 6. The seal of claim 1, further comprising: a coating applied to at least a portion of each of the first and second seal sections. 7. The seal of claim 1, further comprising: a sheath covering at least a portion of each of the first and second seal sections. 8. The seal of claim 1, further comprising a plurality of tabs extending from the first seal section and/or the second seal section and wrapping over a radially outer edge of the wave spring. 9. The seal of claim 1, further comprising: a first compliant seal disposed between the first seal section and the first component; anda second compliant seal disposed between the second seal section and the first component. 10. The seal of claim 9, wherein the first and second compliant seals are selected from the group consisting of: woven ceramic rope seal, braided ceramic rope seal, and flat ceramic textile fabric. 11. A system, comprising: a first component including a first surface;a second component including a second surface, the second component disposed adjacent the first component and defining a seal cavity therebetween;wherein the first and second components are disposed about an axial centerline; anda seal disposed in the seal cavity, the seal including: a first seal section including one or more first slots formed therein; anda second seal section including one or more second slots formed therein;one or more frustoconical rings each including a first end and a second end, wherein each of the first ends is disposed in a respective one of the first slots and each of the second ends is disposed in a respective one of the second slots;a wave spring disposed between the first and second seal sections and operative to bias the first seal section away from the second seal section; andwherein pressure within the seal cavity urges the seal to seat against the first surface and the second surface; andwherein relative movement of the first component and the second component toward or away from one another causes the first and second seal sections and the one or more frustoconical rings to slide relative to one another such that the seal is not substantially deflected over a portion of its range of motion. 12. The seal of claim 11, wherein the first seal section, the second seal section and the wave spring comprise components selected from the group consisting of: full hoop component and split hoop component. 13. The seal of claim 11, further comprising: a first substantially rounded protrusion extending from the first seal section and in contact with the first component along a first single line of contact selected from the group consisting of: circumferential line of contact and semi-circumferential line of contact; anda second substantially rounded protrusion extending from the second seal section and in contact with the second component along a second single line of contact selected from the group consisting of: circumferential line of contact and semi-circumferential line of contact. 14. The seal of claim 11, wherein each of the one or more frustoconical rings comprise split frustoconical rings. 15. The seal of claim 11, wherein the seal is formed from a material selected from one of a high-temperature metal alloy, a high-temperature ceramic material, and a high-temperature ceramic composite, or a combination of two or more of a high-temperature metal alloy, a high-temperature ceramic material and a high-temperature ceramic composite. 16. The seal of claim 11, further comprising: a coating applied to at least a portion of each of the first and second seal sections. 17. The seal of claim 11, further comprising: a sheath covering at least a portion of each of the first and second seal sections. 18. The seal of claim 11, further comprising a plurality of tabs extending from the first seal section and/or the second seal section and wrapping over a radially outer edge of the wave spring. 19. The seal of claim 11, further comprising: a first compliant seal disposed between the first seal section and the first component; anda second compliant seal disposed between the second seal section and the first component. 20. The seal of claim 19, wherein the first and second compliant seals are selected from the group consisting of: woven ceramic rope seal, braided ceramic rope seal, and flat ceramic textile fabric.
Weaver, Adam J.; Nordlund, Raymond S.; Allen, David B.; Davies, Daniel O., Slidable spring-loaded transition-to-turbine seal apparatus and heat-shielding system, comprising the seal, at transition/turbine junction of a gas turbine engine.
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