5 patents
Utility
System defining a hybrid power unit for thrust generation in an aerial vehicle and method for controlling the same
2 Jan 24
One variation of a system for generating thrust at an aerial vehicle includes: a primary electric motor; a rotor coupled to the motor; an internal-combustion engine; a clutch interposed between the motor and an output shaft of the internal-combustion engine; an engine shroud defining a shroud inlet between the rotor and the internal-combustion engine, extending over the internal-combustion engine, and defining a shroud outlet opposite the rotor; a cooling fan coupled and configured to displace air through the engine shroud; and a local controller configured to receive a rotor speed command specifying a target rotor speed, adjust a throttle setpoint of the internal-combustion engine according to the target rotor speed and a state of charge of a battery in the aerial vehicle, and drive the primary electric motor to selectively output torque to the rotor and to regeneratively brake the rotor according to the target rotor speed.
Joshua Resnick, David Adams, Robert Hulter, Seth McGann, Brian Eiseman
Filed: 27 Dec 21
Utility
Power Module and Clutch Mechanism for Unmanned Aircraft Systems
16 Nov 23
One variation of a system for generating thrust at an aerial vehicle includes: a primary electric motor; a rotor coupled to the motor; an internal-combustion engine; a disengagement mechanism interposed between the motor and an output shaft of the internal-combustion engine; an cooling shroud defining a shroud inlet between the rotor and the internal-combustion engine, extending over the internal-combustion engine, and defining a cooling shroud outlet opposite the rotor; a cooling fan coupled and configured to displace air through the cooling shroud; and a local controller configured to receive a rotor speed command specifying a target rotor speed, adjust a throttle setpoint of the internal-combustion engine according to the target rotor speed and a state of charge of a battery in the aerial vehicle, and drive the primary electric motor to selectively output torque to the rotor and to regeneratively brake the rotor according to the target rotor speed.
Joshua Alan Resnick, Robert Hulter, David Adams
Filed: 11 May 22
Utility
Method and Apparatus for Lifting a Payload
23 Jun 22
A method and apparatus for lifting a payload wherein a first mechanical-rotor is driven by an internal combustion engine.
Joshua Alan Resnick
Filed: 11 Mar 22
Utility
System defining a hybrid power unit for thrust generation in an aerial vehicle and method for controlling the same
19 Oct 21
One variation of a system for generating thrust at an aerial vehicle includes: a primary electric motor; a rotor coupled to the motor; an internal-combustion engine; a clutch interposed between the motor and an output shaft of the internal-combustion engine; an engine shroud defining a shroud inlet between the rotor and the internal-combustion engine, extending over the internal-combustion engine, and defining a shroud outlet opposite the rotor; a cooling fan coupled and configured to displace air through the engine shroud; and a local controller configured to receive a rotor speed command specifying a target rotor speed, adjust a throttle setpoint of the internal-combustion engine according to the target rotor speed and a state of charge of a battery in the aerial vehicle, and drive the primary electric motor to selectively output torque to the rotor and to regeneratively brake the rotor according to the target rotor speed.
Joshua Resnick, David Adams, Robert Hulter, Seth McGann, Brian Eiseman
Filed: 28 Dec 20
Utility
System Defining a Hybrid Power Unit for Thrust Generation In an Aerial Vehicle and Method for Controlling the Same
14 Oct 21
One variation of a system for generating thrust at an aerial vehicle includes: a primary electric motor; a rotor coupled to the motor; an internal-combustion engine; a clutch interposed between the motor and an output shaft of the internal-combustion engine; an engine shroud defining a shroud inlet between the rotor and the internal-combustion engine, extending over the internal-combustion engine, and defining a shroud outlet opposite the rotor; a cooling fan coupled and configured to displace air through the engine shroud; and a local controller configured to receive a rotor speed command specifying a target rotor speed, adjust a throttle setpoint of the internal-combustion engine according to the target rotor speed and a state of charge of a battery in the aerial vehicle, and drive the primary electric motor to selectively output torque to the rotor and to regeneratively brake the rotor according to the target rotor speed.
Joshua Resnick, David Adams, Robert Hulter, Seth McGann, Brian Eiseman
Filed: 28 Dec 20
- Prev
- 1
- Next
Patents are sorted by USPTO publication date, most recent first