Axial turbomachine blade with platforms having an angular profile
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-025/02
F01D-025/14
F02C-007/047
출원번호
US-0098395
(2013-12-05)
등록번호
US-9869203
(2018-01-16)
우선권정보
EP-12195999 (2012-12-07)
발명자
/ 주소
Thise, Frederick
출원인 / 주소
SAFRAN AERO BOOSTERS SA
대리인 / 주소
Walton, James E.
인용정보
피인용 횟수 :
0인용 특허 :
3
초록▼
The present application relates to a splitter nose of an axial turbomachine designed to separate an annular flow into the turbomachine into a primary flow and a secondary flow for undergoing a thermodynamic cycle. The nose includes a de-icing device with a wall defining, at least partially, an annul
The present application relates to a splitter nose of an axial turbomachine designed to separate an annular flow into the turbomachine into a primary flow and a secondary flow for undergoing a thermodynamic cycle. The nose includes a de-icing device with a wall defining, at least partially, an annular channel. A hot oil stream created by the turbomachine circulates in this latter. The oil runs through the circular nose and de-ices it while itself getting cooled. The wall is located so as to form the leading edge of the said splitter nose. The wall is an open or closed strip such as a tube which can be fixed by bonding, welding or recessing. The present application also relates to a multi-flow turbomachine with splitter noses fitted with de-icing devices.
대표청구항▼
1. A splitter nose of an axial turbomachine for separating an annular flow into a turbomachine into a primary flow and a secondary flow, the splitter nose comprising: an annular leading edge:guide walls for the primary and secondary flows, extending from the leading edge; anda leading edge de-icing
1. A splitter nose of an axial turbomachine for separating an annular flow into a turbomachine into a primary flow and a secondary flow, the splitter nose comprising: an annular leading edge:guide walls for the primary and secondary flows, extending from the leading edge; anda leading edge de-icing channel extending annularly along the leading edge, the channel being configured to conduct a fluid;wherein the channel includes a wall forming the leading edge;wherein a cross-section of the wall of the de-icing channel has a closed contour; andwherein the wall of the de-icing channel is partially housed in a recess formed on the guide walls for the primary and secondary flows. 2. The splitter nose in accordance with claim 1, wherein the closed contour has a circular or elliptical profile, the major axis of the ellipse being tilted upstream and the centre of the turbomachine relative to the main axis of the splitter nose, the inclination being between 5° and 30°. 3. The splitter nose in accordance with claim 1, wherein the wall of the de-icing channel has a variable thickness, the thickness being reduced at an upstream part of the channel. 4. The splitter nose in accordance with claim 1, wherein, the recessing is discontinuous along the annular profile of the leading edge. 5. The splitter nose in accordance with claim 1, further comprising: an intermediate part located between the leading edge and the guide walls of the primary and secondary flows, the intermediate part including an insulating material. 6. The splitter nose in accordance with claim 1, wherein the contour of the cross section of the wall of the de-icing channel comprises: a part with a radius of curvature less than 10.00 mm forming the said part forming an upstream end of the leading edge. 7. The splitter nose in accordance with claim 1, wherein the contour of the cross section of the wall of the de-icing channel comprises: a part with a radius of curvature less than 5.00 mm forming the said part forming an upstream end of the leading edge. 8. The splitter nose in accordance with claim 1, wherein the contour of the cross section of the wall of the de-icing channel comprises: a part with a radius of curvature less than 2.00 mm forming the said part forming an upstream end of the leading edge. 9. The splitter nose in accordance with claim 1, wherein the contour of the cross section of the wall of the de-icing channel comprises: a part with a radius of curvature less than 1.00 mm forming the said part forming an upstream end of the leading edge. 10. The splitter nose in accordance with claim 1, wherein the channel is segmented and comprises: at least two segments each passing substantially through half of the annular profile of the leading edge. 11. The splitter nose in accordance with claim 1, wherein the guide wall of the secondary flow forms a body of revolution of the splitter nose, the guide wall of the primary flow forming an external wall of a bladed stator. 12. The splitter nose in accordance with claim 11, further comprising: fastening strips made of metal, located against the wall of the de-icing channel and the guide walls of the primary and secondary flows. 13. A compressor of an axial turbomachine comprising: a splitter nose configured to separate an annular flow entering the turbomachine into a primary flow and a secondary flow, the splitter nose comprising: an annular leading edge:guide walls for the primary and secondary flows, extending from the leading edge; anda leading edge de-icing channel extending annularly along the leading edge, the channel being configured to conduct a fluid;wherein the channel includes a wall forming the leading edge;wherein a cross-section of the wall of the de-icing channel has a closed contour; andwherein the wall of the de-icing channel is partially housed in a recess formed on the guide walls for the primary and secondary flows. 14. An axial turbomachine comprising: an inlet fan; anda compressor following the inlet fan, the compressor comprising: a splitter nose configured to separate an annular flow entering the turbomachine into a primary flow and a secondary flow, the splitter nose comprising:an annular leading edge:guide walls for the primary and secondary flows, extending from the leading edge; anda leading edge de-icing channel extending annularly along the leading edge, the channel being configured to conduct a fluid;wherein the channel includes a wall forming the leading edge;wherein a cross-section of the wall of the de-icing channel has a closed contour; andwherein the wall of the de-icing channel is partially housed in a recess formed on the guide walls for the primary and secondary flows.
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이 특허에 인용된 특허 (3)
Easley Sydney E. (Indianapolis IN) Heathco Craig E. (Indianapolis IN) Smith Clayton L. (Brownsburg IN), Inlet particle separator with anti-icing means.
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