A seal for use in a machine, such as a machine with rotating members, includes a labyrinth seal with multiple fins. The seal is slotted and is designed to limit fluid flow to the desired amount from the high pressure side of the seal to the low pressure side of the seal inside partially or exclusive
A seal for use in a machine, such as a machine with rotating members, includes a labyrinth seal with multiple fins. The seal is slotted and is designed to limit fluid flow to the desired amount from the high pressure side of the seal to the low pressure side of the seal inside partially or exclusively radially extending cavities between two rotating members. The rotating members may operate at different speeds with a common axis of rotation. The seal remains effective when the rotating members move axially in relation to one another despite the fins having a component parallel to the axis of rotation.
대표청구항▼
1. A seal for a machine, the seal comprising: a first rotating member having a cavity formed between a first runner and a second runner that extend axially in a first linear direction from the first rotating member;a second rotating member having at least one fin with outer and inner surfaces taperi
1. A seal for a machine, the seal comprising: a first rotating member having a cavity formed between a first runner and a second runner that extend axially in a first linear direction from the first rotating member;a second rotating member having at least one fin with outer and inner surfaces tapering transversely toward each other and extending axially to a distal end in a second linear direction from the second rotating member and toward the first rotating member, the fin having a base section with the outer and inner surfaces at the base section spanning wider than the cavity, the fin having a tapered section extending from the base section towards the first rotating member, the tapered section having an aperture extending between the outer and inner surfaces at the tapered section, the fin having an elongated section with an axial length and a radial width, wherein the length of the elongated section extends axially from the tapered section to the distal end of the fin and into the cavity between the first runner and the second runner, wherein the width of the elongated section is generally uniform, wherein the length of the elongated section of the fin is larger than an axial length of the cavity, and wherein blockage of the aperture by at least one of the first and second runners is resisted due to the length of the elongated section being greater than the length of the cavity and due to a width of the tapered section being greater than a radial width of the cavity;a first clearance between the cavity and the fin; anda second clearance between the cavity and the fin,wherein said first and second rotating members are arranged to rotate at different speeds about a common rotational axis. 2. The seal as claimed in claim 1, wherein the first or second rotating member is more abradable than the other. 3. The seal as claimed in claim 1, wherein the first or second rotating member is coated with a material. 4. The seal as claimed in claim 1, wherein the first rotating member comprises a cover plate and the second rotating member comprises a disk. 5. The seal as claimed in claim 1, wherein the width of the elongated section of the fin is constant and the cavity is larger than the width of the fin. 6. The seal as claimed in claim 1, wherein the first and second rotating members allow for axial movement therebetween, and the rotating members are operable to preserve adequate fluid flow to maintain sealing. 7. The seal as claimed in claim 1, wherein the fin defines a first region on one side thereof and a second region on a second side thereof opposite the first region, and the aperture is for providing fluid flow from the first region to the second region. 8. The seal as claimed in claim 1, wherein the distal end of the fin includes a leading surface in the second linear direction, and has a geometric configuration including at least one of a u-shape, a pointed-shape, or a concave-shape. 9. The seal as claimed in claim 1, further comprising additional fins and additional cavities that are operable to receive said additional fins. 10. The seal as claimed in claim 1, wherein the first and second clearances are not the same. 11. The seal as claimed in claim 1, wherein the fin has a curved profile in the tapered section for enhancing sealing relative to the cavity. 12. The seal as claimed in claim 1, wherein the fin extends into the cavity about ½ the axial length of the cavity. 13. The seal as claimed in claim 1, wherein the machine is a gas turbine engine. 14. The seal as claimed in claim 1, wherein as the machine operates, the first and second clearances of the fin vary. 15. A seal for an engine comprising: a rotating cover plate;a first runner, a second runner and a third runner extending axially in a first linear direction from the cover plate and forming a first cavity and a second cavity;a rotating disk;a first fin and a second fin, each having outer and inner surfaces tapering transversely toward each other and extending axially to a distal end in a second linear direction from the disk and toward the cover plate, each fin having a base section with the outer and inner surfaces at the base section spanning wider than a corresponding one of the first and second cavities, each fin having a tapered section extending from the base section towards the corresponding one of the first and second cavities, each fin having an elongated section extending axially from the tapered section to the distal end of the fin and into the corresponding one of the first and second cavities; andwherein the first and second fins are arranged to form a low pressure region on one side of the first fin, an intermediate pressure region between the first and second fins, and a high pressure region formed on one side of the second fin, and are located between the cover plate and the disk; anda first aperture formed in the tapered section of the first fin extending between the outer and inner surfaces of the first fin at the tapered section of the first fin and a second aperture formed in the tapered section of the second fin extending between the outer and inner surfaces of the first fin at the tapered section of the first fin, the apertures arranged to provide fluid flow through the first fin via the first aperture and through the second fin via the second aperture;wherein a first radial clearance of the first fin is different than a second radial clearance of the second fin, and wherein an axial length of the elongated section of each fin is larger than an axial length of each cavity, and wherein blockage of each aperture by the runners is resisted due to the length of the elongated section of each fin being greater than the length of each corresponding cavity and due to a radial width of the tapered section of each fin being greater than a radial width of each corresponding cavity. 16. The seal as claimed in claim 15, wherein at least one of the fins is reinforced to have additional material at a section that is subject to increased pressure on the at least one of the fins. 17. A seal for use in sealing two structures in a gas turbine engine, the seal comprising: a slotted runner extending axially in a first linear direction from a first rotating member, the slotted runner having a first cavity and a second cavity, each of the cavities having an elongated rectangle-shaped profile, the first rotating member configured to rotate at a first speed about an axis; anda pair of fins, each having outer and inner surfaces tapering transversely toward each other and extending axially to a distal end in a second linear direction from a second rotating member and toward the first rotating member, each fin having a base section with the outer and inner surfaces at the base section spanning wider than a corresponding one of the first and second cavities, each fin having a tapered section extending from the base section towards the first rotating member, each fin having an elongated section extending axially from the tapered section and into the respective elongated rectangle-shaped profile of the corresponding one of the first and second cavities, the second rotating member configured to rotate at a second speed about said axis;wherein the pair of fins are arranged to vary a radial clearance between an outside surface of each fin and a wall of each corresponding cavity, and wherein an axial length of the elongated section of each fin is larger than an axial length of each corresponding cavity, and wherein blockage of each aperture by the slotted runner is resisted due to the length of the elongated section of each fin compared to the length of each corresponding cavity and due to a radial width of the tapered section of each fin being greater than a radial width of each corresponding cavity. 18. The seal as claimed in claim 17, further comprising an additional cavity in the slotted runner and an additional fin extending from said second rotating member that is operable to protrude into the additional cavity. 19. The seal as claimed in claim 17, further comprising an aperture in each of the fins such that fluid flow passes from one side of the pair of fins, between the pair of fins, and to an other side of the pair of fins.
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이 특허에 인용된 특허 (17)
Williams Gregg G. (Milford MI), Balanced ring seal.
Hager Jonathan S. (Chandler AZ) Geck Kellan P. (Chandler AZ) Giesler William L. (Phoenix AZ) Farnsworth Gary A. (Mesa AZ), Oil seal for a high speed rotating shaft.
Hager Jonathan S. (Chandler AZ) Geck Kellan P. (Chandler AZ) Giesler William L. (Phoenix AZ) Mathis David M. (Phoenix AZ), Oil seal for a high speed rotating shaft.
Zborovsky, James M.; Hsu, Johan; McQuiggan, Andrew G., Transition-to-turbine seal apparatus and kit for transition/turbine junction of a gas turbine engine.
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