Wheel assembly for an irrigation system

Having thus described various embodiments of the invention, what is claimed as new and desired to be protected by Letters Patent includes the following: 1. A wheel assembly attachable to a movable support structure for traversing a path along a ground surface having a layer of soil, the wheel assembly comprising: a central support having a plurality of outwardly protruding spokes that define a plurality of recesses therebetween; and an airless flexible covering mounted on the central support and having a plurality of rigid sections each including an inwardly facing mounting boss for aligning with and engaging the outwardly protruding spokes, and a plurality of flexible sections for aligning with the recesses, the outwardly protruding spokes being removably attached via bolts, fasteners, or hinges to the central support for removing the airless flexible covering from or attaching the airless flexible covering to the central support, the outwardly protruding spokes being configured to urge the rigid sections into the layer of soil when the rigid sections contact the ground surface and wherein the recesses between the outwardly protruding spokes permit the flexible sections to flex inwardly towards the recesses when the flexible sections contact the ground surface so that the rigid sections and the flexible sections cooperatively form a corrugated pattern in the ground surface without urging the soil to side margins of the airless flexible covering such that the corrugated pattern includes a plurality of valleys formed by the rigid sections and a plurality of spaced peaks formed by the flexible sections. 2. The wheel assembly of claim 1 , wherein the airless flexible covering is a sacrificial part. 3. The wheel assembly of claim 1 , wherein the outwardly protruding spokes each include two prongs collectively forming a V-shape, each prong being configured to distribute compression forces to the central support for decreasing maximum point loads when the outwardly protruding spoke engages the ground surface. 4. The wheel assembly of claim 1 , wherein the central support is attached to a support structure via threaded fasteners. 5. The wheel assembly of claim 1 , wherein the rigid sections of the airless flexible covering have a gradually curved contour and a thickness greater than a thickness of the flexible sections of the airless flexible covering. 6. The wheel assembly of claim 1 , wherein the airless flexible covering includes a plurality of traction lugs. 7. The wheel assembly of claim 1 , wherein the central support is a sprocket or cog. 8. The wheel assembly of claim 1 , wherein the central support has a rotational reference point marked or placed thereon. 9. The wheel assembly of claim 1 , wherein the movable support structure is an irrigation system. 10. A set of at least two wheel assemblies for traversing a path along a ground surface having a layer of soil, each wheel assembly comprising: a central support comprising a plurality of outwardly protruding spokes that define a plurality of recesses therebetween, and a rotational reference point marked or placed thereon; and an airless flexible covering mounted on the central support and having a plurality of rigid sections each including an inwardly facing mounting boss for aligning with and engaging the outwardly protruding spokes, and a plurality of flexible sections for aligning with the recesses, the outwardly protruding spokes being configured to urge the rigid sections into the layer of soil when the rigid sections contact the ground surface and wherein the recesses between the outwardly protruding spokes permit the flexible sections to flex inwardly towards the recesses when the flexible sections contact the ground surface so that the rigid sections and the flexible sections cooperatively form a corrugated pattern in the ground surface without urging the soil to side margins of the airless flexible covering such that the corrugated pattern includes a plurality of valleys formed by the rigid sections and a plurality of spaced peaks formed by the flexible sections for improving traction on the ground surface, wherein each wheel assembly is configured to be mounted to a movable support structure and aligned with each other for traversing the path. 11. The set of wheel assemblies of claim 10 , wherein the wheel assemblies are configured to be mounted a predetermined distance apart from each other in accordance with a predetermined relative rotational alignment. 12. The set of wheel assemblies of claim 11 , wherein the predetermined distance between the wheel assemblies corresponds to a synchronized relative rotational alignment such that the outwardly protruding spokes of the first central support and the outwardly protruding spokes of the second central support are configured to engage common engagement points of a substantially compliant ground surface along the path so as to form the corrugated pattern. 13. The set of wheel assemblies of claim 11 , wherein the predetermined distance corresponds to an unsynchronized relative rotational alignment such that the outwardly protruding spokes of the first central support and the outwardly protruding spokes of the second central support are configured to engage different engagement points of a substantially non-compliant ground surface along the path so as to reduce a corrugation effect on the substantially non-compliant ground surface. 14. A method of adjusting first and second wheel assemblies of a support tower of a movable irrigation system, the method comprising: measuring a distance from a first rotational reference point of a first central support having a plurality of outwardly protruding spokes to a second rotational reference point of a first central support having a plurality of outwardly protruding spokes for determining a relative rotational alignment of the second central support; and adjusting the first central support or the second central support until the distance between the rotational reference points is equal to a predetermined distance. 15. The method of claim 14 , wherein the predetermined distance corresponds to a synchronized relative rotational alignment such that the outwardly protruding spokes of the first central support and the outwardly protruding spokes of the second central support are configured to engage common engagement points of a substantially compliant ground surface along the path so as to form a corrugated pattern in the substantially compliant ground surface for improving traction thereon. 16. The method of claim 14 , wherein the predetermined distance corresponds to an unsynchronized relative rotational alignment such that the outwardly protruding spokes of the first central support and the outwardly protruding spokes of the second central support are configured to engage different engagement points of a substantially non-compliant ground surface along the path so as to reduce a corrugation effect on the substantially non-compliant ground surface for improving traction thereon. 17. A support tower for a movable irrigation system for traversing a path along a ground surface having a layer of soil, the support tower including a first wheel assembly and a second wheel assembly, the first and second wheel assemblies collectively comprising: a leading wheel and a trailing wheel aligned with and spaced from each other, each wheel having a plurality of outwardly protruding spokes defining a plurality of recesses therebetween, each wheel including a reference point for rotationally aligning the wheels; and an airless flexible tire mounted on e