A pitch bearing assembly for a wind turbine having a stiffener is disclosed. The pitch bearing assembly may include an outer race and an inner race rotatable relative to the outer race. The inner race may define a mounting surface and an inner circumference. The mounting surface may extend generally
A pitch bearing assembly for a wind turbine having a stiffener is disclosed. The pitch bearing assembly may include an outer race and an inner race rotatable relative to the outer race. The inner race may define a mounting surface and an inner circumference. The mounting surface may extend generally perpendicular to the inner circumference. In addition, the stiffener may include a body and a mounting flange. The body may extend axially within a volume defined by the inner circumference of the inner race. Further, the mounting flange of the stiffener may be coupled to the mounting surface of the inner race.
대표청구항▼
1. A pitch bearing assembly for a wind turbine, comprising; an outer race;an inner race adjacent to the outer race, the inner race rotatable relative to the outer race via a plurality of roller elements, the inner race defining a mounting surface and an inner circumference, the inner circumference d
1. A pitch bearing assembly for a wind turbine, comprising; an outer race;an inner race adjacent to the outer race, the inner race rotatable relative to the outer race via a plurality of roller elements, the inner race defining a mounting surface and an inner circumference, the inner circumference defining an open volume within the inner race, the mounting surface being disposed outside the volume defined by the inner circumference; anda stiffener including a mounting flange and a body, the mounting flange being coupled to the mounting surface, the body extending axially within a portion of the open volume defined by the inner circumference, the stiffener having an arcuate ring shape that corresponds to the inner circumference of the inner race, the arcuate ring shape of the stiffener defining an open center; wherein the body includes a top portion, a bottom portion, and a web extending between the top and bottom portions; wherein the web extends perpendicularly between the top and bottom portions so as to define an “I” shape. 2. The pitch bearing assembly of claim 1, wherein the mounting surface corresponds to a bottom surface of the inner race. 3. The pitch bearing assembly of claim 1, wherein the mounting flange is formed integrally with the bottom portion. 4. The pitch bearing assembly of claim 1, wherein the top portion is configured to contact an inner surface of the inner race. 5. The pitch bearing assembly of claim 1, wherein a plurality of gear teeth are formed around the inner circumference of the inner race, the web being spaced apart radially from the gear teeth. 6. The pitch bearing assembly of claim 1, wherein the stiffener is formed from a plurality of stiffener segments, the stiffener segments configured to be coupled to one another around the inner circumference of the inner race. 7. The pitch bearing assembly of claim 6, further comprising a connector segment extending between a first end and a second end, the first end being configured to be coupled to one of the plurality of stiffener segments and the second end being configured to be coupled to another of the plurality of stiffener segments. 8. The pitch bearing assembly of claim 7, wherein the connector segment defines an open volume between the first and second ends configured to receive a pitch drive pinion of the wind turbine. 9. The pitch bearing assembly of claim 1, wherein the stiffener forms a ring around the inner circumference of the inner race. 10. The pitch bearing assembly of claim 1, wherein the mounting surface extends generally perpendicular to the inner circumference of the inner race. 11. A pitch bearing assembly for a wind turbine, comprising: an outer race;an inner race adjacent to the outer race, the inner race rotatable relative to the outer race via a plurality of roller elements, the inner race defining a mounting surface and an inner circumference, the inner circumference comprising a plurality of gear teeth and defining an open volume within the inner race, the mounting surface being disposed outside the volume defined by the inner circumference; anda stiffener including a plurality of arcuate stiffener segments extending circumferentially around the inner circumference, each stiffener segment including a body and a mounting flange, the mounting flanges being coupled to the mounting surface, each body extending axially within a portion of the open volume defined by the inner circumference, the stiffener further comprising a connector segment coupled between two of the plurality of stiffener segments, the connector segment a first end, a second end, and a connector portion therebetween, the connector portion disposed axially above the gear teeth so as to define an open volume below the connector portion. 12. A wind turbine, comprising a hub;a rotor blade extending from the hub; anda pitch bearing assembly coupled between the hub and the rotor blade, the pitch bearing assembly comprising: an outer race;an inner race adjacent to the outer race, the inner ace rotatable relative to the outer race via a plurality of roller elements, the inner race defining a mounting surface and an inner circumference, the inner circumference defining an open volume within the inner race, the mounting surface being disposed outside the volume defined by the inner circumference; anda stiffener including a mounting flange and a body, the mounting flange being coupled to the mounting surface, the body extending axially within at least a portion of the open volume defined by the inner circumference, the stiffener having an arcuate ring shape that corresponds to the inner circumference of the inner race, the arcuate ring shape of the stiffener defining an open center; wherein the body includes a top portion, a bottom portion, and a web extending between the top and bottom portions; wherein the web extends perpendicularly between the top and bottom portions so as to define an “I” shape. 13. The wind turbine of claim 12, wherein the mounting surface corresponds to a bottom surface of the inner race. 14. The wind turbine of claim 12, wherein the body portion includes a top portion, a bottom portion and a web extending between the top and bottom portions. 15. The pitch bearing assembly of claim 14, wherein the top portion is configured to contact an inner surface of the inner race. 16. The pitch bearing assembly of claim 14, wherein a plurality of gear teeth are formed around the inner circumference of the inner race, the web being spaced apart radially from the gear teeth. 17. The pitch bearing assembly of claim 12, wherein the stiffener is formed from a plurality of stiffener segments, the stiffener segments configured to be coupled to one another around the inner circumference of the inner race. 18. The pitch bearing assembly of claim 17, further comprising a connector segment extending between a first end a second end, and a connector segment extending therebetween, the first end being configured to be coupled to one of the plurality of stiffener segments and the second end being configured to be coupled to another of the plurality of stiffener segments, the connector portion disposed axially above the gear teeth so as to define an open volume below the connector portion.
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이 특허에 인용된 특허 (6)
Lindholst, Peter; Neubauer, Jesper Lykkegaard; Mølgaard Jeppesen, Ole; Baun, Torben Friis, Blade bearing with support structure having non-uniform stiffness and method manufacture.
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