Pulley device for tensioning idler or runner roller

The invention claimed is: 1. A pulley device for a belt or chain tensioning idler or runner roller, the device comprising: a pulley, a rolling bearing, a spacer for mounting the rolling bearing, to press against an element external to the pulley device, and including a recess, a fastener positioned within the spacer and including a threaded portion, a smooth portion, and a groove having a rectilinear shape in axial cross-section, the groove being located axially between the threaded portion and the smooth portion, a first outer diameter of the threaded portion being equal to a second outer diameter of the smooth portion, the groove having an inner diameter less than the first and second diameters, the threaded portion having a second inner diameter that is greater than the inner diameter of the groove such that the groove and the threaded portion are not axially coextensive; an elastic retaining ring configured to be mounted inside the groove and being radially elastic such that an outer diameter of the elastic retaining ring can be reduced by a radially inward force, a free state outer diameter of the elastic retaining ring being greater than the outer diameters of the threaded portion and the smooth portion, a portion of the elastic retaining ring protruding radially into the recess of the spacer, and wherein the fastener and retaining ring are configured to combine to limit axial movement of the pulley device along a geometric axis thereof relative to the fastener. 2. The pulley device according to claim 1 , wherein the retaining ring is open at one point on its circumference. 3. The pulley device according to claim 1 , wherein the retaining ring has an external surface that is at least partly conical. 4. The pulley device according to claim 1 , wherein the spacer has an external bearing surface and the retaining ring is axially spaced from the external bearing surface of the spacer. 5. The pulley device according to claim 1 , wherein the spacer recess has a bore with an inner diameter and the retaining ring has an outer diameter in a free state that is one of less than and equal to the inner diameter of the spacer recess bore. 6. The pulley device according to claim 1 , wherein the spacer has a shoulder partly defining the recess, the shoulder has an inner diameter, and the retaining ring has an outer diameter in a free state that is greater than the inner diameter of the shoulder. 7. The pulley device according to claim 1 , wherein the retaining ring has an inner diameter that is greater than a diameter of the groove of the fastener. 8. The pulley device according to claim 1 , wherein the fastener includes a tightening head configured to press axially against the rolling bearing on a side opposite to the spacer. 9. The pulley device of claim 1 , wherein an axial width of the groove is no more than one and a half (1.5) times an axial length of the elastic ring. 10. The pulley device of claim 1 , wherein the axial movement of the pulley along the fastener is limited to a distance not greater than the difference between a width of the groove, as measured parallel to the geometric axis, minus a width of the retaining ring, as measured parallel to the geometric axis. 11. The pulley device of claim 10 , wherein the axial movement of the pulley along the fastener is limited to a distance not greater than half the width of the retaining ring. 12. A method of mounting a pulley device for a belt or chain tensioning idler or runner roller, the method comprising the steps of: providing a first subassembly including a pulley, a rolling bearing and a spacer placed at least partly in the bore of the rolling bearing, the spacer having a bore and a recess, providing a second subassembly including a fastener with a head, a threaded portion, a smooth portion, and a retaining ring which is elastic radially and which is mounted in a groove of the fastener, the groove having a rectilinear shape in axial cross-section, the groove being located axially between the threaded portion and the smooth portion, wherein a first outer diameter of the threaded portion is equal to a second outer diameter of the smooth portion, the threaded portion having a second inner diameter that is greater than the inner diameter of the groove such that the groove and the threaded portion are not axially coextensive; inserting the second subassembly into the bore of the spacer by axial pressure so as to radially restrict the retaining ring in the groove of the fastener, and axially pushing the second subassembly until the head of the fastener presses against the rolling bearing and the retaining ring at least partly reverts to an initial shape in the recess of the spacer and in the groove of the fastener, wherein the second subassembly limits movement in a first direction of the first subassembly relative to the second subassembly, the first direction being parallel to a geometric axis of the first subassembly, wherein the groove of the fastener and the retaining ring are configured such that the retaining ring is mounted in the groove of the fastener before, during, and after inserting the second subassembly into the bore of the spacer and axially pushing the second subassembly until the head of the fastener is positioned adjacent the roller bearing. 13. The method of claim 12 , wherein after the retaining ring at least partly reverts to the initial shape in the recess of the spacer and in the groove of the fastener, the movement of the first subassembly being limited to a distance of no more than half the width of the retaining ring, as measured parallel to the geometric axis. 14. The method of claim 12 , wherein the step of providing the second subassembly further comprises the retaining ring having first and second sides each generally oriented in a different axial direction, wherein the retaining ring is radially compressible when force is exerted against the first side, but not when force is exerted against the second side. 15. The method of claim 14 , wherein the step of providing the second subassembly further comprises the fastener having a tightening head on one end thereof, the retaining ring being configured to be compressible radially inwardly when abutting an object that comes into contact with a portion of the retainer ring located outside the retaining ring such that the object contacts a side of the retaining ring generally facing opposite from the tightening head of the fastener. 16. A pulley device for a belt or chain tensioning idler or runner roller, the device comprising: a pulley, a rolling bearing, a spacer for mounting the rolling bearing, configured to press against an element external to the pulley device, and including a recess having an annular shape forming a shoulder with a rectilinear cross-section formed by first and second recess surfaces, the first recess surface being perpendicular to a geometric axis of the pulley device and the second recess surface being parallel to the geometric axis, and a fastener axially fixed relative to the spacer and including a threaded portion, a smooth portion, and a groove having a rectilinear shape in axial cross-section, the groove being located axially between the threaded portion and the smooth portion, a first outer diameter of the threaded portion being equal to a second outer diameter of the smooth portion, the threaded portion having a second inner diameter that is greater than the inner diameter of the groove such that the groove and the threaded portion are not axially coextensive, the groove having an inner diameter less than the outer diameters of the smooth porti