IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0791968
(2010-06-02)
|
등록번호 |
US-8684673
(2014-04-01)
|
발명자
/ 주소 |
- Salazar, Santiago
- Gisch, Andrew
|
출원인 / 주소 |
|
인용정보 |
피인용 횟수 :
1 인용 특허 :
16 |
초록
▼
A seal structure for a gas turbine engine, the seal structure including first and second components located adjacent to each other and forming a barrier between high and low pressure zones. A seal cavity is defined in the first and second components, the seal cavity extending to either side of an el
A seal structure for a gas turbine engine, the seal structure including first and second components located adjacent to each other and forming a barrier between high and low pressure zones. A seal cavity is defined in the first and second components, the seal cavity extending to either side of an elongated gap extending generally in a first direction between the first and second components. A seal member is positioned within the seal cavity and spans across the elongated gap. The seal member includes first and second side edges extending into each of the components in a second direction transverse to the first direction, and opposing longitudinal edges extending between the side edges generally parallel to the first direction. The side edges include a groove formed therein for effecting a reduction of gas flow around the seal member at the side edges.
대표청구항
▼
1. In a gas turbine engine having an axial gas flow therethrough, a seal structure for minimizing gas leakage between a high pressure zone and a low pressure zone, the structure comprising: first and second components located adjacent to each other and forming a barrier between the high and low pres
1. In a gas turbine engine having an axial gas flow therethrough, a seal structure for minimizing gas leakage between a high pressure zone and a low pressure zone, the structure comprising: first and second components located adjacent to each other and forming a barrier between the high and low pressure zones;a seal cavity defined in the first and second components, the seal cavity extending to either side of an elongated gap extending generally in a first direction between the first and second components, the first direction extending generally parallel to the axial gas flow;the seal cavity including lateral wall portions formed in each of the components extending in a second direction transverse to the first direction;a seal member positioned within the seal cavity and spanning across the elongated gap;the seal member comprising first and second side edges extending into each of the components in the second direction transverse to the first direction, and opposing longitudinal edges extending between the side edges generally parallel to the first direction; andat least one of the side edges comprising at least one groove formed in the at least one side edge, and having a direction of elongation extending between the longitudinal edges transverse to the first direction, the at least one side edge located adjacent to the lateral wall portions for effecting a reduction of gas flow around the seal member at the at least one side edge. 2. The seal structure of claim 1, wherein the groove comprises a single groove formed in the at least one side edge, the groove comprising opposing groove walls extending in the direction of elongation of the groove and a base wall section extending between the groove walls. 3. The seal structure of claim 2, wherein the seal member comprises top and bottom seal surfaces extending to the at least one side edge, and upper and lower lip members defined between the top and bottom seal surfaces and respective groove walls, the upper and lower lip members defining an opening to the groove therebetween. 4. The seal structure of claim 3, wherein a gap between ends of the lip members and an adjacent wall of the seal cavity define a narrow passage to diffuse gas flowing into the groove and effect a reduction of velocity for gas flowing from the high pressure zone toward the low pressure zone. 5. The seal structure of claim 4, wherein the narrow passage comprises a gap of approximately 0.02 inch between the ends of the lip members and the adjacent wall of the seal cavity. 6. The seal structure of claim 4, wherein a distance from the ends of the lip members to the base wall of the groove is approximately four times the distance of the gap between ends of the lip members and the adjacent wall of the seal cavity. 7. The seal structure of claim 3, wherein the groove walls are spaced apart at least approximately 50% of a spacing between the top and bottom seal surfaces. 8. The seal structure of claim 1, wherein the seal cavity comprises upper and lower cavity surfaces and the seal member comprises top and bottom seal surfaces adjacent to the upper and lower cavity surfaces, the top and bottom seal surfaces comprising substantially smooth planar surfaces. 9. The seal structure of claim 1, wherein the first and second components comprise turbine vane shrouds located adjacent to each other. 10. In a gas turbine engine having an axial gas flow therethrough, a seal structure for minimizing gas leakage between a high pressure zone and a low pressure zone, the structure comprising: first and second components located adjacent to each other and forming a barrier between the high and low pressure zones, the first and second components including respective component sides facing each other;a seal cavity defined in the first and second components, the seal cavity extending into the component sides of the first and second components to either side of an elongated gap extending generally in a first direction between the first and second components, the first direction extending generally parallel to the axial gas flow;the seal cavity including upstream and downstream lateral wall portions formed in each of the components extending in a second direction transverse to the first direction;a seal member positioned within the seal cavity and spanning across the elongated gap;the seal member comprising first and second side edges extending into each of the components in the second direction transverse to the first direction, and opposing longitudinal edges extending between the side edges generally parallel to the first direction;the seal cavity comprising opposing upper and lower cavity surfaces, and the seal member comprising top and bottom seal surfaces adjacent to the upper and lower cavity surfaces and extending to the side edges; andeach of the side edges having a direction of elongation extending between the longitudinal edges and comprising a single groove extending in the direction of elongation along a respective side edge transverse to the first direction, the side edges located adjacent to respective ones of the upstream and downstream lateral wall portions for effecting a reduction of gas flow around the seal member at the side edges between the high and low pressure zones. 11. The seal structure of claim 10, where the grooves comprise opposing groove walls defining interior surfaces of the grooves extending in the direction of elongation of the grooves and a base wall section extending between the groove walls. 12. The seal structure of claim 11, wherein the seal member comprises upper and lower lip members defined between the top and bottom seal surfaces and respective groove walls, the upper and lower lip members defining an opening to the respective grooves therebetween. 13. The seal structure of claim 12, wherein a gap between ends of the lip members and an adjacent wall of the seal cavity define a narrow passage to diffuse gas flowing into the grooves and effect a reduction of velocity for gas flowing from the high pressure zone toward the low pressure zone. 14. The seal structure of claim 13, wherein the narrow passage comprises a gap of approximately 0.02 inch between the ends of the lip members and the adjacent wall of the seal cavity. 15. The seal structure of claim 13, wherein a distance from the ends of the lip members to the base wall of a respective groove is approximately four times the distance of the gap between ends of the lip members and the adjacent wall of the seal cavity. 16. The seal structure of claim 10, wherein the groove walls of each groove are spaced apart at least approximately 50% of a spacing between the top and bottom seal surfaces. 17. The seal structure of claim 10, wherein the top and bottom seal surfaces comprising substantially smooth planar surfaces. 18. The seal structure of claim 10, wherein the first and second components comprise turbine vane shrouds located adjacent to each other. 19. The seal structure of claim 10, wherein the second direction is generally perpendicular to a direction of the axial gas flow.
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