Blade retention at a compressor rectifier stage for impact resistance
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0644101
(2009-12-22)
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등록번호 |
US-8764392
(2014-07-01)
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우선권정보 |
EP-08172916 (2008-12-24) |
발명자
/ 주소 |
- Penalver Castro, Enrique
- Culot, Yves
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
2 |
초록
▼
A rectifier stage of an axial turbine engine compressor is placed directly downstream of the input blower of a turbo-reactor or turboshaft engine compressor. The blade roots of the rectifier stage are housed inside the inner shroud by insertion into respective slots. The blade roots include at least
A rectifier stage of an axial turbine engine compressor is placed directly downstream of the input blower of a turbo-reactor or turboshaft engine compressor. The blade roots of the rectifier stage are housed inside the inner shroud by insertion into respective slots. The blade roots include at least one opening protruding from the slot of the shroud, so as to receive a spiral ring having at least two loops so as to prevent the blade roots from escaping from the respective slots of the inner shroud, and so as to form a connection between the blade roots. A method for retaining blades of a rectifier stage of an axial turbine engine compressor on an inner shroud, in particular a rectifier stage placed directly downstream of the input blower of a turbo-reactor or turboshaft engine compressor, includes positioning a spiral ring having at least two loops inside the openings of the blade roots by threading one end of the ring successively into the openings until all of the spirals of the ring are housed inside the openings.
대표청구항
▼
1. A rectifier stage of an axial turbine engine compressor, comprising: an outer shroud and an inner shroud, both being concentric;a series of blades arranged radially and fastened at tips thereof to the outer shroud;a series of cutouts arranged about the inner shroud, each cutout being configured s
1. A rectifier stage of an axial turbine engine compressor, comprising: an outer shroud and an inner shroud, both being concentric;a series of blades arranged radially and fastened at tips thereof to the outer shroud;a series of cutouts arranged about the inner shroud, each cutout being configured such that a root of a corresponding blade protrudes through the inner shroud from the outer side of the inner shroud to the inner side of the inner shroud;at least one opening located at the root of each blade, each opening being on the inner side of the inner shroud; anda spiral ring having at least one overlapping loop, the spiral ring passing through the openings of each blade so as to prevent the root of each blade from escaping from the respective cutout of the inner shroud, and so as to form a connection between the blade roots; andwherein the diameter of the ring when non-operational is slightly smaller than the diameter of the virtual circle going passing through the openings, such that the ring is tensioned when in place and pulls all the blades equally towards a middle of the inner shroud. 2. The rectifier stage according to claim 1, wherein the loops of the ring touch when the ring is not operational. 3. The rectifier stage according to claim 1, wherein the loops of the ring are compressed against each other when the ring is not operational. 4. The rectifier stage according to claim 1, wherein the ring is made of metallic material. 5. The rectifier stage according to claim 4, wherein the ring is made of spring steel. 6. The rectifier stage according to claim 1, wherein the loops of the ring describe at least two full turns. 7. The rectifier stage according to claim 1, wherein the diameter of the ring is between about 92% and about 98% of the diameter of the circle passing through the openings. 8. The rectifier stage according to claim 1, wherein each blade root comprises: two rows of spaced-apart openings, each row of openings being configured to receive a respective spiral ring. 9. The rectifier stage according to claim 1, wherein the openings of the blade roots are circular. 10. An axial compressor, comprising: a blower at the compressor front;a rectifier stage directly downstream of the blower, the rectifier stage comprising:an outer shroud;an inner shroud concentric with the outer shroud;a series of blades arranged radially and fastened at tips thereof to the outer shroud;a series of cutouts arranged about the inner shroud, each cutout being configured such that a root of a corresponding blade protrudes through the inner shroud from the outer side of the inner shroud to the inner side of the inner shroud;at least one opening located at the root of each blade, each opening being on the inner side of the inner shroud; anda spiral ring having at least one overlapping loop, the spiral ring passing through the openings of each blade so as to prevent the root of each blade from escaping from the respective cutout of the inner shroud, and so as to form a connection between the blade roots; andwherein the diameter of the ring when non-operational is slightly smaller than the diameter of the virtual circle going passing through the openings, such that the ring is tensioned when in place and pulls all the blades equally towards a middle of the inner shroud. 11. The axial compressor according to claim 10, wherein the diameter of the ring is between about 92% and about 98% of the diameter of the circle passing through the openings. 12. The axial compressor according to claim 10, wherein each blade root comprises: two rows of spaced-apart openings, each row of openings being configured to receive a respective ring. 13. A method for fastening blades of a rectifier stage of an axial turbine engine compressor to an inner shroud, comprising: providing blades the roots of which each comprise at least one opening for receiving a blocking means;inserting the root of each blade into a corresponding cutout of the inner shroud so that the opening is protruding from the inner side of the shroud; andpositioning a spiral ring having at least two loops inside the opening of each blade root by threading one end of the ring successively into the openings until all of the loops of the ring are housed inside the openings;wherein the diameter of the ring when non-operational is slightly smaller than the diameter of the virtual circle going passing through the openings, such that the ring is tensioned when in place and pulls all the blades equally towards a middle of the inner shroud. 14. The method according to claim 13, further comprising: fastening the blade tips to an outer shroud. 15. The method according to claim 13, wherein the diameter of the non-operational ring is between about 92% and about 98% of the diameter of the circle passing through the openings of the blade roots, such that the ring is tensioned when in place.
이 특허에 인용된 특허 (2)
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Bos, Mathieu, Guide vane stage of a compressor.
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Humhauser Werner (Moosburg DEX), Stator for turbomachines.
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