An example method of controlling performance of gearbox of a gas turbine engine includes establishing a gear characteristic of a plurality of double helical gears each disposed about a respective axis in a gearbox. Performance of the plurality of double helical gears is controlled by selecting a cir
An example method of controlling performance of gearbox of a gas turbine engine includes establishing a gear characteristic of a plurality of double helical gears each disposed about a respective axis in a gearbox. Performance of the plurality of double helical gears is controlled by selecting a circumferential offset distance between a first plurality of gear teeth spaced apart from a second plurality of gear teeth on each of the plurality of double helical gears in response to the established gear characteristic.
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1. A turbine engine comprising: a fan;a compressor section;a combustor in fluid communication with the compressor section;a turbine section in fluid communication with the combustor; anda gearbox having a plurality of double helical gears in meshed engagement, each of the plurality of double helical
1. A turbine engine comprising: a fan;a compressor section;a combustor in fluid communication with the compressor section;a turbine section in fluid communication with the combustor; anda gearbox having a plurality of double helical gears in meshed engagement, each of the plurality of double helical gears disposed about an axis, each of the plurality of double helical gears having a first plurality of gear teeth axially spaced apart from a second plurality of gear teeth by a circumferential ring, wherein each of the first plurality of gear teeth has a first end facing the circumferential ring and each of the second plurality of gear teeth has a first end facing the circumferential ring, wherein each first end of the first plurality of gear teeth is circumferentially offset from each first end of the second plurality of gear teeth by a predetermined amount in response to a gear characteristic; andthe gearbox including an epicyclic gear system. 2. The turbine engine of claim 1, wherein the plurality of double helical gears are a sun gear, plurality of star gears, and ring gear of the epicyclic gear system. 3. The turbine engine of claim 1, wherein the first plurality of gear teeth and the second plurality of gear teeth about each double helical gear are disposed at a helix angle relative to an axis. 4. The turbine engine of claim 3, wherein the helix angle corresponds to a contact ratio between a first of the plurality of double helical gears and a second of the plurality of double helical gears. 5. A turbine engine comprising: a fan;a compressor section;a combustor in fluid communication with the compressor section;a turbine section in fluid communication with the combustor:a gearbox having a plurality of double helical gears in meshed engagement, each of the plurality of double helical gears disposed about an axis, each of the plurality of double helical gears having a first plurality of gear teeth axially spaced apart from a second plurality of gear teeth by a circumferential ring, wherein each of the first plurality of gear teeth has a first end facing the circumferential ring and each of the second plurality of gear teeth has a first end facing the circumferential ring, wherein each first end of the first plurality of gear teeth is circumferentially offset from each first end of the second plurality of gear teeth by a predetermined amount in response to a gear characteristic;the first plurality of gear teeth and the second plurality of gear teeth about each double helical gear are disposed at a helix angle relative to an axis; andthe helix angle being between about 30-35°. 6. The turbine engine of claim 5, wherein the helix angle is about 33°. 7. A gearbox for a gas turbine engine comprising: a plurality of double helical gears in meshed engagement, each of the plurality of double helical gears disposed about an axis, each of the plurality of double helical gears having a first plurality of gear teeth axially spaced apart from a second plurality of gear teeth by a circumferential ring, wherein each of the first plurality of gear teeth has a first end facing the circumferential ring and each of the second plurality of gear teeth has a first end facing the circumferential ring, wherein each first end of the first plurality of gear teeth is circumferentially offset from each first end of the second plurality of gear teeth by a predetermined amount in response to a gear characteristic;the gear characteristic is a harmonic level; andthe first plurality of gear teeth being offset from the second plurality of gear teeth by the circumferential offset distance of about 15% to about 25% or about 75% to about 85% of a circumferential offset distance between each of the second plurality of teeth, wherein the harmonic level is the second harmonic level. 8. The gearbox of claim 7, wherein the harmonic level is one of the first harmonic level, a second harmonic level, and a third harmonic level. 9. The gearbox of claim 7, wherein the gear characteristic is transmission error. 10. A gearbox for a gas turbine engine comprising; a plurality of double helical gears in meshed engagement, each of the plurality of double helical gears disposed about an axis, each of the plurality of double helical gears having a first plurality of gear teeth axially spaced apart from a second plurality of gear teeth by a circumferential ring, wherein each of the first plurality of gear teeth has a first end facing the circumferential ring and each of the second plurality of gear teeth has a first end facing the circumferential ring, wherein each first end of the first plurality of gear teeth is circumferentially offset from each first end of the second plurality of gear teeth by a predetermined amount in response to a gear characteristic:the gear characteristic being a harmonic level; andthe first plurality of gear teeth being offset from the second plurality of gear teeth by the circumferential offset distance of about 25% to 75% of a circumferential offset distance between each of the second plurality of gear teeth. 11. A gearbox for a gas turbine engine comprising: a plurality of double helical gears in meshed engagement, each of the plurality of double helical gears disposed about an axis, each of the plurality of double helical gears having a first plurality of gear teeth axially spaced apart from a second plurality of gear teeth by a circumferential ring, wherein each of the first plurality of gear teeth has a first end facing the circumferential ring and each of the second plurality of gear teeth has a first end facing the circumferential ring, wherein each first end of the first plurality of gear teeth is circumferentially offset from each first end of the second plurality of gear teeth by a predetermined amount in response to a gear characteristic: anda helix angle between the axis and each of the first plurality of gear teeth and second plurality of gear teeth being between 30° and 35°. 12. The gearbox of claim 11 wherein the helix angle between the axis and each of the first plurality of gear teeth and second plurality of gear teeth is 33°. 13. A gearbox for a gas turbine engine comprising: a plurality of double helical gears in meshed engagement of the plurality of double helical gears disposed about an axis, each of the plurality of double helical gears having a first plurality of gear teeth axially spaced apart from a second plurality of gear teeth by a circumferential ring, wherein each of the first plurality of gear teeth has a first end facing the circumferential ring and each of the second plurality of gear teeth has a first end facing the circumferential ring, wherein each first end of the first plurality of gear teeth is circumferentially offset from each first end of the second plurality of gear teeth by a predetermined amount in response to a gear characteristic;the gear characteristic is a harmonic level;the harmonic level is one of the first harmonic level, a second harmonic level, and a third harmonic level; andthe first plurality of gear teeth being circumferentially offset about 50% from the second plurality of gear teeth to reduce a transmission error in the first harmonic and the third harmonic.
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이 특허에 인용된 특허 (28)
Rouverol William S. (Berkeley CA), Articulated differential crowning.
Fledderjohn Steve R. (Cincinnati OH) Przytulski James C. (Fairfield OH) Elston ; III Sidney B. (Cincinnati OH) Gilchrist Alan R. (Fairfield OH) Hauser Ambrose A. (Wyoming OH), Turbine support assembly including turbine heat shield and bolt retainer assembly.
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