Variable area turbine nozzle with a position selector
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01D-017/04
F01D-017/16
출원번호
US-0660849
(2012-10-25)
등록번호
US-9303524
(2016-04-05)
발명자
/ 주소
Hensley, John James
Stang, Ulrich Edmund
출원인 / 주소
Solar Turbines Incorporated
대리인 / 주소
Procopio, Cory, Hargreaves & Savitch LLP
인용정보
피인용 횟수 :
0인용 특허 :
5
초록▼
A gas turbine engine (100) variable nozzle (460) includes an outer shroud (461), an inner shroud (462), a variable nozzle airfoil (463), and a position selector (470). The inner shroud (462) is located radially inward from the outer shroud (461). The variable nozzle airfoil (463) extends radially be
A gas turbine engine (100) variable nozzle (460) includes an outer shroud (461), an inner shroud (462), a variable nozzle airfoil (463), and a position selector (470). The inner shroud (462) is located radially inward from the outer shroud (461). The variable nozzle airfoil (463) extends radially between the outer shroud (461) and the inner shroud (462). The variable nozzle airfoil (463) includes a vane shaft (464) extending radially outward from the variable nozzle airfoil (463) through the outer shroud (461). The position selector (470) is coupled with the variable nozzle airfoil (463) to fixedly lock the variable nozzle airfoil (463) into one of a plurality of preselected positions.
대표청구항▼
1. A gas turbine engine variable nozzle, comprising: an outer shroud;an inner shroud located radially inward from the outer shroud;a variable nozzle airfoil extending radially between the outer shroud and the inner shroud, the variable nozzle airfoil including a vane shaft extending radially outward
1. A gas turbine engine variable nozzle, comprising: an outer shroud;an inner shroud located radially inward from the outer shroud;a variable nozzle airfoil extending radially between the outer shroud and the inner shroud, the variable nozzle airfoil including a vane shaft extending radially outward from the variable nozzle airfoil through the outer shroud; anda position selector coupled with the variable nozzle airfoil to fixedly lock the variable nozzle airfoil into one of a plurality of preselected positions, the position selector including a plate like shape including a forward edge,an aft edge located opposite the forward edge,a first alignment edge extending between the forward edge and the aft edge,a second alignment edge located opposite the first alignment edge, wherein the first alignment edge and the second alignment edge are parallel, anda plurality of clocking positions configured for predetermined variable nozzle airfoil positions. 2. The variable nozzle of claim 1, wherein wherein the position selector is keyed to the vane shaft to prevent relative angular displacement between the position selector and the vane shaft. 3. The variable nozzle of claim 1, wherein each of the plurality of clocking positions is a through hole. 4. The variable nozzle of claim 1, wherein each of the plurality of clocking positions is a notch or a slot. 5. The variable nozzle of claim 1, wherein the position selector is configured with a dowel hole extending from a bottom of the position selector. 6. The variable nozzle of claim 5, wherein the dowel hole is a blind hole. 7. The variable nozzle of claim 1, wherein the position selector includes a selector bolt configured to be inserted into any of the plurality of clocking positions. 8. The variable nozzle of claim 1, wherein the plurality of clocking positions include a cold position, a standard position, and a hot position, wherein the cold position, standard position, and hot position are each configured for different gas turbine engine operations. 9. The variable nozzle of claim 1, wherein the vane shaft extends within the variable nozzle airfoil. 10. The variable nozzle of claim 1, wherein the vane shaft is angled between five and fifteen degrees in an axial direction with a radially outer portion of the vane shaft leaned in a forward direction. 11. A gas turbine engine including a plurality of the variable nozzles of claim 1, wherein the plurality of the variable nozzles form a variable nozzle stage. 12. A gas turbine engine variable nozzle assembly including a plurality of the variable nozzles of claim 1, wherein the variable nozzle assembly further includes: a variable outer housing located radially outward from the plurality of variable nozzles, the variable outer housing having a plurality of holes, wherein each hole is configured to align with one of the clocking positions of the variable nozzle position selectors for a predetermined variable nozzle airfoil position;an inter turbine duct axially preceding the variable nozzles, the inter turbine duct having an outer wall, andan inner wall located radially inward from the outer wall,wherein the outer wall and the inner wall are configured to diverge as the inter turbine duct extends towards the variable nozzles. 13. A gas turbine engine, comprising: a plurality of variable nozzles, each variable nozzle having an outer shroud; an inner shroud located radially inward from the outer shroud;a variable nozzle airfoil extending radially between the outer shroud and the inner shroud, the variable nozzle airfoil including a vane shaft extending radially outward from the variable nozzle airfoil through the outer shroud; anda position selector with a plate like shape coupled with the variable nozzle airfoil to fixedly lock the variable nozzle airfoil into one of a plurality of preselected positions, the position selector including a forward edge located axially forward,an aft edge located axially aft,a first alignment edge located on a side of the position selector,a second alignment edge located on a side of the position selector opposite to the first alignment edge, wherein the first alignment edge and the second alignment edge are parallel, anda plurality of clocking positions configured for predeterminedvariable nozzle airfoil positions;a variable outer housing located radially outward from the plurality of variable nozzles;an inter turbine duct axially preceding the variable nozzles, the inter turbine duct having an outer wall, andan inner wall located radially inward from the outer wall,wherein the outer wall and the inner wall are configured to diverge as the inter turbine duct extends towards the variable nozzles. 14. The gas turbine engine of claim 13, wherein the position selector is keyed to the vane shaft to prevent relative angular displacement between the position selector and the vane shaft. 15. The gas turbine engine of claim 13, wherein the variable outer housing includes a plurality of holes, wherein each hole is configured to align with one of the clocking positions of the variable nozzle position selectors for a predetermined variable nozzle airfoil position and the position selector includes a selector bolt configured to be inserted through any of the plurality of clocking positions and into one of the plurality of holes. 16. The gas turbine engine variable nozzle assembly of claim 15, wherein a first angle between a first clocking position and a second clocking position, and a second angle between a first hole and a second hole is different, and wherein the difference between the first angle and the second angle determines the amount of rotation of the variable nozzle airfoil when switching from a first variable nozzle airfoil position to a second variable nozzle airfoil position. 17. A gas turbine engine variable nozzle, comprising: an outer shroud including a first spherical surface, the first spherical surface being a radially inner surface of the outer shroud, wherein the first spherical surface is the shape of a circumferential portion of a spherical zone;an inner shroud located radially inward from the outer shroud, the inner shroud including a second spherical surface opposite the first spherical surface, the second spherical surface being a radially outer surface of the inner shroud, wherein the second spherical surface is the shape of a circumferential portion of a spherical zone;a variable nozzle airfoil extending radially between the first spherical surface and the second spherical surface, the variable nozzle airfoil including an outer edge adjacent to the first spherical surface, the outer edge having a curve which matches the contour of the first spherical surface, andan inner edge adjacent to the second spherical surface, the inner edge having a curve which matches the contour of the second spherical surface; anda position selector coupled with the variable nozzle airfoil to fixedly lock the variable nozzle airfoil into one of a plurality of preselected positions the position selector including a plate like shape including a forward edge,an aft edge located opposite the forward edge,a first alignment edge located on a side of the position selector between the forward edge and the aft edge,a second alignment edge located on a side of the position selector opposite the first alignment edge, wherein the first alignment edge and the second alignment edge are parallel, anda plurality of clocking positions configured for predetermined variable nozzle airfoil positions. 18. The variable nozzle of claim 17, wherein the position selector includes a selector bolt configured to be inserted into any of the plurality of clocking positions. 19. A gas turbine engine variable nozzle assembly including a plurality of the variable nozzles of claim 17, wherein the variable nozzle assembly further includes: a variable outer housing located radially outward from the plurality of variable nozzles, the variable outer housing having a plurality of holes, wherein each hole is configured to align with one of the clocking positions of the variable nozzle position selectors for a predetermined variable nozzle airfoil position; andan inter turbine duct axially preceding the variable nozzles, the inter turbine duct having an outer wall, andan inner wall located radially inward from the outer wall,wherein the outer wall and the inner wall are configured to diverge as the inter turbine duct extends towards the variable nozzles. 20. The gas turbine engine variable nozzle assembly of claim 19, wherein a first angle between a first clocking position and a second clocking position, and a second angle between a first hole and a second hole is different, and wherein the difference between the first angle and the second angle determines the amount of rotation of the variable nozzle airfoil when switching from a first variable nozzle airfoil position to a second variable nozzle airfoil position.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (5)
Stevens Wallace Gene (Dunlap IL) Karstensen Karl Wilfred (Peoria IL), Actuating mechanism for gas turbine engine nozzles.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.