Actuator for link mechanism for internal combustion engine

1 . An actuator for a link mechanism for an internal combustion engine, the actuator comprising: a control link having one end portion coupled to the link mechanism for the internal combustion engine; a control shaft configured to change a posture of the control link through rotation; a housing configured to rotatably support the control shaft; and a wave gear type speed reducer configured to transmit a rotation speed of an output shaft of a drive motor to the control shaft after reducing the rotation speed, the wave gear type speed reducer comprising: a circular spline provided in the housing and having internal teeth; a flex spline arranged on an inner side of the circular spline and having external teeth formed on an outer periphery, the flex spline being configured to transmit the rotation to the control shaft; a wave generator configured to be rotated by the output shaft of the drive motor to warp the flex spline into an ellipsoidal shape so as to partially mesh the external teeth of the flex spline with the internal teeth of the circular spline, and configured to rotate a meshed portion between the flex spline and the circular spline; and a rolling bearing provided between the wave generator and the housing or a motor housing for the drive motor and including an inner ring fixed to the wave generator, the actuator further comprising a restricting portion configured to restrict movement of an outer ring of the rolling bearing to both sides in an axial direction with respect to the housing or the motor housing for the drive motor. 2 . The actuator for a link mechanism for an internal combustion engine according to claim 1 , wherein the link mechanism for the internal combustion engine is a variable compression ratio mechanism configured to change an engine compression ratio by changing at least one of a top dead center position or a bottom dead center position of a piston of the internal combustion engine through actuation of the control link. 3 . The actuator for a link mechanism for an internal combustion engine according to claim 2 , wherein the wave generator comprises a cylindrical portion provided so as to extend in an axial direction toward the drive motor, and wherein the rolling bearing is provided between the cylindrical portion and the housing. 4 . The actuator for a link mechanism for an internal combustion engine according to claim 3 , wherein the inner ring is press-fitted and fixed over an outer periphery of the cylindrical portion. 5 . The actuator for a link mechanism for an internal combustion engine according to claim 4 , wherein one axial end of the outer ring of the rolling bearing is brought into abutment in the axial direction against a stepped portion formed on the housing so as to restrict movement of the outer ring toward the one axial end, and wherein an opposite axial end of the outer ring of the rolling bearing is brought into abutment in the axial direction against a plate fixed to the housing so as to restrict movement of the outer ring toward the opposite axial end. 6 . The actuator for a link mechanism for an internal combustion engine according to claim 5 , wherein the plate is provided between the circular spline and the rolling bearing. 7 . The actuator for a link mechanism for an internal combustion engine according to claim 6 , wherein the plate is fixed to the housing with a bolt. 8 . The actuator for a link mechanism for an internal combustion engine according to claim 2 , wherein the rolling bearing is provided on a side of the wave generator, which is closer to the drive motor in the axial direction. 9 . The actuator for a link mechanism for an internal combustion engine according to claim 3 , wherein the rolling bearing has an outer diameter larger than an inner diameter of the circular spline. 10 . An actuator for a link mechanism for an internal combustion engine, the actuator comprising: a control link having one end portion coupled to the link mechanism for the internal combustion engine; a control shaft configured to change a posture of the control link through rotation; a housing configured to rotatably support the control shaft; a drive motor configured to rotationally drive a motor output shaft; and a wave gear type speed reducer configured to transmit a rotation speed of the motor output shaft to the control shaft after reducing the rotation speed, the wave gear type speed reducer comprising: a circular spline fixed to the housing and having internal teeth; a flex spline, which is arranged on an inner side of the circular spline, is radially elastically deformed, and has external teeth formed on an outer periphery, the flex spline being configured to rotate together with the control shaft; a wave generator configured to be rotated by the output shaft of the drive motor to warp the flex spline into an ellipsoidal shape so as to partially mesh the external teeth of the flex spline with the internal teeth of the circular spline and to rotate a meshed portion between the flex spline and the circular spline; and a rolling bearing provided between the wave generator and the housing, wherein the rolling bearing is configured to receive loads in both axial directions exerted on the wave generator. 11 . The actuator for a link mechanism for an internal combustion engine according to claim 10 , wherein an outer ring of the rolling bearing is fixed to the housing, and wherein an inner ring of the rolling bearing is fixed to a cylindrical portion of the wave generator, which is extended in an axial direction. 12 . The actuator for a link mechanism for an internal combustion engine according to claim 11 , wherein the inner ring is press-fitted and fixed over an outer periphery of the cylindrical portion. 13 . The actuator for a link mechanism for an internal combustion engine according to claim 11 , wherein one axial end of the outer ring of the rolling bearing is brought into abutment in the axial direction against a stepped portion formed on the housing so as to restrict movement of the outer ring toward the one axial end, and wherein an opposite axial end of the outer ring of the rolling bearing is brought into abutment in the axial direction against a plate fixed to the housing so as to restrict movement of the outer ring toward the opposite axial end. 14 . The actuator for a link mechanism for an internal combustion engine according to claim 13 , wherein the plate is provided between the circular spline and the rolling bearing. 15 . The actuator for a link mechanism for an internal combustion engine according to claim 13 , wherein the plate is fixed to the housing with a bolt. 16 . The actuator for a link mechanism for an internal combustion engine according to claim 10 , wherein the link mechanism for the internal combustion engine is a variable compression ratio mechanism configured to change an engine compression ratio by changing at least one of a top dead center position or a bottom dead center position of a piston of the internal combustion engine through actuation of the control link.