Patents by Inventor William J. Eadie
William J. Eadie has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10899438Abstract: A fairing system, includes a hub fairing and a fixed fairing, such as a shaft fairing or a pylon fairing, both arranged about a rotation axis. A gap is defined between the hub fairing and the fixed fairing, and a seal assembly is axially interposed between the hub fairing and the fixed fairing. The fixed fairing and the hub fairing are both removably mounted to the seal assembly such that either or both of the fairings can be dismounted from the seal assembly without disturbing the seal assembly to provide access to components disposed within the fairing.Type: GrantFiled: October 7, 2016Date of Patent: January 26, 2021Assignee: Sikorsky Aircraft CorporationInventors: David H. Hunter, Eric L. Nussenblatt, William J. Eadie, Chris P. Butler, Bryan K. Baskin
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Patent number: 10676181Abstract: An aircraft is provided including an airframe, an extending tail, a counter-rotating, coaxial main rotor assembly having an upper rotor assembly and a lower rotor assembly, and a translational thrust system including a propeller positioned at the extending tail. The translational thrust system is configured to provide translational thrust to the airframe when the aircraft is in a non-autorotation state and to generate power when in an autorotation state. A gearbox interconnects the propeller and the main rotor assembly to drive the main rotor assembly and the translational thrust system in the non-autorotation state. When the aircraft is in autorotation, the power generated by the propeller drives rotation of the main rotor assembly via the gearbox.Type: GrantFiled: September 25, 2015Date of Patent: June 9, 2020Assignee: SIKORSKY AIRCRAFT CORPORATIONInventors: Erez Eller, Matthew T. Luszcz, William J. Eadie, Steven D. Weiner
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Patent number: 10640203Abstract: An aircraft includes an airframe having an extending tail, a counter rotating, coaxial main rotor assembly disposed at the airframe including an upper rotor assembly and a lower rotor assembly, and a translational thrust system positioned at the extending tail and providing translational thrust to the airframe, the translational thrust system including a propeller. A gearbox system is operably connected to the main rotor assembly and the propeller to drive rotation of the main rotor assembly and the propeller. The gearbox is configured to maintain a main rotor assembly tip speed below Mach 0.9 and a propeller helical tip speed below Mach 0.88.Type: GrantFiled: October 1, 2015Date of Patent: May 5, 2020Assignee: SIKORSKY AIRCRAFT CORPORATIONInventors: William J. Eadie, Patrick Boyle
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Patent number: 10527123Abstract: An aircraft includes an airframe having an extending tail and a longitudinal axis extending from a nose of the airframe defining a length of the airframe. A counter rotating, coaxial main rotor assembly is located at the airframe and includes an upper rotor assembly and a lower rotor assembly. The upper rotor assembly and the lower rotor assembly rotate about an axis of rotation. The axis of rotation intersects the longitudinal axis forward of a midpoint of the longitudinal axis.Type: GrantFiled: July 14, 2015Date of Patent: January 7, 2020Assignee: SIKORSKY AIRCRAFT CORPInventors: Mark R. Alber, William J. Eadie
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Patent number: 10443674Abstract: A method of controlling noise of an aircraft includes storing a plurality of predefined noise modes; receiving a selection of a selected noise mode from the plurality of predefined noise modes, the selected noise mode identifying at least one operational parameter; and controlling the aircraft in response to the at least one operational parameter.Type: GrantFiled: July 27, 2015Date of Patent: October 15, 2019Assignee: SIKORSKY AIRCRAFT CORPORATIONInventors: Erez Eller, William J. Eadie, Kevin L. Bredenbeck, Steven D. Weiner
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Publication number: 20190017569Abstract: An aircraft includes an airframe having an empennage, a counter rotating, coaxial main rotor assembly located at the airframe including an upper rotor assembly and a lower rotor assembly, and a translational thrust system positioned at the empennage and providing translational thrust to the airframe. At least two control surfaces located at the empennage are independently operable via commands from one or more flight control computers. A method of operating an aircraft includes transmitting a first signal from one or more flight control computers to a first control surface located at a first lateral side of a translational thrust system, and actuating the first control surface to a first position via the first signal. A second signal is transmitted to a second control surface located at a second lateral side opposite the first lateral side, and the second control surface is actuated to a second position via the second signal.Type: ApplicationFiled: June 18, 2018Publication date: January 17, 2019Inventors: Erez Eller, Matthew T. Luszcz, William J. Eadie
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Patent number: 10167079Abstract: An aircraft includes an airframe having an extending tail, a counter rotating, coaxial main rotor assembly disposed at the airframe including an upper rotor assembly and a lower rotor assembly and a translational thrust system positioned at the extending tail and providing translational thrust to the airframe. A flight control computer is configured to control a main rotor rotational speed of the upper and the lower rotor assemblies of the main rotor assembly as a function of airspeed of the aircraft. A method of operating an aircraft includes retrieving a threshold main rotor rotational speed of the dual coaxial main rotor assembly and calculating an actual main rotor rotational speed according to an environment of the aircraft. The actual main rotor rotational speed is maintained to remain at or below the threshold main rotor speed according to an airspeed of the aircraft.Type: GrantFiled: September 29, 2015Date of Patent: January 1, 2019Assignee: SIKORSKY AIRCRAFT CORPORATIONInventors: Steven D. Weiner, William J. Eadie
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Publication number: 20180305003Abstract: A fairing system, includes a hub fairing and a fixed fairing, such as a shaft fairing or a pylon fairing, both arranged about a rotation axis. A gap is defined between the hub fairing and the fixed fairing, and a seal assembly is axially interposed between the hub fairing and the fixed fairing. The fixed fairing and the hub fairing are both removably mounted to the seal assembly such that either or both of the fairings can be dismounted from the seal assembly without disturbing the seal assembly to provide access to components disposed within the fairing.Type: ApplicationFiled: October 7, 2016Publication date: October 25, 2018Inventors: David H. Hunter, Eric L. Nussenblatt, William J. Eadie, Chris P. Butler, Bryan K. Baskin
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Publication number: 20170349275Abstract: An aircraft includes an airframe having an empennage, a counter rotating, coaxial main rotor assembly located at the airframe including an upper rotor assembly and a lower rotor assembly, and a translational thrust system positioned at the empennage and providing translational thrust to the airframe. At least two control surfaces located at the empennage are independently operable via commands from one or more flight control computers. A method of operating an aircraft includes transmitting a first signal from one or more flight control computers to a first control surface located at a first lateral side of a translational thrust system, and actuating the first control surface to a first position via the first signal.Type: ApplicationFiled: September 30, 2015Publication date: December 7, 2017Applicant: Sikorsky Aircraft CorporationInventors: Erez Eller, Matthew T. Luszcz, William J. Eadie
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Publication number: 20170305544Abstract: An aircraft composed of an airframe, an extending tail, a counter rotating, coaxial main rotor assembly including an upper rotor assembly and a lower rotor assembly, and a translational thrust system positioned at the extending tail. The translational thrust system provides translational thrust to the airframe. The aircraft includes a turn radius between about (595) feet and about (2440) feet for an airspeed between about (120) knots and about (210) knots at a constant altitude.Type: ApplicationFiled: September 30, 2015Publication date: October 26, 2017Applicant: Sikorsky Aircraft CorporationInventors: William J. Eadie, Matthew T. Luszcz
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Publication number: 20170305540Abstract: A method of controlling noise of an aircraft includes storing a plurality of predefined noise modes; receiving a selection of a selected noise mode from the plurality of predefined noise modes, the selected noise mode identifying at least one operational parameter; and controlling the aircraft in response to the at least one operational parameter.Type: ApplicationFiled: July 27, 2015Publication date: October 26, 2017Inventors: Erez Eller, William J. Eadie, Kevin L. Bredenbeck, Steven D. Weiner
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Publication number: 20170305539Abstract: An aircraft includes an airframe having an extending tail and a longitudinal axis extending from a nose of the airframe defining a length of the airframe. A counter rotating, coaxial main rotor assembly is located at the airframe and includes an upper rotor assembly and a lower rotor assembly. The upper rotor assembly and the lower rotor assembly rotate about an axis of rotation. The axis of rotation intersects the longitudinal axis forward of a midpoint of the longitudinal axis.Type: ApplicationFiled: July 14, 2015Publication date: October 26, 2017Inventors: Mark R. Alber, William J. Eadie
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Publication number: 20170308101Abstract: An aircraft includes an airframe, an extending tail, a counter rotating, coaxial main rotor assembly including an upper rotor assembly and a lower rotor assembly, a translational thrust system positioned at the extending tail, the translational thrust system providing translational thrust to the air-frame; and a horizontal stabilizer positioned at the extending tail, the horizontal stabilizer having one or more elevators; wherein the aircraft is configured to mix at least two of the main rotor assembly collective pitch, the main rotor assembly cyclic pitch, the elevator deflection, and the translational thrust system thrust to trim the aircraft attitude.Type: ApplicationFiled: September 30, 2015Publication date: October 26, 2017Inventors: Matthew T. Luszcz, William J. Eadie, Erez Eller, Adam Leone
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Publication number: 20170305543Abstract: An aircraft includes an airframe; an extending tail; a counter rotating, coaxial main rotor assembly including an upper rotor assembly and a lower rotor assembly; a translational thrust system positioned at the extending tail, the translational thrust system providing translational thrust to the airframe; an upper hub fairing positioned at the upper rotor assembly; a lower hub fairing positioned at the lower rotor assembly; and a shaft fairing disposed between the upper hub fairing and the lower hub fairing; wherein the upper hub fairing is substantially sealed to the shaft fairing and the lower hub fairing is substantially sealed to the shaft fairing.Type: ApplicationFiled: October 1, 2015Publication date: October 26, 2017Applicant: SIKORSKY AIRCRAFT CORPORATIONInventors: Robert C. Moffitt, William J. Eadie, David H. Hunter, Bryan Kenneth Baskin, Chris Paul Butler, Lance Halcom, Eric Lucien Nussenblatt
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Publication number: 20170297692Abstract: A rotary wing aircraft includes an airframe, one or more engines supported by the airframe, and a plurality of rotor blades operatively connected to the one or more engines. Each of the plurality of rotor blades includes a rotor lift-to-drag (L/De) ratio greater than 9 at airspeeds between about 150 KTAS and about 210 KTAS, and the rotary wing aircraft includes an aircraft lift-to drag (L/D) ratio of greater than about 4 between about 99 KTAS and about 210 KTAS.Type: ApplicationFiled: September 28, 2015Publication date: October 19, 2017Inventors: William J. Eadie, Thomas Alan Egolf
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Publication number: 20170283047Abstract: An aircraft includes an airframe having an extending tail, a counter rotating, coaxial main rotor assembly disposed at the airframe including an upper rotor assembly and a lower rotor assembly and a translational thrust system positioned at the extending tail and providing translational thrust to the airframe. A flight control computer is configured to control a main rotor rotational speed of the upper and the lower rotor assemblies of the main rotor assembly as a function of airspeed of the aircraft. A method of operating an aircraft includes retrieving a threshold main rotor rotational speed of the dual coaxial main rotor assembly and calculating an actual main rotor rotational speed according to an environment of the aircraft. The actual main rotor rotational speed is maintained to remain at or below the threshold main rotor speed according to an airspeed of the aircraft.Type: ApplicationFiled: September 29, 2015Publication date: October 5, 2017Applicant: SIKORSKY AIRCRAFT CORPORATIONInventors: Steven D. Weiner, William J. Eadie
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Publication number: 20170283045Abstract: An aircraft is provided including an airframe, an extending tail, one or more engines supported by the airframe, and a counter rotating, coaxial main rotor assembly including an upper rotor assembly and a lower rotor assembly. A translational thrust system positioned at the extending tail. The translational thrust system providing translational thrust to the airframe. A gearbox configured to transfer power from the engine to the main rotor assembly. A flight control computer to independently control one or more of the engine, the upper rotor assembly, the lower rotor assembly, and the translational thrust system. The flight control computer, in response to at least one control command, engages or disengages the translational thrust system, while maintaining controlled powered flight.Type: ApplicationFiled: September 28, 2015Publication date: October 5, 2017Inventors: Todd A. GARCIA, Erez ELLER, William J. EADIE, David H. HUNTER
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Publication number: 20170275014Abstract: An aircraft includes an airframe having an extending tail, a counter rotating, coaxial main rotor assembly disposed at the airframe including an upper rotor assembly and a lower rotor assembly, and a translational thrust system positioned at the extending tail and providing translational thrust to the airframe, the translational thrust system including a propeller. A gearbox system is operably connected to the main rotor assembly and the propeller to drive rotation of the main rotor assembly and the propeller. The gearbox is configured to maintain a main rotor assembly tip speed below Mach 0.9 and a propeller helical tip speed below Mach 0.88.Type: ApplicationFiled: October 1, 2015Publication date: September 28, 2017Inventors: William J. Eadie, Patrick Boyle
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Publication number: 20170274994Abstract: An aircraft is provided including an airframe, an extending tail, a counter-rotating, coaxial main rotor assembly having an upper rotor assembly and a lower rotor assembly, and a translational thrust system including a propeller positioned at the extending tail. The translational thrust system is configured to provide translational thrust to the airframe when the aircraft is in a non-autorotation state and to generate power when in an autorotation state. A gearbox interconnects the propeller and the main rotor assembly to drive the main rotor assembly and the translational thrust system in the non-autorotation state. When the aircraft is in autorotation, the power generated by the propeller drives rotation of the main rotor assembly via the gearbox.Type: ApplicationFiled: September 25, 2015Publication date: September 28, 2017Inventors: Erez Eller, Matthew T. Luszcz, William J. Eadie, Steven D. Weiner
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Publication number: 20170274990Abstract: An aircraft composed of an airframe, an extending tail, a counter rotating, coaxial main rotor assembly including an upper rotor assembly and a lower rotor assembly, and a translational thrust system positioned at the extending tail. The translational thrust system provides translational thrust to the airframe. The aircraft also includes a rotor hover figure of merit greater than about 0.79 for a CT/? between about 0.085 and about 0.125.Type: ApplicationFiled: September 24, 2015Publication date: September 28, 2017Inventors: William J. EADIE, Thomas Alan EGOLF, Robert C. MOFFITT