| CPC F16H 9/24 (2013.01) [F16H 55/30 (2013.01); F16H 2055/306 (2013.01)] | 3 Claims |
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1. A continuously variable transmission, comprising:
a driver axle;
a pair of driver assembly substantially frustoconical members, each having a narrower end and a lateral surface, coaxially mounted and axially slidable on said driver axle, with said narrower ends facing each other to form a driver assembly, whereby said lateral surfaces of said driver frustoconical members define a driver circumferential valley therebetween, having driver valley sides, whereby axially sliding one of said driver assembly frustoconical members along said driver axle changes separation of said driver valley sides;
a driven axle parallel to and spaced apart from said driver axle;
a pair of driven assembly substantially frustoconical members, each having a narrower end and a lateral surface, coaxially mounted and axially slidable on said driven axle, with said narrower ends facing each other to form a driven assembly, whereby said lateral surfaces of said driven frustoconical members define a driven circumferential valley therebetween, having driven valley sides, whereby axially sliding one of said driven assembly frustoconical members along said driven axle changes separation of said driven valley sides;
wherein said driver circumferential valley and said driven circumferential valley are approximately coplanar;
a plurality of radially spaced unidirectional sprocket wheels having teeth, each having a wheel diameter and each slidably mounted on said valley sides of said frustoconical members of said assemblies to slide substantially radially, so that axially sliding said frustoconical members in an assembly changes radial separation between all of said sprocket wheels mounted on said assembly;
wherein said unidirectional sprocket wheels mounted on said driver assembly rotate only in the same direction as said driver axle and said unidirectional sprocket wheels mounted on said driven assembly rotate only in the opposite direction as said driver axle;
a chain made of interlocking movable links having a chain length, and chain sides defining a chain width, said links receivable and engageable with radially outward of said teeth on said sprocket wheels that extend radially outward from said circumferential valleys as said sprocket wheels rotate;
wherein said chain sides bear against and engage said valley sides and said links of said chain engage with said radially outward of said teeth of said unidirectional sprocket wheels, whereby said chain forms a substantially circular arc within said circumferential valleys and said valley sides prevent said chain from extending straight from said radially outward of said teeth of one sprocket wheel to said radially outward of said teeth of an adjacent sprocket wheel, even though said radially outward of said teeth of said sprocket wheels are engaged with said links of said chain, whereby vibration from different sprocket wheels engaging with said chain as said assemblies rotate is reduced;
transmission actuators operably connected to said frustoconical members to simultaneously axially slide said frustoconical members in said driver assembly together and apart along said driver axle and axially slide said frustoconical members in said driven assembly together and apart along said driven axle, in opposite directions by engagement-maintaining amounts necessary to keep length of said chain extending over said radially outward of said teeth of said sprocket wheels mounted on both assemblies substantially constant, in order to maintain engagement of said chain over said radially outward of said teeth as said frustoconical members are axially slid along said axles and said sprocket wheels rotate;
whereby actuating said transmission actuators changes radial separation of said radially outward of said teeth of said sprocket wheels for said driver assembly and said driven assembly in opposite directions by tensioning amounts necessary to maintain substantially constant tension in said chain while said links are engaged on said radially outward of said teeth, as gear ratios between said driver axle and said driven axle are changed;
further comprising:
a shift compensator compensatably drivably rotatably connected to an ultimate axle, to compensate for rotation of said ultimate axle due to rotation of said driver axle or said driven axle due to shifting of said gear ratios between said axles; and
an actuatable clutch to selectively engage and disengage said shift compensator from being drivably rotatably connected to at least one of said driver axle and said driven axle.
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