Tether Winding

We claim: 1 . A levelwind apparatus comprising: a rotational axis; a first edge having a first diameter; a second edge having a second diameter, wherein the first and second edges are concentric about the rotational axis; and a guiding surface located between the first and second edges, wherein the guiding surface comprises a guide groove perpendicular to the rotational axis and sized to receive a tether, wherein the perpendicular distance from the first edge to the guide groove is greater than the perpendicular distance from the second edge to the guide groove. 2 . The apparatus of claim 1 wherein the perpendicular distance from the first edge of the levelwind to the guide groove is at least four times greater than the perpendicular distance from the second edge of the levelwind to the guide groove. 3 . The apparatus of claim 1 further comprising at least one guidance structure positioned to bias the tether toward the guide groove of the levelwind. 4 . The apparatus of claim 1 wherein the first diameter and the second diameter of the levelwind are substantially the same. 5 . The apparatus of claim 1 wherein the guide groove has a third diameter, wherein the third diameter is at least 3 meters. 6 . A system comprising: a drum comprising: a first rotational axis; and a substantially cylindrical drum surface, wherein the drum surface comprises a helical groove sized to receive a tether, the helical groove having a pitch relative to the first rotational axis, wherein the pitch of the helical groove varies about the drum surface; a motor mechanically coupled to the drum for rotating the drum about the first rotational axis; a levelwind comprising: a second rotational axis; a first edge having a first diameter; a second edge having a second diameter, wherein the first and second edges are concentric about the second rotational axis; and a guiding surface located between the first and second edges, wherein the guiding surface comprises a guide groove perpendicular to the second rotational axis and sized to receive a tether, wherein the perpendicular distance from the first edge to the guide groove is greater than the perpendicular distance from the second edge to the guide groove; and a linear actuator mechanically coupled to the motor and configured to position the levelwind along the second rotational axis such that the guiding surface remains in substantial alignment with the helical groove on the drum surface as the drum rotates about the first rotational axis. 7 . The system of claim 6 wherein the linear actuator is mechanically coupled to the motor for rotating the drum such that the levelwind is positioned along the second rotational axis at a constant rate with respect to the rotation of the drum. 8 . The system of claim 6 wherein the pitch of the helical groove varies between 25 millimeters per rotation of the drum surface and 250 millimeters per rotation of the drum surface. 9 . The system of claim 6 wherein the drum further comprises a drum height, wherein the drum surface comprises a radius measured from the first rotational axis, and wherein the radius of the drum surface varies along the drum height. 10 . The system of claim 6 wherein the perpendicular distance from the first edge of the levelwind to the guide groove is at least four times greater than the perpendicular distance from the second edge of the levelwind to the guide groove. 11 . The system of claim 6 wherein the perpendicular distance from the first edge of the levelwind to the guide groove is at least 250 millimeters. 12 . The system of claim 6 wherein the first diameter and the second diameter of the levelwind are substantially the same. 13 . The system of claim 6 wherein the guide groove has a third diameter, wherein the third diameter is at least 3 meters. 14 . The system of claim 6 wherein the linear actuator comprises a lead screw mechanically coupled to the motor. 15 . The system of claim 6 further comprising at least one guidance structure positioned to bias the tether toward the guide groove of the levelwind. 16 . The system of claim 15 wherein the guidance structure includes at least one rounded guide bar. 17 . A method of winding a tether about a drum comprising: rotating the drum about a first rotational axis, wherein the drum comprises: the first rotational axis; and a substantially cylindrical drum surface, wherein the drum surface comprises a helical groove sized to receive a tether, the helical groove having a pitch relative to the first rotational axis, wherein the pitch of the helical groove varies about the drum surface; and positioning a levelwind having a guiding surface along a second rotational axis at a constant rate with respect to the rotation of the drum such that the guiding surface remains in substantial alignment with the helical groove on the drum surface as the drum rotates about the first rotational axis, and wherein the levelwind comprises: the second rotational axis; a first edge having a first diameter; a second edge having a second diameter, wherein the first and second edges are concentric about the second rotational axis; and the guiding surface located between the first and second edges, wherein the guiding surface comprises a guide groove perpendicular to the second rotational axis and sized to receive a tether, wherein the perpendicular distance from the first edge to the guide groove is greater than the perpendicular distance from the second edge to the guide groove. 18 . The method of claim 17 further comprising the step of biasing the tether toward the guide groove using at least one guidance structure. 19 . The method of claim 17 wherein the drum is rotated about the first rotational axis by a motor mechanically coupled to the drum. 20 . The method of claim 19 wherein the levelwind is positioned along the second rotational axis using a linear actuator, wherein the linear actuator is mechanically coupled to the motor.