Vehicle (110) including a frame (114), a seat mounted to the frame (114), wheels (116, 118) rotatably mounted on the frame (114), and drive mechanisms (112) for causing rotation of one wheel (116). Each drive mechanism (112) includes an arm (132) pivotally attached to the frame (114) at one end, a weight (136) and attached pedal (138) at an opposite end of the arm (132), and a guide member (142) including a bump (150) and that moves in conjunction with movement of the weight (136). The guide member (142) has a first end region at which it is pivotally attached to the frame (114) and a second, opposite end region which is free. A roller (140) attached to the arm (132) moves along the guide member (142) during pivotal movement of the arm (132) to cause pivoting of the guide member (142) as the roller (140) engages with the bump (150). An energy transfer system (148) converts pivotal movement of the guide member (142) into motive power to rotate the wheel (116).

Vehicle (110) including a frame (114), a seat mounted to the frame (114), wheels (116, 118) rotatably mounted on the frame (114), and drive mechanisms (112) for causing rotation of one wheel (116). Each drive mechanism (112) includes an arm (132) pivotally attached to the frame (114) at one end, a weight (136) and attached pedal (138) at an opposite end of the arm (132), and a guide member (142) including a bump (150) and that moves in conjunction with movement of the weight (136). The guide member (142) has a first end region at which it is pivotally attached to the frame (114) and a second, opposite end region which is free. A roller (140) attached to the arm (132) moves along the guide member (142) during pivotal movement of the arm (132) to cause pivoting of the guide member (142) as the roller (140) engages with the bump (150). An energy transfer system (148) converts pivotal movement of the guide member (142) into motive power to rotate the wheel (116).

A bicycle drivetrain including a first shaft and a second shaft which rotate in opposing directions, a first pedal connected to a first pedal crank connected to the first shaft and a second pedal connected to a second pedal crank connected to a second shaft, an engaged first spur gear and second spur gear attached to the first shaft and the second shaft, respectively, a first slip clutch mounted to the first shaft and connected to a main sprocket and a second slip clutch mounted to the second shaft, a first sprocket and a second sprocket having the same direction of rotation and attached to the first slip clutch and the second slip clutch, respectively, a rear sprocket attached to a rear wheel and connected to the main sprocket, and a plurality of mechanical stops which prevent unwanted rotation of the bicycle drivetrain.

A bicycle drivetrain including a first shaft and a second shaft which rotate in opposing directions, a first pedal connected to a first pedal crank connected to the first shaft and a second pedal connected to a second pedal crank connected to a second shaft, an engaged first spur gear and second spur gear attached to the first shaft and the second shaft, respectively, a first slip clutch mounted to the first shaft and connected to a main sprocket and a second slip clutch mounted to the second shaft, a first sprocket and a second sprocket having the same direction of rotation and attached to the first slip clutch and the second slip clutch, respectively, a rear sprocket attached to a rear wheel and connected to the main sprocket, and a plurality of mechanical stops which prevent unwanted rotation of the bicycle drivetrain.

A lever propelled bicycle providing elements allowing it to have significant performance, friction reduction, standard bicycle weight and a wide range of downward pedal to rear wheel turn ratio due to the following mechanical configurations: These include, a drive axle and reciprocal axle elevated near each other to keep the frame upon which these components rest on, narrower in side width or surface area; the fulcrum of the propulsion levers in front of the rear wheel axle and pedals in conventional ergonomic positions to provide a force multiplying machine with above average torque; and a reciprocal means utilizing two pulley wheels to carry an adaptable linear apparatus over their upper and outfacing surfaces for the purpose of transferring the downward pull of the linear apparatus by the right lever machine to lift the left lever up in a vertical 90 degree pivotal motion and vice versa, resulting in a smooth transfer of reciprocal power with reduced friction and weight. Furthermore, the pull of each lever machine in a vertical vector of force eliminates inward angular pulling pressure on each lever machine, which prevents each lever machine from being bent out of vertical alignment during pedaling.

A lever propelled bicycle providing elements allowing it to have significant performance, friction reduction, standard bicycle weight and a wide range of downward pedal to rear wheel turn ratio due to the following mechanical configurations: These include, a drive axle and reciprocal axle elevated near each other to keep the frame upon which these components rest on, narrower in side width or surface area; the fulcrum of the propulsion levers in front of the rear wheel axle and pedals in conventional ergonomic positions to provide a force multiplying machine with above average torque; and a reciprocal means utilizing two pulley wheels to carry an adaptable linear apparatus over their upper and outfacing surfaces for the purpose of transferring the downward pull of the linear apparatus by the right lever machine to lift the left lever up in a vertical 90 degree pivotal motion and vice versa, resulting in a smooth transfer of reciprocal power with reduced friction and weight. Furthermore, the pull of each lever machine in a vertical vector of force eliminates inward angular pulling pressure on each lever machine, which prevents each lever machine from being bent out of vertical alignment during pedaling.

A transmission structure for a bicycle includes two opposite transmission units. Each of the transmission units includes a linear reciprocating pedaling mechanism, a transmission module which is in transmission connection with the linear reciprocating pedaling mechanism, and a resetting module connected with the transmission module. The transmission modules of the two transmission units are connected with a power output mechanism through a unidirectional transmission mechanism. The transmission module includes a first driven wheel and a first transmission gear configured to be coaxial with the first driven wheel. The resetting module includes a connecting piece and an elastic piece. The connecting piece is connected with the first transmission gear. The elastic piece is connected with the connecting piece.

An exercise device for performing a variety of movement patterns. The exercise device has a pair of linkages, each including an upper link pivotally mounted to a frame and a lower link pivotally coupled to an upper link. A foot support is provided on a distal end of each lower link. A compression link interconnects the lower link to the frame. The compression link includes a shaft coupled to the lower link, a sleeve coupled to the frame and a spring captured between the shaft and the sleeve, whereby the spring provides a resistance to movement of the lower link relative to the frame.

An exercise device for performing a variety of movement patterns. The exercise device has a pair of linkages, each including an upper link pivotally mounted to a frame and a lower link pivotally coupled to an upper link. A foot support is provided on a distal end of each lower link. A compression link interconnects the lower link to the frame. The compression link includes a shaft coupled to the lower link, a sleeve coupled to the frame and a spring captured between the shaft and the sleeve, whereby the spring provides a resistance to movement of the lower link relative to the frame.

The present invention is a removable device/mechanism which is installed onto a bicycle. The installed device assists a user in pedaling in a unique fashion which removes the stresses and forces of ordinary cycling. The movement of the pedals becomes such that force is caused only during half of the circumferential movement of each pedal, similar to a step/climbing machine. The movement is achieved by placing two shafts which move alongside planes parallel to the user during motion, the two shafts being interconnected at their top and bottom ends. The bottom ends are connected to the gears and chain of the bicycle as described herein. The top ends are connected to a reverse mechanism as described herein. The combination of elements assists the user by turning an ordinary bicycle into a more relaxed use machine, allowing more people to use bicycles.