Tensioner

We claim: 1. A tensioner comprising: a base; a first tensioner sub-assembly mounted to the base and comprising a one-way clutch, a first pivot arm 90 and a first torsion spring loaded in a first direction, a first pulley journalled to the first pivot arm; a second tensioner sub-assembly mounted to the base and comprising a second pivot arm and a second torsion spring loaded in a second direction opposite the first direction, a second pulley journalled to the second pivot arm; the first sub-assembly cooperatively engaged with the second sub-assembly through an elongate flexible member 40 and the one-way clutch; the first torsion spring and second torsion spring exert a tensile load on the elongate flexible member; and the one-way clutch frictionally engaged with the first pivot arm whereby a relative movement of the first pivot arm away from the second pivot arm is restricted. 2. The tensioner as in claim 1 , wherein the one-way clutch comprises a wrap spring that is radially expandable to frictionally engage the first pivot arm in a loaded condition. 3. The tensioner as in claim 2 , wherein the one-way clutch is loaded in the unwinding direction. 4. The tensioner as in claim 1 further comprising: a first sprocket rotationally engaged with the first pivot arm, the elongate tensile member engaged with the first sprocket, the first torsion spring engaged between the first pivot arm and the first sprocket; and a second sprocket rotationally engaged with the second pivot arm, the second sprocket engaged with the elongate tensile member, the second torsion spring engaged between the second pivot arm and the second sprocket. 5. The tensioner as in claim 4 , wherein the one-way clutch is engaged between the first sprocket and the first pivot arm. 6. A tensioner comprising: a base; a first tensioner sub-assembly mounted to the base and comprising a one-way clutch, a first pivot arm, a first torsion spring loaded in a first direction, a first pulley journalled to the first pivot arm; a first sprocket rotationally engaged with the first pivot arm, the first sprocket engaged with an elongate tensile member, the first torsion spring engaged between the first pivot arm and the first sprocket, the one-way clutch engaged with the first sprocket; a second tensioner sub-assembly mounted to the base and comprising a second pivot arm, a second torsion spring loaded in a second direction opposite the first direction, a second pulley journalled to the second pivot arm; a second sprocket rotationally engaged with the second pivot arm, the second sprocket engaged with the elongate tensile member, the second torsion spring engaged between the second pivot arm and the second sprocket; the first torsion spring and second torsion spring exert a tensile load on the elongate flexible member; and the one-way clutch frictionally engaged with the first pivot arm whereby a relative movement of the first pivot arm away from the second pivot arm is restricted for a predetermined operating condition. 7. A tensioner comprising: a base; a first tensioner subassembly pivotally mounted to the base; a second tensioner subassembly pivotally mounted to the base; a tensile member joining the first tensioner subassembly and the second tensioner subassembly; the first tensioner subassembly urged in a direction opposite the second tensioner subassembly; and a one-way clutch frictionally engaged with the first tensioner subassembly whereby a relative movement of the first tensioner subassembly away from the second tensioner subassembly is restricted for a first predetermined operating condition and a relative movement of the first tensioner subassembly toward the second tensioner subassembly is not restricted for a second predetermined operating condition; wherein: the first tensioner sub-assembly further comprises a first pivot arm and a first torsion spring loaded in a first direction, a first pulley journalled to the first pivot arm; and the second tensioner sub-assembly further comprises a second pivot arm and a second torsion spring loaded in a second direction opposite the first direction, a second pulley journalled to the second pivot arm. 8. The tensioner as in claim 7 , wherein: a first sprocket rotationally engaged with the first pivot arm, the first sprocket engaged with the tensile member, the first torsion spring engaged between the first pivot arm and the first sprocket; a second sprocket rotationally engaged with the second pivot arm, the second sprocket engaged with the tensile member, the second torsion spring engaged between the second pivot arm and the second sprocket; and the one-way clutch is frictionally engaged between the first sprocket and the first pivot arm.