Skiving cutter

The invention claimed is: 1. A skiving cutter comprising: a base having a circular cross-sectional shape perpendicular to an axis; and a plurality of cutting edge portions protruding from an outer circumferential surface of the base, formed at intervals in a circumferential direction with respect to the axis, and having a tooth trace extending in a direction inclined with respect to the axis, wherein each of the cutting edge portions is segmented into a plurality of segmented cutting edges by cutting edge grooves extending in a direction intersecting the tooth trace, each of the segmented cutting edges includes an outer circumferential cutting edge which is an edge farthest away from the base among portions forming the segmented cutting edge, one of the plurality of segmented cutting edges constituting the cutting edge portion forms a reference cutting edge, and the reference cutting edge has the largest axis-cutting edge distance which is a distance from the axis to the outer circumferential cutting edge and the remaining one or more segmented cutting edges have gradually smaller axis-cutting edge distances as a distance from the reference cutting edge to each of the remaining segmented cutting edges increases, and a helix angle which is an angle of the tooth trace with respect to the axis is different according to a position in the axial direction of the plurality of segmented cutting edges constituting the cutting edge portion. 2. The skiving cutter according to claim 1 , wherein helix angles of one or more segmented cutting edges excluding the reference cutting edge among the plurality of segmented cutting edges constituting the cutting edge portion increase in variation amount with respect to the helix angle of the reference cutting edge as a distance from the reference cutting edge to each of the segmented cutting edges increases. 3. The skiving cutter according to claim 1 , wherein helix angles of one or more segmented cutting edges excluding the reference cutting edge among the plurality of segmented cutting edges constituting the cutting edge portion increase as a distance from the reference cutting edge to each of the segmented cutting edges increases. 4. The skiving cutter according to claim 1 , wherein cutting edge heights of the plurality of segmented cutting edges constituting the cutting edge portion are formed such that: the cutting edge height at the reference cutting edge is the highest; and the cutting edge height at one segmented cutting edge which is more distant from the reference cutting edge between two segmented cutting edges adjacent to each other in a tooth trace direction in which the tooth trace extends is equal to or less than the cutting edge height of the other segmented cutting edge. 5. The skiving cutter according to claim 1 , wherein cutting edge widths of the plurality of segmented cutting edges constituting the cutting edge portion are formed such that: the cutting edge width at the reference cutting edge is the largest; and the cutting edge width at one segmented cutting edge which is more distant from the reference cutting edge between the two segmented cutting edges adjacent to each other in the tooth trace direction in which the tooth trace extends is equal to or less than the cutting edge width of the other segmented cutting edge. 6. The skiving cutter according to claim 1 , wherein the segmented cutting edge includes: a cutting face extending from the outer circumferential cutting edge toward the base; a peripheral relief face extending from the outer circumferential cutting edge in a direction along the tooth trace; and a back face extending from an end opposite to the outer circumferential cutting edge on the peripheral relief face toward the base, and a rake angle which is an angle of the cutting face with respect to a virtual plane perpendicular to the tooth trace is 0° or more and 20° or less. 7. The skiving cutter according to claim 6 , wherein a back face angle which is an angle of the back face with respect to a virtual plane perpendicular to the tooth trace is 10° or more and 50° or less. 8. The skiving cutter according to claim 6 , wherein a peripheral relief angle which is an angle of the peripheral relief face with respect to the tooth trace is more than 0° and 12° or less. 9. The skiving cutter according to claim 1 , wherein the outer circumferential cutting edge of the segmented cutting edge having a helix angle of 10° or less is in a virtual plane perpendicular to the axis. 10. The skiving cutter according to claim 1 , wherein the outer circumferential cutting edge of the segmented cutting edge having the helix angle α larger than 10° is in a virtual plane perpendicular to the tooth trace. 11. The skiving cutter according to claim 1 , comprising a plurality of cutter pieces arranged in the axial direction, wherein each of the cutter pieces includes: a segmented cutting edge row which is a collection of a plurality of segmented cutting edges having the same position in the axial direction as each other and arranged in the circumferential direction among the segmented cutting edges constituting each of the plurality of cutting edge portions; and a segmented base formed as a portion of the base and including the segmented cutting edge row formed on an outer circumference thereof, and the segmented bases are separable from each other, and the skiving cutter further comprising: a positioning member which determines relative positions in the circumferential direction of the segmented cutting edges between the plurality of cutter pieces.