Gear-cutting machine

The invention claimed is: 1. A gear cutting machine comprising: a cutter; a cutter spindle motor configured to cause, via a crank mechanism and a cutter spindle, the cutter to perform a stroke operation in a direction of the cutter spindle; and a motor control unit configured to control a rotation angle of the cutter spindle motor, wherein the gear cutting machine comprises a relieving spindle motor configured to cause the cutter to move in a direction of a relieving spindle via a link mechanism, the motor control unit controls a rotation angle of the relieving spindle motor based on the rotation angle of the cutter spindle motor, and the motor control unit determines a track of the cutter on x-y coordinates from tracks of the cutter on x-θcoordinates and on y-θcoordinates, where θis the rotation angle of the cutter spindle motor, the y-axis direction is the direction of the cutter spindle, and the x-axis direction is the direction of the relieving spindle, determines an inclination angle of the cutter from the track of the cutter on the x-y coordinates, determines an output angle of the link mechanism from the inclination angle, and determines an input angle of the link mechanism from the output angle, so that the motor control unit controls the rotation angle of the relieving spindle motor. 2. The gear cutting machine according to claim 1 , wherein the motor control unit performs control such that the track of the cutter in a relieving region on the x-θcoordinates forms a universal cam curve. 3. The gear cutting machine according to claim 2 , wherein the motor control unit divides into two sub-zones each of a zone of a machining region and a zone of the relieving region within the θ, and controls the track of the cutter in each of the divided sub-zones on the x-θcoordinates. 4. The gear cutting machine according to claim 1 , wherein the motor control unit receives each data on a relieving amount, a crowning amount, and a tapering amount in the x-axis direction in accordance with a shape of a gear to be cut, and determines the track of the cutter on the x-θcoordinates based on the inputted data. 5. The gear cutting machine according to claim 4 , wherein the motor control unit sets the track of the cutter in a machining region on the x-θcoordinates based on any one of the crowning amount and the tapering amount, sets the track of the cutter in a relieving region on the x-θcoordinates such that the track of the cutter forms a universal cam curve based on the relieving amount, and links and combines the track of the cutter in the machining region on the x-θcoordinates to the track of the cutter in the relieving region on the x-θcoordinates by using cubic interpolation. 6. The gear cutting machine according to claim 5 , wherein the motor control unit divides into two sub-zones each of a zone of the machining region and a zone of the relieving region within the θ, and controls the track of the cutter in each of the divided sub-zones on the x-θcoordinates.