Resin helical gear

The invention claimed is: 1. A resin helical gear comprising a tooth having a three-dimensional tooth-surface modification on a tooth surface of the tooth such that the tooth has an involute tooth profile form, the tooth of the resin helical gear comprising: a tooth surface having defined thereon: a first machining reference line obliquely coupling a tooth tip of the tooth on a first end side of the tooth surface in a tooth width direction to a tooth root of the tooth on a second end side of the tooth surface in the tooth width direction along the tooth; and a second machining reference line obliquely coupling the tooth tip of the tooth on the second end side of the tooth surface in the tooth width direction to the tooth root of the tooth on the first end side of the tooth surface in the tooth width direction; wherein the tooth surface has the three-dimensional tooth-surface modification including a smooth first curved surface extending from the first machining reference line to the tooth root of the tooth on the first end side in the tooth width direction, and including a smooth second curved surface extending from the second machining reference line to the tooth root of the tooth on the second end side in the tooth width direction, the three-dimensional tooth-surface modification forming the involute tooth profile form on the tooth tip side of the tooth between the first machining reference line and the second machining reference line; and wherein the three-dimensional tooth-surface modification of the tooth surface has a ridgeline extending from an intersection point of the first machining reference line and the second machining reference line to the tooth root along a tooth length direction, the ridgeline being located between the first curved surface and the second curved surface. 2. The resin helical gear according to claim 1 , wherein the three-dimensional tooth-surface modification is located on at least one of two opposite tooth surfaces of the tooth. 3. The resin helical gear according to claim 1 , wherein the three-dimensional tooth-surface modification is located on both of two opposite tooth surfaces of the tooth. 4. The resin helical gear according to claim 1 , wherein a modification amount of the three-dimensional tooth-surface modification along the first curved surface is different than a modification amount of the three-dimensional tooth-surface modification along the second curved surface. 5. The resin helical gear according to claim 4 , wherein the modification amount of the three-dimensional tooth-surface modification along the first curved surface is larger than the modification amount of the three-dimensional tooth-surface modification along the second curved surface.