Adjustable camshaft

What is claimed is: 1. An adjustable camshaft for a valve drive of an internal combustion engine, the adjustable camshaft comprising: an outer shaft having a longitudinal axis; an inner shaft concentric with the outer shaft and rotatably supported in the outer shaft; a cam element with a cam bore rotatably supported on an outer surface of the outer shaft so as to form a slide bearing gap between the cam element and the outer shaft, the slide bearing gap occupying an axial length of the camshaft, the cam element being rotatably fixed to the inner shaft; and an oil channeling groove disposed in the outer surface of the outer shaft, the oil channeling groove extending over at least part of the axial length occupied by the slide bearing gap, the oil channeling groove having a first end at a first point and a second end at a second point and defining a continuous line from the first end to the second end, each point along the continuous line having a single tangent line that is non-perpendicular to the longitudinal axis of the outer shaft, the oil channeling groove having an exposed groove portion such that the first end extends axially beyond a side of the cam element. 2. The adjustable camshaft of claim 1 , wherein the oil channeling groove is either: (a) helical; or (b) linear, extending generally parallel to the longitudinal axis of the outer shaft. 3. The adjustable camshaft of claim 1 , wherein the oil channeling groove is linear and extends generally parallel to the longitudinal axis of the outer shaft. 4. The adjustable camshaft of claim 1 , wherein the oil channeling groove is helical. 5. The adjustable camshaft of claim 4 , further comprising a second oil channeling groove disposed in the outer surface of the outer shaft wherein the oil channeling groove extends in a first helical direction and the second oil channeling groove extends in a second helical direction generally opposite the first helical direction. 6. The adjustable camshaft of claim 1 , further comprising a bolt extending transversely through the inner shaft and through a bolt aperture in the outer shaft, wherein an end of the bolt is seated in the cam element, wherein the inner shaft is rotatably fixed to the cam element by the bolt, wherein the oil channeling groove is spaced apart from the bolt aperture. 7. The adjustable camshaft of claim 1 , wherein the cam element comprises a cam flange, wherein the slide bearing gap is disposed at least between the cam flange and the outer surface of the outer shaft. 8. The adjustable camshaft of claim 1 , wherein a cross-section of the oil channeling groove varies across a length of the oil channeling groove, wherein a portion of the oil channeling groove disposed beneath the cam element is tapered relative to the exposed groove portion. 9. The adjustable camshaft of claim 1 , further comprising: a surface texturing disposed on the outer surface of the outer shaft; and a lubricating film disposed between the outer surface of the outer shaft and an inner surface of the cam bore; wherein the surface texturing improves a load-carrying capacity of the lubricating film relative to an outer surface without the surface texturing. 10. The adjustable camshaft of claim 1 , further comprising: a surface texturing disposed on at least one item selected from the group consisting of an inner surface of the cam bore and the outer surface of the outer shaft; and a lubricating film disposed between the outer surface of the outer shaft and the inner surface of the cam bore; wherein the surface texturing improves a load-carrying capacity of the lubricating film relative to a surface without the surface texturing. 11. The adjustable camshaft of claim 10 , wherein the surface texturing is produced by a laser beam machining process, a honing process, an electron beam process, or an etching process. 12. The adjustable camshaft of claim 11 , wherein the surface texturing is oriented axially, circumferentially, spirally, or in a reticulating manner relative to the longitudinal axis of the outer shaft. 13. The adjustable camshaft of claim 1 , further comprising a surface texturing disposed on at least one item selected from the group consisting of an inner surface of the cam bore and the outer surface of the outer shaft; wherein the surface texturing is produced by a laser beam machining process, a honing process, an electron beam process, or an etching process. 14. The adjustable camshaft of claim 13 , wherein the surface texturing is oriented axially, circumferentially, spirally, or in a reticulating manner relative to the longitudinal axis of the outer shaft. 15. The adjustable camshaft of claim 1 , wherein the oil channeling groove extends over the entire axial length occupied by the slide bearing gap, and wherein the second end of the oil channeling groove extends axially beyond another side of the cam element. 16. The adjustable camshaft of claim 1 , further comprising a second oil channeling groove disposed in the outer surface of the outer shaft. 17. An adjustable camshaft, comprising: an inner shaft and an outer shaft, the inner shaft being rotatably supported in the outer shaft and concentric with the outer shaft about a longitudinal axis; a cam rotatably supported on the outer shaft such that the outer shaft extends through a cam bore of the cam; a bolt for rotatably fixing the cam to the inner shaft; and an oil channeling groove disposed in an outer surface of the outer shaft, the oil channeling groove extending over at least part of an axial length of the outer surface of the outer shaft occupied by the cam, the oil channeling groove having a first end at a first end point and a second end at a second end point and defining a continuous line from the first end to the second end, each point along the continuous line having a single tangent line that is non-perpendicular to the longitudinal axis of the outer shaft, the oil channeling groove extending axially beyond the cam to form an exposed groove portion. 18. The adjustable camshaft of claim 17 , further comprising a surface texturing disposed on at least one item selected from the group consisting of an inner surface of the cam bore and the outer surface of the outer shaft; wherein the surface texturing is produced by a laser beam machining process, a honing process, an electron beam process, or an etching process. 19. The adjustable camshaft of claim 17 , further comprising a second oil channeling groove disposed in the outer surface of the outer shaft. 20. An adjustable camshaft for a valve drive of an internal combustion engine, the adjustable camshaft comprising: an outer shaft having a longitudinal axis; an inner shaft concentric with the outer shaft and rotatably supported in the outer shaft; a cam element with a cam bore rotatably supported on an outer surface of the outer shaft so as to form a slide bearing gap between the cam element and the outer shaft, the slide bearing gap occupying an axial length of the camshaft, the cam element being rotatably fixed to the inner shaft; and an oil channeling groove disposed in the outer surface of the outer shaft, the oil channeling groove extending over at least part of the axial length occupied by the slide bearing gap, the oil channeling groove having a first end at a first point and a second end at a second point and defining a continuous line from the first end to the second end, each point along the continuous line having a single tangent line that is non-perpendicular to the longitudinal axis of the