Method for processing gear and cutter for processing gear

The invention claimed is: 1. A method for processing a gear, comprising processes of: arranging a work rotatably supported about a work axis and a cutter rotatably supported about a cutter axis such that the work axis and the cutter axis are offset from one another; synchronously rotating the work and the cutter at a predetermined ratio of an angular velocity; operating a first cutting process setting the cutter axis at a first posture wherein a tooth trace direction of a gear-shaped first cutter portion arranged at a first end of the cutter is along a tooth trace direction of the work, setting a first cutting direction wherein the first cutter portion is arranged at a downstream in a moving direction of the cutter in a direction along the work axis, starting the cutting of the work by moving the cutter in the first cutting direction while maintaining a cutting depth of the work, the cutting depth attained by using the first cutter portion, at a setting value, and reducing the cutting depth of the work before the first cutter portion reaches an end portion of a cutting area in the first cutting direction in the process of the cutting of the work; and operating a second cutting process synchronously rotating the work and the cutter in a reverse direction of rotational directions of the work and the cutter in the first cutting process after the first cutting process, setting the cutter axis at a second posture wherein the tooth trace direction of a gear-shaped second cutter portion arranged at a second end of the cutter is along the tooth trace direction of the work, maintaining the cutting depth of the work, the cutting depth attained by using the second cutter portion, at the setting value, and cutting the end portion of the cutting area by moving the cutter in a second cutting direction, a reverse direction of the first cutting direction. 2. A method for processing a gear, comprising processes of: arranging a work rotatably supported about a work axis and a cutter rotatably supported about a cutter axis such that the work axis and the cutter axis are offset from one another; synchronously rotating the work and the cutter at a predetermined ratio of an angular velocity; operating a first cutting process setting the cutter axis at a first posture wherein a tooth trace direction of a gear-shaped first cutter portion arranged at a first end of the cutter is along a tooth trace direction of the work, setting a first cutting direction wherein the first cutter portion is arranged at a downstream in a moving direction of the cutter in a direction along the work axis, starting the cutting of the work by moving the cutter in the first cutting direction while maintaining a cutting depth of the work, the cutting depth attained by using the first cutter portion, at a setting value, and maintaining the cutting of the work until the first cutter portion reaches an end portion of a cutting area in the first cutting direction; and operating a second cutting process synchronously rotating the work and the cutter in a reverse direction of rotational directions of the work and the cutter in the first cutting process after the first cutting process, setting the cutter axis at a second posture wherein the tooth trace direction of a gear-shaped second cutter portion arranged at a second end of the cutter is along the tooth trace direction of the work, increasing the setting value of the cutting depth of the work, the cutting depth attained by using the second cutter portion, by a setting amount, and cutting the end portion of the cutting area by moving the cutter in a second cutting direction, a reverse direction of the first cutting direction, by a predetermined length. 3. The method for processing the gear according to claim 1 , wherein a same pitch circle, a same number of a tooth and a same form of a blade are applied to the first cutter portion and the second cutter portion. 4. The method for processing the gear according to claim 1 , wherein a cutter supporting member rotatably supporting the cutter is swingably supported about a single switching axis and the first cutter portion is switched between the first posture and the second posture by swinging the cutter supporting member about the switching axis. 5. The method for processing the gear according to claim 3 , wherein a cutter supporting member rotatably supporting the cutter is swingably supported about a single switching axis and the first cutter portion is switched between the first posture and the second posture by swinging the cutter supporting member about the switching axis. 6. The method for processing the gear according to claim 2 , wherein a same pitch circle, a same number of a tooth and a same form of a blade are applied to the first cutter portion and the second cutter portion. 7. The method for processing the gear according to claim 2 , wherein a cutter supporting member rotatably supporting the cutter is swingably supported about a single switching axis and the first cutter portion is switched between the first posture and the second posture by swinging the cutter supporting member about the switching axis. 8. The method for processing the gear according to claim 6 , wherein a cutter supporting member rotatably supporting the cutter is swingably supported about a single switching axis and the first cutter portion is switched between the first posture and the second posture by swinging the cutter supporting member about the switching axis. 9. The method for processing the gear according to claim 1 , wherein a first relative position of the work and the cutter is set at the first cutting position in the first cutting process, a second relative position of the work and the cutter is set at the second cutting position in the second cutting process, in a plan view illustrating the first and second relative positions of the first cutting position and the second cutting position, a straight line passing through the work axis is defined as a base line, a line connecting the work axis and the first cutting position is defined as a first virtual line, and a line connecting the work axis and the second cutting position is defined as a second virtual line, the first virtual line and the base line intersect to define a first cross angle, at an opposite side across the work axis, the second virtual line and the base line intersect to define a second cross angle, the an intersection point of the virtual line and the inner circumference of the work defines the second cutting position, the relative positions of the first cutting position and the second cutting position are described such that the first cutting position and the second cutting position are positioned opposite across the work axis and the respective cross angles of the respective virtual lines and the respective base lines have the same degree. 10. The method for processing the gear according to claim 1 , wherein the work is cut and processed to form a spur inner gear including plural teeth whose tooth trace direction is arranged in parallel with the work axis. 11. The method for processing the gear according to claim 2 , wherein a first relative position of the work and the cutter is set at the first cutting position in the first cutting process, a second relative position of the work and the cutter is set at the second cutting position in the second cutting process, in a plan view illustrating the first and second relative positions of the first cutting position and the second cutting position, a straight line passing through the work axis is defined as a base line, a line connecting the work axis and the first cutting position is defined as a first virtual line, and a line connecting the work