A seal assembly for a gas turbine engine includes a carbon seal and a seal plate. The seal plate has a contact face configured to slidably engage the carbon seal. The seal plate has a surface disposed on an opposing side of the seal plate from the contact face. The surface forms a portion of a singl
A seal assembly for a gas turbine engine includes a carbon seal and a seal plate. The seal plate has a contact face configured to slidably engage the carbon seal. The seal plate has a surface disposed on an opposing side of the seal plate from the contact face. The surface forms a portion of a single passage that extends an entire length of the seal plate. The continuous cooling provided by single passage along the seal plate allows for a more uniform temperature profile along the contact face of seal plate.
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1. A seal assembly comprising: a face seal;a seal plate having a contact face configured to slidably engage the face seal, the seal plate having a surface disposed on an opposing side of the seal plate from the contact face, the surface forms a portion of a single passage that extends an entire leng
1. A seal assembly comprising: a face seal;a seal plate having a contact face configured to slidably engage the face seal, the seal plate having a surface disposed on an opposing side of the seal plate from the contact face, the surface forms a portion of a single passage that extends an entire length along the circumference of the seal plate;a film plate interfacing the seal plate along the opposing side of the seal plate, wherein a surface of the film plate and the surface of the seal plate are disposed at a distance from each other and together form the single passage; andwherein the film plate has a second surface disposed along an inner radial portion thereof, and wherein the second surface has a plurality of grooves therein which communicate with the single passage,wherein the grooves extend generally radially with respect to an axis of rotation of a shaft of a gas turbine engine, and wherein the grooves communicate with one or more axial passages that extend generally axially with respect to the axis of rotation of the shaft radially beneath an inner radial race of a bearing assembly, andwherein the one or more axial passages are in direct communication with the single passage via the grooves, such that oil is directly communicated from the one or more axial passages to a bearing compartment. 2. The seal assembly of claim 1, wherein the surface of the film plate that forms a portion of the single passage is disposed along an outer radial portion of the film plate. 3. The seal assembly of claim 2, wherein the surface of the film plate extends both radially and axially with respect to an axis of rotation of a shaft of a gas turbine engine, and wherein the film plate is tilted directionally toward the face seal. 4. The seal assembly of claim 3, wherein the film plate is tilted directionally toward the face seal at an angle of between 0° and 90°. 5. The seal assembly of claim 1, wherein the distance between the surface of the film plate and the surface of the seal plate is between substantially 0.50 mils and 100 mils (0.013 mm and 2.54 mm). 6. A seal assembly comprising: a face seal;a seal plate having a contact face configured to slidably engage the face seal, the seal plate having a surface disposed on an opposing side of the seal plate from the contact face, the surface forms a portion of a single passage that extends an entire length along the circumference of the seal plate; anda race interfacing the seal plate along the opposing side of the seal plate; wherein a surface of the race and the surface of the seal plate are disposed at a distance from each other and together form the single passage;wherein the race has a second surface disposed along an inner radial portion thereof, and wherein the second surface has a plurality of grooves therein which communicate with the single passage,wherein the grooves extend generally radially with respect to an axis of rotation of a shaft of a gas turbine engine, and wherein the grooves communicate with one or more axial passages that extend generally axially with respect to the axis of rotation of the shaft radially inward of the race, andwherein the one or more axial passages are in direct communication with the single passage via the grooves, such that oil is directly communicated from the one or more axial passages to a bearing compartment. 7. The seal assembly of claim 6, wherein the surface of the race that forms a portion of the single passage is disposed along an outer radial portion of the race. 8. The seal assembly of claim 7, wherein the surface of the race extends both radially and axially with respect to an axis of rotation of a shaft of a gas turbine engine, and wherein the surface of the race is tilted directionally toward the face seal. 9. A seal assembly for a gas turbine engine comprising: a carbon seal;a seal plate having a contact face configured to slidably engage the carbon seal, the seal plate having a surface disposed on an opposing side of the seal plate from the contact face; anda film plate interfacing the seal plate along the opposing side of the seal plate, wherein a surface of the film plate and the surface of the seal plate are disposed at a distance from each other and together form a single passage therebetween,wherein the film plate has a second surface disposed along an inner radial portion thereof, and wherein the second surface has a plurality of grooves therein which communicate with the single passage,wherein the grooves extend generally radially with respect to an axis of rotation of a shaft of a gas turbine engine, and wherein the grooves communicate with one or more axial passages that extend generally axially with respect to the axis of rotation of the shaft radially beneath an inner radial race of a bearing assembly, andwherein the one or more axial passages are in direct communication with the single passage via the grooves, such that oil is directly communicated from the one or more axial passages to a bearing compartment. 10. The seal assembly of claim 9, wherein the surface of the film plate that forms a portion of the single passage is disposed along an outer radial portion of the film plate. 11. The seal assembly of claim 10, wherein the surface of the film plate extends both radially and axially with respect to an axis of rotation of a shaft of the gas turbine engine, and wherein the film plate is tilted directionally toward the carbon seal. 12. A gas turbine engine comprising: a shaft having an axis of rotation;a stator housing disposed adjacent to and radially outward of the shaft;a carbon seal mounted on the stator housing;a seal plate mounted to the shaft and having a contact face configured to slidably engage the carbon seal, the seal plate having a surface disposed on an opposing side of the seal plate from the contact face, the surface forms a portion of a single passage that extends an entire length along the circumference of the seal plate; anda bearing assembly disposed between the shaft and the stator housing, the bearing assembly including an inner radial race, wherein the inner radial race is mounted on the shaft and is disposed to interface with the seal plate along the opposing side of the seal plate, and wherein a surface of the inner radial race and the surface of the seal plate are disposed at a distance from each other and together form the single passage,wherein the inner radial race has a second surface having a plurality of grooves therein which communicate with the single passage,wherein the grooves extend generally radially with respect to an axis of rotation of a shaft of a gas turbine engine, and wherein the grooves communicate with one or more axial passages that extend generally axially with respect to the axis of rotation of the shaft radially inward of the inner radial race, andwherein the one or more axial passages are in direct communication with the single passage via the grooves, such that oil is directly communicated from the one or more axial passages to a bearing compartment.
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이 특허에 인용된 특허 (18)
Flaherty Andrew L. ; Engelmann Rainer F., Aerospace housing and shaft assembly.
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