Method for manufacturing gear

The invention claimed is: 1. A method for manufacturing a gear, comprising: rotating a workpiece around a first axis; rotating, around a second axis at a position skew to the first axis, an annular tool whose center is the second axis, or a tool including a plurality of cutting blades arranged annularly around the second axis; and, while causing the workpiece and the tool to perform relative movement to each other in a direction parallel to the first axis at a speed synchronized with a rotational speed of the workpiece, making an inner peripheral side of the tool contact with an outer peripheral surface of the workpiece, and removing a material of the workpiece at a contacted portion by the relative movement between the tool and the workpiece, thereby forming a helical tooth in the outer peripheral surface of the workpiece, the method further comprising: rotating the workpiece around the first axis, and causing the workpiece and the tool to perform the relative movement in a direction parallel to the first axis at a speed synchronized with a rotational speed of the workpiece, in such a way that, in a cross section perpendicular to the first axis, an outline of the tool contacts with a target outline being an outline of the helical tooth to be formed, and meanwhile, at a predetermined one point on the target outline, makes rolling contact with the target outline without sliding relative to the target outline, and, in an area other than the predetermined one point, rotates relative to the target outline while sliding relative to the target outline, wherein, in the cross section perpendicular to the first axis, a diameter of a first circle being a circle having the first axis as a center and passing through the predetermined one point is larger than a diameter of a second circle being a circle having the first axis as a center and passing through a tooth depth center in the target outline, and a setting is made in such a way that, when the second axis is projected onto a plane including the first axis and being parallel to the second axis, the first axis and the projected second axis are axes different from each other. 2. The method for manufacturing the gear according to claim 1 , wherein an angle θ made by the first axis and the projected second axis is determined depending on the number N of the helical teeth to be formed in the workpiece, an interval P, in a direction parallel to the first axis, of the helical teeth to be formed in the workpiece, and a circumferential length L 1 of the first circle. 3. The method for manufacturing the gear according to claim 2 , wherein the angle θ made by the first axis and the projected second axis is expressed by the following equation (1): θ=tan −1 (( N×P )/ L 1 )  Equation (1), where N is: the number of the helical teeth to be formed in the workpiece, P is: an interval, in a direction parallel to the first axis, of the helical teeth to be formed in the workpiece, and L 1 is: a circumferential length of the first circle. 4. The method for manufacturing the gear according to claim 1 , wherein, in a section cut by a plane including the second axis, the tool has a tapered shape whose dimension in a direction parallel to the second axis gradually decreases as a position approaches the second axis, and, in the section cut by the plane including the second axis, a tool pressure angle being an inclination angle of each of both end surfaces of the tool in a direction parallel to the second axis from a straight line perpendicular to the second axis is larger than a tool pressure angle when a diameter of the first circle is made equal to a diameter of the second circle. 5. The method for manufacturing the gear according to claim 4 , wherein the tool includes: a first portion having a predetermined tool pressure angle; and a second portion being located on a side closer to the second axis than the first portion and having a tool pressure angle smaller than the predetermined tool pressure angle. 6. The method for manufacturing the gear according to claim 4 , wherein the tool includes: a first portion having a tool pressure angle that gradually increases as a position approaches the second axis; and a second portion being located on a side closer to the second axis than the first portion and having a tool pressure angle that gradually increases as a position approaches the second axis, and the tool pressure angle at an end portion in the second portion on a side farther from the second axis is smaller than the tool pressure angle at an end portion in the first portion on a side closer to the second axis. 7. The method for manufacturing the gear according to claim 1 , wherein the method further comprises: rotating the tool at a speed asynchronous with a rotational speed of the workpiece around the first axis and with a speed of the relative movement between the workpiece and the tool in the direction of the first axis. 8. The method for manufacturing the gear according to claim 1 , wherein a gear to be manufactured is a helical gear. 9. The method for manufacturing the gear according to claim 8 , wherein the number of teeth of the gear to be manufactured is any of 1 to 6. 10. The method for manufacturing the gear according to claim 8 , wherein a helix angle of the gear to be manufactured is equal to or larger than 30 degrees and equal to or smaller than 60 degrees.