Method for chamfering toothed gear

The invention claimed is: 1. A method for chamfering a toothed gear, the method comprising: a toothed gear formation step of forming a plurality of teeth around an axis of the toothed gear; and a chamfering step of sequentially chamfering, with a tool, the teeth formed by the toothed gear formation step, the tool including a plurality of end cutting edges formed at an end portion in an axis direction of an axis of the tool and formed around the axis of the tool, in which method for chamfering the toothed gear, at the chamfering step, the axis of the tool is inclined from the axis of the toothed gear and the toothed gear and the tool are rotated and line intersection portions, between: (i) tooth flanks positioned on a forward side in a direction of rotation of the toothed gear among tooth flanks of the teeth, and (ii) end faces of the teeth in a tooth trace direction that extends in the direction of the axis of the toothed gear, are thereby sequentially chamfered with the end cutting edges, wherein a pitch of the end cutting edges is set to M times a pitch of the teeth, and wherein at the chamfering step, a circumferential speed of the end cutting edges is made faster than a circumferential speed of the teeth to chamfer the line intersection portions; the teeth are chamfered every N teeth; and values of M and N satisfy a relation of M>1, and a relation of M−1>N≥1. 2. The method for chamfering according to claim 1 , wherein when a total number of the teeth is taken as Na, a value of N+1 and Na are prime numbers relative to each other. 3. The method for chamfering according to claim 2 , wherein at the chamfering step, a circumferential speed of the end cutting edges is made equal to M/(N+1) times a circumferential speed of the teeth to chamfer the line intersection portions. 4. The method for chamfering according to claim 2 , wherein the plurality of end cutting edges include: a first end cutting edge formed in a first cutting face, wherein the first cutting face faces to one side in a direction of rotation of the tool; and a second end cutting edge formed in a second cutting face, wherein the second cutting face faces to the other side in the direction of rotation of the tool, and wherein the chamfering step includes: a first process for chamfering, with the first end cutting edge, ones of the line intersection portions that are between: (i) ones of the tooth flanks facing to one side in the direction of rotation of the toothed gear and (ii) the end faces; and a second process for, after the first process, inverting the rotations of the toothed gear and the tool and chamfering, with the second end cutting edge, ones of the line intersection portions that are between: (i) ones of the tooth flanks facing to the other side with respect to the direction, from the first process for chamfering, of rotation of the toothed gear and (ii) the end faces. 5. The method for chamfering according to claim 1 , wherein when a total number of the teeth is taken as Na, a value N+1 and Na have two or more common divisors. 6. The method for chamfering according to claim 5 , wherein a value of N+1 is a divisor of Na. 7. The method for chamfering according to claim 6 , wherein at the chamfering step, a circumferential speed of the end cutting edges is made equal to M/(N+1) times a circumferential speed of the teeth to chamfer the line intersection portions. 8. The method for chamfering according to claim 6 , wherein the plurality of end cutting edges include: a first end cutting edge formed in a first cutting face, wherein the first cutting face faces to one side in a direction of rotation of the tool; and a second end cutting edge formed in a second cutting face, wherein the second cutting face faces to the other side in the direction of rotation of the tool, and wherein the chamfering step includes: a first process for chamfering, with the first end cutting edge, ones of the line intersection portions that are between: (i) ones of the tooth flanks facing to one side in the direction of rotation of the toothed gear and (ii) the end faces; and a second process for, after the first process, inverting the rotations of the toothed gear and the tool and chamfering, with the second end cutting edge, ones of the line intersection portions that are between: (i) ones of the tooth flanks facing to the other side with respect to the direction, from the first process for chamfering, of rotation of the toothed gear and (ii) the end faces. 9. The method for chamfering according to claim 5 , wherein at the chamfering step, a circumferential speed of the end cutting edges is made equal to M/(N+1) times a circumferential speed of the teeth to chamfer the line intersection portions. 10. The method for chamfering according to claim 5 , wherein the plurality of end cutting edges include: a first end cutting edge formed in a first cutting face, wherein the first cutting face faces to one side in a direction of rotation of the tool; and a second end cutting edge formed in a second cutting face, wherein the second cutting face faces to the other side in the direction of rotation of the tool, and wherein the chamfering step includes: a first process for chamfering, with the first end cutting edge, ones of the line intersection portions that are between: (i) ones of the tooth flanks facing to one side in the direction of rotation of the toothed gear and (ii) the end faces; and a second process for, after the first process, inverting the rotations of the toothed gear and the tool and chamfering, with the second end cutting edge, ones of the line intersection portions that are between: (i) ones of the tooth flanks facing to the other side with respect to the direction, from the first process for chamfering, of rotation of the toothed gear and (ii) the end faces. 11. The method for chamfering according to claim 1 , wherein at the chamfering step, a circumferential speed of the end cutting edges is made equal to M/(N+1) times a circumferential speed of the teeth to chamfer the line intersection portions. 12. The method for chamfering according to claim 11 , wherein the plurality of end cutting edges include: a first end cutting edge formed in a first cutting face, wherein the first cutting face faces to one side in a direction of rotation of the tool; and a second end cutting edge formed in a second cutting face, wherein the second cutting face faces to the other side in the direction of rotation of the tool, and wherein the chamfering step includes: a first process for chamfering, with the first end cutting edge, ones of the line intersection portions that are between: (i) ones of the tooth flanks facing to one side in the direction of rotation of the toothed gear and (ii) the end faces; and a second process for, after the first process, inverting the rotations of the toothed gear and the tool and chamfering, with the second end cutting edge, ones of the line intersection portions that are between: (i) ones of the tooth flanks facing to the other side with respect to the direction, from the first process for chamfering, of rotation of the toothed gear and (ii) the end faces. 13. The method for chamfering according to claim 1 , wherein the plurality of end cutting edges include: a first end cutting edge formed in a first cutting face, wherein the first cutting face faces to one side in a direction of rotation of the tool; and a second end cutting edge formed in a second cutting face, wherein the second cutting face faces to the other side in the direction of rotation of the tool, and wherein the chamfering step includes: a first process for chamfering, with the first end cutting edge, ones of t