Systems and Methods for a Winch Drum and Drum Door
Abstract
Wind energy systems, such as an Airborne Wind Turbine (“AWT”), may be used to facilitate conversion of kinetic energy to electrical energy. An AWT may include an aerial vehicle that flies in a path, such as a substantially circular path, to convert kinetic wind energy to electrical energy. The aerial vehicle may be coupled to a winch assembly via a tether. The winch assembly may include a winch drum and a drum door. The winch assembly may be configured such that the drum door may operate in two or more positions, such as an open position and a closed position, to reduce the likelihood of stability problems occurring at the aerial vehicle during winding or unwinding of the tether.
Claims
exact text as granted — not AI-modifiedWe claim:
1 . A winch assembly, comprising:
a drum, rotatable about a central axis, comprising:
an exterior winding surface having an aperture through the exterior winding surface; and
a drum door comprising:
a drum door exterior surface; and
a port, wherein the drum door is configured for at least two positions: (i) a closed drum door position covering the aperture, wherein the shape of the drum door exterior surface substantially corresponds to the shape of the exterior winding surface surrounding the aperture, and (ii) an open drum door position revealing the aperture, wherein the port is configured to provide access to an interior drum cavity and to allow a first portion of a main tether body to exit the interior drum cavity via the port;
a drive mechanism attached to the drum door, wherein the drive mechanism is configured to change the drum door between the closed position and the open position; a tether comprising a proximate tether end, the main tether body, and a distal tether end, wherein the proximate tether end is located within the interior drum cavity; and a gimbal mount attached to the drum, wherein the gimbal mount constrains a second portion of the main tether body, wherein the drum is configured such that rotating the drum about the drum's central axis in a first direction causes the main tether body to wind onto the drum and rotating the drum about the drum's central axis in a second direction causes the main tether body to unwind from the drum.
2 . The winch assembly of claim 1 , wherein the drive mechanism comprises a pneumatic drive.
3 . The winch assembly of claim 1 , wherein the drive mechanism comprises a hydraulic drive.
4 . The winch assembly of claim 1 , wherein the drive mechanism comprises a servomotor.
5 . The winch assembly of claim 1 , further comprising a sensor, wherein the drum door is configured to change between the closed position and the open position in response to an output of the sensor.
6 . The winch assembly of claim 1 , wherein the gimbal is attached to the drum door.
7 . The winch assembly of claim 1 , wherein the gimbal mount is attached to a structural member of the drum.
8 . The winch assembly of claim 1 , wherein the gimbal mount is configured to be in the interior drum cavity when the drum door is in the closed drum door position.
9 . The winch assembly of claim 1 , wherein the tether comprises at least one conductor.
10 . The winch assembly of claim 1 , wherein the exterior winding surface and the drum door exterior surface comprise helical grooves, and wherein the exterior surface and the drum door exterior surface are configured to create a substantially continuous helical groove pattern when the drum door is in the closed position.
11 . A system, comprising:
an aerial vehicle; a drum, rotatable about a central axis, comprising:
an exterior winding surface having an aperture through the exterior winding surface; and
a drum door comprising:
a drum door exterior surface; and
a port, wherein the drum door is configured for at least two positions: (i) a closed drum door position covering the aperture, wherein the shape of the drum door exterior surface substantially corresponds to the shape of the exterior winding surface surrounding the aperture, and (ii) an open drum door position revealing the aperture, wherein the port is configured to provide access to an interior drum cavity and to allow a first portion of a main tether body to exit the interior drum cavity via the port;
a drive mechanism attached to the drum door, wherein the drive mechanism is configured to change the drum door between the closed position and the open position; a tether comprising a proximate tether end located within the interior drum cavity, the main tether body, and a distal tether end connected to the aerial vehicle; a gimbal mount attached to the drum, wherein the gimbal mount constrains a second portion of the main tether body; and a drum drive assembly attached to the drum, comprising: (i) a motor, and (ii) a drum drivetrain connected to the motor and the drum, wherein the drum drive assembly is configured to rotate the drum, wherein the drum is configured such that rotating the drum about the drum's central axis in a first direction causes the main tether body to wind onto the drum and rotating the drum about the drum's central axis in a second direction causes the main tether body to unwind from the drum.
12 . The system claim 11 , wherein the drive mechanism comprises a pneumatic drive.
13 . The system of claim 11 , wherein the drive mechanism comprises a hydraulic drive.
14 . The system of claim 11 , wherein the drive mechanism comprises a servomotor.
15 . The system of claim 11 , further comprising a sensor, wherein the drum door is configured to change between the closed position and the open position in response to an output of the sensor.
16 . The system of claim 11 , wherein the gimbal is attached to the drum door.
17 . The system of claim 11 , wherein the gimbal mount is attached to a structural member of the drum.
18 . The system of claim 11 , wherein the gimbal mount is configured to be in the interior drum cavity when the drum door is in the closed drum door position.
19 . The system of claim 11 , wherein the tether comprises at least one conductor.
20 . The system of claim 11 , wherein the exterior winding surface and the drum door exterior surface comprise helical grooves, and wherein the exterior winding surface and the drum door exterior surface are configured to create a substantially continuous helical groove pattern when the drum door is in the closed position.Cited by (0)
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