Local dust extraction system for an excavation machine

The invention claimed is: 1. A system for capturing dust generated by an excavation component carrying a plurality of cutting teeth, the excavation component being rotatable about a central axis of the excavation component, the system comprising: a shroud for at least partially covering the excavation component, the shroud defining a local dust extraction volume; and a first intake conduit positioned within the local dust extraction volume between the shroud and the excavation component, the first intake conduit defining a length that extends from an air evacuation end to an opposite distal end, wherein a vacuum is attached at the air evacuation end of the first intake conduit, the first intake conduit defining a plurality of air intake openings that are spaced-apart along the length of the first intake conduit between the air evacuation end and the opposite distal end. 2. The system of claim 1 , further comprising a second intake conduit positioned within the local dust extraction volume between the shroud and the excavation component, the second intake conduit defining a plurality of air intake openings that are spaced-apart along a length of the second intake conduit. 3. The system of claim 2 , wherein the first and second intake conduits are co-axially aligned. 4. The system of claim 2 , wherein the first and second intake conduits are generally parallel to the central axis of the component. 5. The system of claim 2 , wherein the excavation component is bisected by a central plane that is perpendicular relative to the central axis of the excavation component, and wherein the first and second intake conduits carry air in directions away from the central plane. 6. The system of claim 2 , wherein the excavation component is bisected by a central plane that is perpendicular relative to the central axis of the excavation component, and wherein the first and second intake conduits carry air in directions toward the central plane. 7. The system of claim 1 , wherein the excavation component rotates in a clockwise direction, and wherein the first intake conduit is positioned directly above the central axis of the excavation component. 8. The system of claim 1 , wherein the excavation component rotates in a clockwise direction, and wherein the first intake conduit is positioned directly above the central axis of the excavation component. 9. The system of claim 1 , wherein the excavation component is an excavation drum. 10. The system of claim 1 , wherein the first intake conduit extends proximal to the excavation component. 11. The system of claim 1 , wherein the first intake conduit has a conduit axis, the first intake conduit extending such that the conduit axis is generally parallel to the central axis of the excavation component. 12. The system of claim 1 , wherein the plurality of air intake openings is facing in a direction toward the excavation component. 13. The system of claim 1 , wherein the plurality of air intake openings together define a combined cross-sectional intake flow area and the first intake conduit defines a conduit cross-sectional flow area, and wherein the combined cross-sectional intake flow area is larger than the conduit cross-sectional flow area. 14. A system for capturing dust generated by an excavation component carrying a plurality of cutting teeth, the excavation component being rotatable about a central axis of the excavation component, the system comprising: a shroud assembly at least partially covering the excavation component, the shroud assembly including a first shroud component and a second shroud component, the first shroud component being movable relative to the second shroud component between a first position where the excavation component is accessed and a second position where the first and second shroud components cooperate to define a local dust extraction volume; and a first intake conduit positioned within the first shroud component, the first intake conduit being carried with the first shroud component such that when the first shroud component is raised, the first intake conduit is displaced relative to the excavation component; wherein the first intake conduit defines a length that extends from an air evacuation end to an opposite closed end, the first intake conduit defining a plurality of air intake openings that are spaced-apart along the length of the first intake conduit. 15. The system of claim 14 , wherein the first intake conduit is cylindrical in shape. 16. A system for capturing dust generated by an excavation component carrying a plurality of cutting teeth, the excavation component being rotatable about a central axis of the excavation component, the system comprising: a shroud for at least partially covering the excavation component, the shroud defining a local dust extraction volume; and a first intake conduit positioned within an interior volume defined by the shroud, the first intake conduit defining a length that extends substantially parallel relative to an axis of rotation of the excavation component, the first intake conduit defining a plurality of air intake openings that are spaced-apart along the length of the first intake conduit and spaced-apart relative to the axis of rotation.