Engine starter with torque variator

What is claimed is: 1. A starter for an engine comprising: a motor which works to produce torque when electrically energized; a planetary gear train which includes a sun gear installed on an output shaft of the motor, planet gears meshing with the sun gear, an outer gear meshing with the planet gears, and a planetary carrier retaining the planet gears to be rotatable, the planetary gear train being responsive to input of the torque produced by the motor to output torque from the planetary carrier; a pinion gear which meshes with a ring gear of an engine and works to transmit the torque, as outputted from the planetary carrier, to the ring gear to start the engine; a one-way clutch which permits the outer gear to rotate in a first direction in which the sun gear rotates when the motor rotates to exert the torque on the ring gear for starting the engine and inhibits the outer gear from rotating in a second direction opposite the first direction; and a torque variator that selectively operates in one of an active and an inactive mode, wherein when the outer gear is permitted by the one-way clutch to rotate to cause the outer gear and the planetary carrier to rotate together, the inactive mode is entered to establish transmission of the torque from the motor to the pinion gear, and when the outer gear is inhibited by the one-way clutch from rotating, the active mode is entered to increase the torque transmitted from the motor to the pinion gear. 2. The starter as set forth in claim 1 , wherein the outer gear and the planetary carrier are disposed coaxially with each other, wherein the planetary carrier includes a planetary side rotor, a pinion side rotor, and a torque transmitting mechanism, the planetary side rotor connecting with pins which retain the planet gears to be rotatable and being arranged coaxially with the planetary gear, the pinion side rotor being disposed to have a center axis aligned with a center axis of the planetary side rotor and connecting with the pinion gear, the torque transmitting mechanism working to transmit torque from the planetary side rotor to the pinion side rotor and being disposed between the planetary side rotor and the pinion side rotor so that a difference occurs between torque acting on the planetary side rotor and torque acting on the pinion side rotor, thereby causing the pinion side rotor to rotate relative to the planetary side rotor, wherein the outer gear is of a hollow cylindrical shape, wherein the planetary side rotor and the pinion side rotor are disposed inside an inner circumference of the outer gear, and wherein the torque variator includes a locking-unlocking mechanism which serves to lock the planetary carrier and the outer gear when a relative rotation amount by which the pinion side rotor rotates relative to the planetary side rotor is lower than a given value and unlock the planetary carrier and the outer gear when the relative rotation amount is greater than or equal to the given value. 3. The starter as set forth in claim 2 , wherein the torque transmitting mechanism includes an elastically deformable member and protrusions, the elastically deformable member being disposed on a first surface that is at least one of mutually facing surfaces of the planetary side rotor and the pinion side rotor, the protrusions being disposed on a second surface that is the other of the mutually facing surfaces of the planetary side rotor and the pinion side rotor, the protrusions extending from the second surface in an axial direction of the planetary side rotor and the pinion side rotor and compressing the elastically deformable member in a circumferential direction of the planetary side rotor and the pinion side rotor. 4. The starter as set forth in claim 3 , wherein the elastically deformable member is implemented by a spring held in a holding recess formed in the first surface, and wherein the protrusions are disposed in the holding recess and undergo a restoring force, as produced by the spring, from a downstream side to an upstream side in a direction in which the planetary side rotor and the pinion side rotor rotate when the pinion side rotor rotates relative to the planetary side rotor. 5. The starter as set forth in claim 3 , wherein the first surface has formed therein a holding recess in which the elastically deformable member is disposed, and wherein the elastically deformable member is shaped to protrude from the first surface in an axial direction of the planetary side rotor and the pinion side rotor. 6. The starter as set forth in claim 2 , wherein the locking-unlocking mechanism includes a carrier groove, a roller, and a holding groove, the carrier groove being formed in outer circumferences of the planetary side rotor and the pinion side rotor and extending over and along a boundary between the planetary side rotor and the pinion side rotor in a circumferential direction of the planetary side rotor and the pinion side rotor, the roller being of a spherical shape and disposed in the carrier groove to be rollable, the holding groove being formed in an outer circumferential surface of at least one of the planetary side rotor and the pinion side rotor, the holding groove extending in the axial direction of the pinion side rotor and the planetary side rotor continuously from a downstream side of the carrier groove in a direction of rotation of the pinion side rotor and the planetary side rotor and being shaped to hold therein the roller from crossing the boundary between the planetary side rotor and the pinion side rotor, and wherein each of the carrier groove and the holding groove has upstream and downstream depths in the direction of rotation of the planetary side rotor and the pinion side rotor, the upstream depth being smaller than the downstream depth. 7. The starter as set forth in claim 2 , wherein the planetary carrier includes a first rotor and a second rotor, the first rotor being one of the planetary side rotor and the pinion side rotor which faces an inner circumferential surface of the outer gear and has an outer ring extending in an axial direction of the planetary side rotor and the pinion side rotor, the second rotor being one of the planetary side rotor and the pinion side rotor which is disposed inside an inner circumference of the outer ring, and wherein the locking-unlocking mechanism includes a roller, a through hole, a protrusion, and a recess, the roller being of one of a spherical or cylindrical shape, the through hole passing through the outer ring in a radial direction of the outer ring and being shaped to permit the roller to pass through the hole, the protrusion extending from a portion of an inner circumferential surface of the outer gear toward an outer circumferential surface of the outer ring, the recess being formed in a portion of an outer circumferential surface of the second rotor which faces an inner circumferential surface of the outer ring, the recess retaining the roller therein, and wherein the through hole and the recess are shaped so that the roller drops in the recess when the relative rotation amount is greater than or equal to the given value. 8. The starter as set forth in claim 7 , wherein a spring is disposed to connect the roller and a downstream portion of an inner wall of the through hole in a direction of rotation of the planetary side rotor and the pinion side rotor. 9. The starter as set forth in claim 1 , wherein the torque variator includes an outer gear side contacting portion, a carrier side contacting portion, and a pressing member, the outer gear side contacting portion being rotatable together with the outer gear, the carrier side contacting portion being rotatable together with the planetary carrier, the pressing member working to press the outer