Vehicle includes a frame, a seat arranged on the frame, a wheel rotatably mounted on the frame, an elongate directional slider, a pedal on the directional slider that slides between first and second positions, a main drive chain connected to the first wheel, a main drive sprocket that rotates the main drive chain and thus the first wheel, a flywheel that rotates the main drive sprocket, and an energy generating system that converts sliding of the pedal on the directional slider into rotational force to rotate the flywheel. The energy generating system may include a first electrical coil assembly connected to the pedal, a second electrical coil assembly in connection with the directional slider and that cooperates with the first electrical coil assembly to cause generation of electricity, and an electrical motor that is powered by the generated electricity and is coupled to the flywheel to rotate the flywheel.

A three wheeled hearse assembly for transporting a motorcyclist's casket includes a rolling chassis, which in turn comprises a front wheel and a pair of rear wheels. A frame is engaged to the rolling chassis between the front wheel and the rear wheels. A casket can be positioned in the frame so that the casket is engaged to the rolling chassis. A seat is engaged to the rolling chassis proximate to the front wheel. A handlebar is engaged to the rolling chassis proximate to the front wheel and is operationally engaged thereto. The handlebar is can be grasped in hands of a driver positioned on the seat, positioning the driver to selectively turn the front wheel to steer the rolling chassis.

A three wheeled hearse assembly for transporting a motorcyclist's casket includes a rolling chassis, which in turn comprises a front wheel and a pair of rear wheels. A frame is engaged to the rolling chassis between the front wheel and the rear wheels. A casket can be positioned in the frame so that the casket is engaged to the rolling chassis. A seat is engaged to the rolling chassis proximate to the front wheel. A handlebar is engaged to the rolling chassis proximate to the front wheel and is operationally engaged thereto. The handlebar is can be grasped in hands of a driver positioned on the seat, positioning the driver to selectively turn the front wheel to steer the rolling chassis.

A locking/unlocking system for traction systems actuated by pedal levers, which includes: a blocking element (1); a receiving element (10); an automatic activation means (3) for coupling and uncoupling the blocking element (1) of the receiving element (10); at least, a control means (16) for controlling the automatic activation means (3); at least, a switch (15a, 15b) for turning the control means on and/or off (16); and at least, a power source (17).

A pedal lever (9) for traction systems actuated by pedal levers, which includes: a locking/unlocking system, in accordance with this invention.

A traction system actuated by pedal levers, which in turn includes: a pedal lever (9) in accordance with this invention on each of the two ends of the central axis (8), which is introduced and fastened to the adapter (7) of the freewheel (6), or directly onto the freewheel (6) of the lever (9).

A locking/unlocking system for traction systems actuated by pedal levers, which includes: a blocking element (1); a receiving element (10); an automatic activation means (3) for coupling and uncoupling the blocking element (1) of the receiving element (10); at least, a control means (16) for controlling the automatic activation means (3); at least, a switch (15a, 15b) for turning the control means on and/or off (16); and at least, a power source (17).

A pedal lever (9) for traction systems actuated by pedal levers, which includes: a locking/unlocking system, in accordance with this invention.

A traction system actuated by pedal levers, which in turn includes: a pedal lever (9) in accordance with this invention on each of the two ends of the central axis (8), which is introduced and fastened to the adapter (7) of the freewheel (6), or directly onto the freewheel (6) of the lever (9).

A bicycle includes a frame having a seat tube, a rear wheel including a drive plate, and a drive system configured to drive rotation of the rear wheel. The drive system includes at least one shaft operably extending in a direction between the seat tube and the rear wheel and arranged to interact with the drive plate. A pair of drive assemblies are located near or at least in part inside the seat tube and are arranged to operably interact with the drive shaft. The at least one drive shaft converts linear motion of the drive assemblies into rotation of the rear wheel without a chain or chainring.

A bicycle includes a frame having a seat tube, a rear wheel including a drive plate, and a drive system configured to drive rotation of the rear wheel. The drive system includes at least one shaft operably extending in a direction between the seat tube and the rear wheel and arranged to interact with the drive plate. A pair of drive assemblies are located near or at least in part inside the seat tube and are arranged to operably interact with the drive shaft. The at least one drive shaft converts linear motion of the drive assemblies into rotation of the rear wheel without a chain or chainring.

A vehicle propellable by a human comprising a front assembly having a front wheel and a pair of hand pedals connect thereto; a rear assembly having a first rear wheel and a second rear wheel rotatably connected thereto; a chest rest located between the front assembly and the rear assembly, the chest rest configured to support the chest of a rider lying forward on the vehicle; and a first foot support structure operatively coupled to rotate the first rear wheel, and a second foot support operatively coupled to rotate the second rear wheel wherein the first rear wheel and second rear wheel are independently rotated by opposite feet of a rider when said feet are within said first and second foot support, respectively.

A stride emulator device for efficiently utilizing human leg power for transference to a rotary drive system including a pair of levers, at least two gears, at least two crankshafts having crank arms, and where each lever includes a cam and cam track.

Vehicle includes a frame, a seat arranged on the frame, a wheel rotatably mounted on the frame, an elongate directional slider, a pedal on the directional slider that slides between first and second positions, a main drive chain connected to the first wheel, a main drive sprocket that rotates the main drive chain and thus the first wheel, a flywheel that rotates the main drive sprocket, and an energy generating system that converts sliding of the pedal on the directional slider into rotational force to rotate the flywheel. The energy generating system may include a first electrical coil assembly connected to the pedal, a second electrical coil assembly in connection with the directional slider and that cooperates with the first electrical coil assembly to cause generation of electricity, and an electrical motor that is powered by the generated electricity and is coupled to the flywheel to rotate the flywheel.