System comprising a roller screw and a roller thrust bearing

The invention claimed is: 1. A system comprising: a screw having an axis of rotation defining an axial direction, the screw comprising a first outer threaded portion having a first helix angle and a second outer threaded portion having a second helix angle and axially spaced from the first outer threaded portion, wherein the first helix angle is equal to the second helix angle, a roller screw mechanism mounted on the first outer threaded portion of the screw, the roller screw mechanism having: a nut arranged around and coaxially with the screw, the nut having a radially inner axially extending nut surface defining a nut inner thread, and a first plurality of rollers cooperating with the first outer threaded portion of the screw and the nut inner thread of the nut, each of the first plurality of rollers having a first roller outer surface with a first roller thread therealong, the first roller thread directly engaging the first outer threaded portion of the screw and directly engaging the nut inner thread of the nut, the first roller thread and the nut inner thread each having a third helix angle that are equal to each other and different from the first helix angle of the first outer threaded portion of the screw such that upon rotation of the screw the first plurality of rollers and the nut move axially with respect to the screw, and a roller thrust bearing mounted on the second outer threaded portion of the screw, comprising: a bushing arranged around and coaxially with the screw, the bushing having a radially inner axially extending bushing surface defining a bushing inner thread, and a second plurality of rollers each having a second roller outer surface defining a second roller thread therealong, the second roller thread directly engaging the second outer threaded portion of the screw and directly engaging the bushing inner thread of the bushing, the second roller thread and the bushing inner thread each having a fourth helix angle that are equal to the second helix angle of the second outer threaded portion such that upon rotation of the screw the second plurality of rollers, the bushing, and the screw are all fixed axially with respect to each other, wherein axial displacement of the roller thrust bearing is different from axial displacement of the roller screw mechanism when the screw rotates. 2. The system according to claim 1 , wherein the values of the diameters of the first and second outer threaded portions of the screw are identical. 3. The system according to claim 2 , wherein each of the first plurality of rollers of the roller screw mechanism further comprises grooves inside which the inner nut thread of the nut and the thread of the first outer threaded portion of the screw are accommodated, such that rotation of the screw axially displaces the roller screw mechanism while not affecting axial placement of the roller thrust bearing. 4. An actuation jack comprising: a rotary driving means; the system of claim 1 ; and wherein the screw of the system is coupled to the rotary driving means. 5. A system comprising: a screw having an axis of rotation defining an axial direction, the screw comprising a first outer threaded portion having a first helix angle and a second outer threaded portion having a second helix angle and axially spaced from the first outer threaded portion, wherein neither the first helix angle nor the second helix angle are perpendicular to the axis of rotation, a roller screw mechanism mounted on the first outer threaded portion of the screw, the roller screw mechanism having: a nut arranged around and coaxially with the screw, the nut having a radially inner axially extending nut surface defining a nut inner thread, and a first plurality of rollers cooperating with the first outer threaded portion of the screw and the nut inner thread of the nut, each of the first plurality of rollers having a first roller outer surface with a first roller thread therealong, the first roller thread directly engaging the first outer threaded portion of the screw and directly engaging the nut inner thread of the nut, the first roller thread and the nut inner thread each having a third helix angle that are equal to each other and different from the first helix angle of the first outer threaded portion of the screw such that upon rotation of the screw the first plurality of rollers and the nut move axially with respect to the screw, and a roller thrust bearing mounted on the second outer threaded portion of the screw, comprising: a bushing arranged around and coaxially with the screw, the bushing having a radially inner axially extending bushing surface defining a bushing inner thread, and a second plurality of rollers each having a second roller outer surface defining a second roller thread therealong, the second roller thread directly engaging the second outer threaded portion of the screw and directly engaging the bushing inner thread of the bushing, the second roller thread and the bushing inner thread each having a fourth helix angle that are equal to the second helix angle of the second outer threaded portion such that upon rotation of the screw the second plurality of rollers, the bushing, and the screw are all fixed axially with respect to each other, wherein axial displacement of the roller thrust bearing is different from axial displacement of the roller screw mechanism when the screw rotates.