Stall margin enhancement of axial fan with rotating shroud
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F04D-027/02
F04D-029/52
F04D-029/16
F04D-029/68
F04D-029/32
출원번호
US-0849980
(2013-03-25)
등록번호
US-9885368
(2018-02-06)
발명자
/ 주소
Dygert, Ryan K.
Bushnell, Peter R.
출원인 / 주소
CARRIER CORPORATION
대리인 / 주소
Cantor Colburn LLP
인용정보
피인용 횟수 :
1인용 특허 :
35
초록▼
A fan assembly includes a shrouded fan rotor having fan blades extending from a hub and rotatable about a central axis. A fan shroud extends circumferentially around the fan rotor and secured to the fan blades. The shroud includes a first axially extending annular portion secured to the fan blades,
A fan assembly includes a shrouded fan rotor having fan blades extending from a hub and rotatable about a central axis. A fan shroud extends circumferentially around the fan rotor and secured to the fan blades. The shroud includes a first axially extending annular portion secured to the fan blades, a second axially extending annular portion radially outwardly spaced from the first axially extending annular portion, and a third portion connecting the first and second axially extending annular portions. A casing is located circumferentially around the fan shroud defining a radial clearance between the casing and the fan shroud, and includes casing wedges extending from a radially inboard surface of the casing toward the shroud and defining a radial wedge gap between a first wedge surface and the shroud and an axial wedge gap between a second wedge surface and an upstream end of the fan shroud.
대표청구항▼
1. A fan assembly comprising: a shrouded fan rotor including: a plurality of fan blades rotatable about a central axis of the fan assembly; anda fan shroud extending circumferentially around the fan rotor and secured to the plurality of fan blades, the shroud having an S-shaped cross-section along a
1. A fan assembly comprising: a shrouded fan rotor including: a plurality of fan blades rotatable about a central axis of the fan assembly; anda fan shroud extending circumferentially around the fan rotor and secured to the plurality of fan blades, the shroud having an S-shaped cross-section along an axial direction; anda casing disposed circumferentially around the fan shroud defining a radial clearance between the casing and the fan shroud, the casing including a plurality of casing wedges extending from a radially inboard surface of the casing toward the shroud, each casing wedge including a first wedge surface and a second wedge surface defining a radial wedge gap between the first wedge surface and a maximum radius point of the shroud and an axial wedge gap between the second wedge surface and an upstream end of the fan shroud, wherein the second wedge surface is disposed upstream of the upstream end of the fan shroud, wherein circumferentially adjacent casing wedges of the plurality of casing wedges are circumferentially spaced by an opening width. 2. The fan assembly of claim 1, wherein the second wedge surface is coincident with a forward surface of the casing such that the axial wedge gap is defined between a forward casing surface and an upstream end of the fan shroud. 3. The fan assembly of claim 1, wherein the plurality of casing wedges are formed integral with the casing. 4. The fan assembly of claim 1, wherein a ratio of casing wedge width in a circumferential direction to the opening width between adjacent casing wedges is between 0.05 and 2. 5. The fan assembly of claim 1, wherein a ratio of casing wedge width in a circumferential direction to a circumference of the fan shroud is between 0.002 and 0.2. 6. The fan assembly of claim 1, wherein the plurality of casing wedges is not a multiple of the plurality of fan blades. 7. The fan assembly of claim 1, wherein a radial distance of the first wedge surface from an inner casing surface is between one and twenty times the radial wedge gap. 8. The fan assembly of claim 7, wherein the radial distance varies along an axial casing wedge length. 9. The fan assembly of claim 1, wherein an axial distance of the second wedge surface from an upstream end of the casing is between one and twenty times an axial clearance between the fan shroud and the casing. 10. The fan assembly of claim 9, wherein the axial distance varies along a radial direction. 11. The fan assembly of claim 1, wherein an axial casing wedge length is between 25% and 100% of an axial casing length. 12. The fan assembly of claim 1, wherein each of the plurality of casing wedges includes a first radial wedge side and a second radial wedge side extending from an upstream end of the casing. 13. The fan assembly of claim 12, wherein the first radial wedge side of a casing wedge of the plurality of casing wedges and the second radial wedge side of the same casing wedge of the plurality of casing wedges form angles with tangents of a casing inner surface between 30 and 150 degrees. 14. The fan assembly of claim 12, wherein the first radial wedge side of a casing wedge of the plurality of casing wedges and the second radial wedge side of the same casing wedge of the plurality of casing wedges are planar. 15. The fan assembly of claim 12, wherein the first radial wedge side of a casing wedge of the plurality of casing wedges and the second radial wedge of the same casing wedge of the plurality of casing wedges side form angles with the first casing end between 90 and 150 degrees. 16. A casing for an axial flow fan comprising: a casing inner surface extending circumferentially around a central axis of the fan; anda plurality of casing wedges extending radially inwardly from the casing inner surface, each of the plurality of casing wedges including: a first wedge surface defining a radial wedge gap between the first wedge surface and a fan rotor; anda second wedge surface defining an axial wedge gap between the second wedge surface and an upstream end of the fan rotor, wherein the second wedge surface is disposed upstream of the upstream end of the fan rotor;wherein circumferentially adjacent casing wedges of the plurality of casing wedges are circumferentially spaced by an opening width. 17. The casing of claim 16, wherein the second wedge surface of a casing wedge of the plurality of casing wedges is coincident with a forward surface of the casing such that the axial wedge gap exists between the forward casing surface and an upstream end of the fan shroud. 18. The casing of claim 16, wherein the plurality of casing wedges are formed integral with the casing. 19. The casing of claim 16, wherein a ratio of casing wedge width in a circumferential direction to the opening width between adjacent casing wedges is between 0.05 and 2. 20. The casing of claim 16, wherein a radial distance of the first wedge surface of a casing wedge of the plurality of casing wedges from an inner casing surface is between one and twenty times the radial wedge gap. 21. The casing of claim 20, wherein the radial distance varies along an axial casing wedge length. 22. The casing of claim 16, wherein an axial distance of the second wedge surface of a casing wedge of the plurality of casing wedges from an upstream end of the casing is between one and twenty times an axial clearance between the fan shroud and the casing. 23. The casing of claim 22, wherein the axial distance varies along a radial direction. 24. The casing of claim 16, wherein an axial casing wedge length is between 25% and 100% of an axial casing length. 25. The casing of claim 16, wherein each casing wedge includes a first radial wedge side and a second radial wedge side extending from an upstream end of the casing. 26. The casing of claim 25, wherein the first radial wedge side of a casing wedge of the plurality of casing wedges and the second radial wedge side of the same casing wedge of the plurality of casing wedges form angles with tangents of a casing inner surface between 30 and 150 degrees. 27. The casing of claim 25, wherein the first radial wedge side of a casing wedge of the plurality of casing wedges and the second radial wedge side of the same casing wedge of the plurality of casing wedges are planar. 28. The casing of claim 25, wherein the first radial wedge side of a casing wedge of the plurality of casing wedges and the second radial wedge side of the same casing wedge of the plurality of casing wedges form angles with the first casing end between 90 and 150 degrees. 29. A fan assembly comprising: a shrouded fan rotor including: a plurality of fan blades extending from a rotor hub and rotatable about a central axis of the fan assembly; anda fan shroud extending circumferentially around the fan rotor and secured to the plurality of fan blades, the shroud having: a first axially extending annular portion secured to the plurality of fan blades;a second axially extending annular portion radially outwardly spaced from the first axially extending annular portion; anda third portion connecting the first and second axially extending annular portions; anda casing disposed circumferentially around the fan shroud defining a radial clearance between the casing and the fan shroud, the casing including a plurality of casing wedges extending from a radially inboard surface of the casing toward the shroud, each casing wedge including a first wedge surface and a second wedge surface and defining a radial wedge gap between the first wedge surface and a maximum radius point of the shroud and an axial wedge gap between the second wedge surface and an upstream end of the fan shroud, wherein the second wedge surface is disposed upstream of the upstream end of the fan shroud, wherein circumferentially adjacent casing wedges of the plurality of casing wedges are circumferentially spaced by an opening width. 30. The fan assembly of claim 29, wherein the fan shroud has one of an S-shaped cross-section, a J-shaped cross-section, or a T-shaped cross-section. 31. The fan assembly of claim 29, wherein the second wedge surface is coincident with a forward surface of the casing such that the axial wedge gap exists between a forward casing surface and an upstream end of the fan shroud. 32. The fan assembly of claim 29, wherein the plurality of casing wedges are formed integral with the casing. 33. The fan assembly of claim 29, wherein a ratio of casing wedge width in a circumferential direction to the opening width between adjacent casing wedges is between 0.05 and 2. 34. The fan assembly of claim 29, wherein a ratio of casing wedge width in a circumferential direction to a circumference of the fan shroud is between 0.002 and 0.2. 35. The fan assembly of claim 29, wherein each of the plurality of casing wedges includes a first radial wedge side and a second radial wedge side extending from an upstream end of the casing. 36. The fan assembly of claim 35, wherein the first radial wedge side of a casing wedge of the plurality of casing wedges and the second radial wedge side of the same casing wedge of the plurality of casing wedges form angles with tangents of a casing inner surface between 30 and 150 degrees. 37. The fan assembly of claim 35, wherein the first radial wedge side of a casing wedge of the plurality of casing wedges and the second radial wedge side of the same casing wedge of the plurality of casing wedges are planar. 38. The fan assembly of claim 35, wherein the first radial wedge side of a casing wedge of the plurality of casing wedges and the second radial wedge side of the same casing wedge of the plurality of casing wedges form angles with the first casing end between 90 and 150 degrees.
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