Air system for an agricultural harvester

The invention claimed is: 1. An air system for an agricultural harvester, comprising: an air flow splitter component configured to be coupled to the agricultural harvester, the air flow splitter component comprising an inlet configured to receive air and a plurality of air outlets configured to distribute the air; and a plurality of air flow paths, wherein a first air flow path of the plurality of air flow paths extends from a respective one of the plurality of air outlets and is configured to extend to a corresponding drum of the agricultural harvester, the first air flow path of the plurality of air flow paths comprises a respective discharge outlet configured to discharge the air between a bottom surface of the corresponding drum and a respective bottom disc of a first doffer of the corresponding drum while the air system is coupled to the agricultural harvester, and the first air flow path comprises a rigid conduit having a bend that enables a first portion of the rigid conduit to extend along an external surface of a first lateral side wall of the corresponding drum and that enables a second portion of the rigid conduit to be positioned internal to the first lateral side wall of the corresponding drum while the air system is coupled to the agricultural harvester. 2. The air system of claim 1 , wherein the first air flow path of the plurality of air flow paths comprises a flexible conduit extending from the respective one of the plurality of air outlets to the rigid conduit. 3. The air system of claim 1 , wherein the rigid conduit is configured to be removably coupled to the corresponding drum via at least one threaded fastener. 4. The air system of claim 1 , wherein the air flow splitter component and the plurality of air flow paths are configured to be removably coupled to the agricultural harvester via at least one threaded fastener. 5. The air system of claim 1 , wherein the air system comprises only one air flow splitter component, and the plurality of air flow paths comprises the first air flow path and at least three additional air flow paths coupled to the air flow splitter component and configured to deliver the air to the corresponding drum and at least one additional drum of the agricultural harvester. 6. The air system of claim 1 , wherein each of the plurality of air flow paths comprises a flexible conduit, and at least some of the flexible conduits of the plurality of air flow paths have different lengths to facilitate distribution of the air to the corresponding drum and another drum of the agricultural harvester. 7. The air system of claim 1 , comprising a second air flow path of the plurality of air flow paths that extends from a respective one of the plurality of air outlets and is configured to extend to the first drum of the agricultural harvester, and a third air flow path of the plurality of air flow paths that extends from a respective one of the plurality of air outlets and is configured to extend to another drum of the agricultural harvester, wherein the corresponding drum and the another drum each comprise a first rotor and a second rotor, a first spindle bar driven to rotate by the first rotor, and a second spindle bar driven to rotate by the second motor to remove portions of a crop as the agricultural harvester travels through a field. 8. The air system of claim 1 , comprising a second air flow path of the plurality of air flow paths that extends from a respective one of the plurality of air outlets and is configured to discharge the air between the bottom surface of the corresponding drum and a respective bottom disc of a second doffer of the corresponding drum while the air system is coupled to the agricultural harvester, and comprising a third air flow path of the plurality of air flow paths that extends from a respective one of the plurality of air outlets and is configured to discharge the air along the bottom surface proximate to a harvested goods outlet while the air system is coupled to the agricultural harvester. 9. The air system of claim 1 , wherein the respective discharge outlet of the first air flow path is oriented toward a harvested goods outlet of the corresponding drum. 10. The air system of claim 1 , wherein a second air flow path of the plurality of air flow paths extends from a respective one of the plurality of air outlets and is configured to extend to the corresponding drum of the agricultural harvester, the second air flow path of the plurality of air flow paths comprises a respective discharge outlet configured to be disposed between the bottom surface of the corresponding drum and a respective bottom disc of a second doffer of the corresponding drum while the air system is coupled to the agricultural harvester, and the first doffer and the second doffer are positioned between the respective discharge outlet of the first air flow path and the respective discharge outlet of the second air flow path along a lateral axis of the corresponding drum. 11. The air system of claim 10 , wherein the second air flow path comprises a respective rigid conduit having a respective bend that enables a respective first portion of the respective rigid conduit to extend along a respective external surface of a second lateral side wall of the corresponding drum and that enables a respective second portion of the respective rigid conduit to be positioned internal to the second lateral side wall of the corresponding drum while the air system is coupled to the agricultural harvester. 12. An air system for an agricultural harvester, comprising: an air flow splitter component configured to be supported on a first drum of the agricultural harvester, the air flow splitter component comprising an inlet configured to receive air and a plurality of air outlets configured to distribute the air; a plurality of air flow paths, a first air flow path of the plurality of air flow paths extending from a respective one of the plurality of air outlets to distribute the air to the first drum of the agricultural harvester and a second air flow path of the plurality of air flow paths extending from a respective one of the plurality of air outlets to distribute air to a second drum of the agricultural harvester. 13. The air system of claim 12 , wherein the first air flow path of the plurality of air flow paths has a first length sufficient to facilitate discharge of the air below a respective doffer of the first drum, and the second air flow path of the plurality of air flow paths has a second length sufficient to facilitate discharge of the air below a respective doffer of the second drum. 14. The air system of claim 12 , wherein the air flow splitter component and the plurality of air flow paths are configured to be removably coupled to the agricultural harvester via at least one threaded fastener. 15. The air system of claim 12 , wherein the first air flow path comprises a rigid conduit having a bend that enables the rigid conduit to pass through a first lateral side wall of the first drum such that a first portion of the rigid conduit is positioned external to the first lateral side wall of the first drum and a second portion of the rigid conduit is positioned internal to the first lateral side wall of the first drum while the air system is coupled to the agricultural harvester. 16. The air system of claim 12 , wherein the first drum and the second drum each comprise a first rotor and a second rotor, a first spindle bar driven to rotate by the first rotor, and a second spindle bar driven to rotate by the second motor to remove portions of a crop as the agricultural harvester travels through a field