Ball screw with retaining device

The invention claimed is: 1. A ball screw, comprising: a spindle supported for rotation around an axis of rotation; a ball nut radially disposed around the spindle and including a first helical protrusion, the first helical protrusion defining a first helical groove in the ball nut; a plurality of balls disposed in the first helical groove and in contact with the spindle; a reset spring directly engaged with the plurality of balls, including a first portion located in the first helical groove, and including an end portion with an end surface facing at least partly in a first circumferential direction around the axis of rotation and directly engaged with the ball nut; and, a retaining device in constant direct contact with the ball nut, including a circumferential end located past the end surface of the reset spring in a first axial direction parallel to the axis of rotation, and arranged to limit displacement of the end portion of the reset spring in the first axial direction, wherein no portion of the ball nut is disposed between the end portion of the reset spring and the circumferential end of the retaining device in the first axial direction, and wherein an entirety of the retaining device is located beyond the reset spring in the first axial direction. 2. The ball screw of claim 1 , wherein: the ball nut is a first component of the ball screw; and, the retaining device is a second component of the ball screw, different from the first component of the ball screw. 3. The ball screw of claim 1 , wherein: the retaining device blocks displacement of the end portion of the reset spring in the first axial direction; and, for a first circumferential position of the spindle around the axis of rotation, the reset spring urges the plurality of balls in a second axial direction, opposite the first axial direction. 4. The ball screw of claim 1 , wherein a hypothetical line passes through, in sequence and in a second axial direction, opposite the first axial direction, the retaining device and the end portion of the reset spring without passing through the ball nut. 5. The ball screw of claim 4 , wherein the hypothetical line passes through the first helical protrusion after passing through the end portion of the reset spring. 6. The ball screw of claim 1 , wherein the end surface of the reset spring is located past the first helical protrusion in the first axial direction and is located past the retaining device in a second axial direction opposite the first axial direction. 7. The ball screw of claim 1 , wherein: the first helical protrusion includes an end surface facing at least partly in the first circumferential direction; the ball nut includes a step surface facing at least partly in a second circumferential direction, opposite the first circumferential direction; the end surface of the reset spring is directly engaged with the step surface; the end surface of the first helical protrusion is separated, in the first circumferential direction, from the step surface of the ball nut by a gap; and, the retaining device overlaps at least a portion of the gap in the first axial direction; or, a hypothetical line passes through, in sequence and in the first axial direction, the end portion of the reset spring, the gap, and the retaining device. 8. The ball screw of claim 1 , wherein: in a first circumferential position of the spindle, the reset spring urges the plurality of balls in a second circumferential direction, opposite the first circumferential direction; the first helical protrusion includes an end surface facing at least partly in the first circumferential direction; and, the reset spring and the retaining device extend past the end surface of the first helical protrusion in the first circumferential direction. 9. The ball screw of claim 1 , wherein no portion of the retaining device is located radially inward of the reset spring with respect to the axis of rotation. 10. The ball screw of claim 1 , wherein: in a first circumferential position of the spindle, the reset spring urges the plurality of balls in a second circumferential direction, opposite the first circumferential direction; the retaining device includes an end surface facing at least partly in the first circumferential direction; and, the end surface of the reset spring is located past the end surface of the retaining device in the first circumferential direction. 11. The ball screw of claim 1 , wherein: the spindle includes a second helical protrusion defining a second helical groove; and, the plurality of balls and the first portion of the reset spring are disposed in the second helical groove. 12. The ball screw of claim 1 , wherein: the ball nut supports the reset spring in the first circumferential direction; and, the end portion of the reset spring is free of support from the ball nut in the first axial direction. 13. The ball screw of claim 1 , wherein: the ball nut includes a first axial end and a second axial end; the first axial direction is from the first axial end toward the second axial end; and, the first axial end, the reset spring, the retaining device, and the second axial end are in sequence in the first axial direction. 14. A ball screw, comprising: a spindle; a ball nut radially disposed around the spindle, axially displaceable with respect to the spindle, and including a first helical protrusion, the first helical protrusion defining a first helical groove in the ball nut; a plurality of balls disposed in the first helical groove and in contact with the spindle; a reset spring including a first portion located in the first helical groove and an end portion extending past the first helical groove in a first circumferential direction around an axis of rotation of the ball screw; and, a retaining device directly connected to the ball nut and arranged to limit displacement of the end portion of the reset spring in a first axial direction parallel to the axis of rotation, wherein for a first circumferential position of the spindle around the axis of rotation, the reset spring urges the plurality of balls in a second axial direction, opposite the first axial direction, and wherein an entirety of the retaining device has an extent, in the first circumferential direction, greater than 90 degrees and less than 360 degrees. 15. A ball screw, comprising: a spindle supported for rotation around an axis of rotation; a ball nut radially disposed around the spindle, axially displaceable with respect to the spindle, and including a helical protrusion, the helical protrusion defining a helical groove in the ball nut and including an end forming a portion of the helical protrusion extending furthest in a first axial direction parallel to the axis of rotation; a plurality of balls disposed in the helical groove and in contact with the spindle; a reset spring located in the helical groove and including an end portion forming a portion of the reset spring extending furthest in the first axial direction, the end portion extending past the end of the helical groove in the first axial direction and including an end surface, the end surface facing at least partly in a first circumferential direction around the axis of rotation and directly engaged with the ball nut; and, a retaining device directly connected to the ball nut, extending past the end of the helical protrusion in the first circumferential direction, and located past the end portion of the reset spring in the first axial direction, wherein the retaining device includes a first circumferential end facing at least partly in the first circumferent