Electric linear actuator

What is claimed is: 1. An electric linear actuator comprising: a cylindrical housing formed of aluminum light alloy; an electric motor mounted on the housing; a speed reduction mechanism to reduce the rotational speed of the electric motor via a motor shaft; a ball screw mechanism to convert the rotational motion of the electric motor to an axial linear motion of a drive shaft via the speed reduction mechanism; the ball screw mechanism comprising: a nut formed with a helical screw groove on its inner circumference, the nut is rotationally supported by a pair of supporting bearings mounted on the housing, the nut is axially immovable; a screw shaft coaxially integrated with the drive shaft, the screw shaft is formed with a helical screw groove on its outer circumference that corresponds to the helical screw groove of the nut, the screw shaft is adapted to be inserted into the nut, via a large number of balls, the screw shaft is non-rotationally supported on the housing but is axially movable; the housing includes at least a first receiving bore to receive the screw shaft; a cylindrical sleeve is securely press-fit into the at least first receiving bore of the housing, the sleeve includes one pair of axially extending recessed grooves on its inner circumference at diametrically opposed positions, and a guide pin, mounted on the end of the screw shaft, engages the one pair of axially extending recessed grooves; and an annular groove is formed near an opening of the at least first receiving bore of the housing, the sleeve is held in the at least first receiving bore by a force directly applied by a stopper ring, the stopper ring is snapped in the annular groove. 2. The electric linear actuator of claim 1 , wherein the stopper ring is formed with bent portions, each bent portion having at least one vertex symmetrically positioned around a cut-out portion of the stopper ring. 3. The electric linear actuator of claim 1 , wherein the width of the annular groove is set smaller than the free height of the stopper ring. 4. The electric linear actuator of claim 1 , wherein at least radially outermost corner edges of the stopper ring are rounded. 5. The electric linear actuator of claim 1 , wherein the stopper ring is formed by press working wire material where corner edges are previously rounded. 6. The electric linear actuator of claim 1 , wherein the sleeve is formed from sintered alloy that may be carburization quenched. 7. The electric linear actuator of claim 1 , wherein the housing is formed by aluminum die casting. 8. The electric linear actuator of claim 1 , wherein the guide pin is a needle roller used for needle roller bearings.