A pump-action mobility vehicle may include a pumping arm attached to a foot slide. As the pumping arm is actuated, the foot slide moves forward and rearward in response to the pumping action. The foot slide may be connected to a drive mechanism that selectively engages a chain or belt that loops around a drive wheel arranged on an axle of the vehicle. When the drive mechanism catches and moves the belt or chain in a forward direction, the axle rotates in a forward direction to drive the vehicle forward. A reverse mechanism may also be provided that selectively causes the drive mechanism to catch and drive the belt or chain in an opposite direction.

A portable conveyance footrest has a support portion having a substantially planar base surface to receive a foot. A tow handle portion is connected to an end of the support portion and forms a substantially planar tow handle that is within a same plane as the substantially planar base surface. The tow handle is spaced apart from the end of the support portion to define a void between the tow handle and the second end of the support portion. The tow handle is disposed within the same plane as the substantially planar base surface so that a user's fingers, when gripping the tow handle, extend into the void between the tow handle and the end of the support portion and through the plane of the substantially planar surface.

A portable conveyance footrest has a support portion having a substantially planar base surface to receive a foot. A tow handle portion is connected to an end of the support portion and forms a substantially planar tow handle that is within a same plane as the substantially planar base surface. The tow handle is spaced apart from the end of the support portion to define a void between the tow handle and the second end of the support portion. The tow handle is disposed within the same plane as the substantially planar base surface so that a user's fingers, when gripping the tow handle, extend into the void between the tow handle and the end of the support portion and through the plane of the substantially planar surface.

The invention relates to a transport cycle (2) comprising a frame and at least three wheels (4) of which at least two wheels (4) are designed as side wheels (6) spaced at a certain distance from one another in a direction extending transversely to a direction of travel of the transport cycle (2), wherein said transport cycle (2) has a storage area. The transport cycle (2) has two lateral supports (5) which are spaced at a certain distance from one another transversely to the direction of travel, laterally delimit, as the storage area, a storage space (10) having an access opening (11), and form therebetween the storage space (10) having an access opening (11) for inserting a transport box. The invention also relates to a transport system comprising the transport cycle and a transport box which can be inserted into the storage space.

A wheeled vehicle incorporating a frame; a drive shaft mounted upon the frame, the drive shaft having rotary power input and output ends; a drive wheel mounted upon the frame; a rotary power output linkage operatively interconnecting the drive shaft's output end and the drive wheel; rotary power pedals mounted upon the frame; a rotary power input linkage operatively interconnecting the drive shaft's input end and the rotary power pedals; a spiral spring having a rotary power input end and a rotary power output end, the spiral spring being mounted over the drive shaft; a clutch and one way bearing combination for anchoring the spiral spring's rotary power input end upon the drive shaft and upon the frame; and a one way bearing and brake combination for alternatively anchoring the spiral spring's rotary power output end upon the drive shaft and upon the frame.

A wheeled vehicle incorporating a frame; a drive shaft mounted upon the frame, the drive shaft having rotary power input and output ends; a drive wheel mounted upon the frame; a rotary power output linkage operatively interconnecting the drive shaft's output end and the drive wheel; rotary power pedals mounted upon the frame; a rotary power input linkage operatively interconnecting the drive shaft's input end and the rotary power pedals; a spiral spring having a rotary power input end and a rotary power output end, the spiral spring being mounted over the drive shaft; a clutch and one way bearing combination for anchoring the spiral spring's rotary power input end upon the drive shaft and upon the frame; and a one way bearing and brake combination for alternatively anchoring the spiral spring's rotary power output end upon the drive shaft and upon the frame.

The apparatus comprises a rotary to variable linear converter which functions to steer a pivotable rotatable directional wheel of a vehicle.

The converter comprises a driven rotatable cylinder and a rotatable pivotable friction wheel pressed against the surface of the cylinder so that they rotate together. The friction wheel is slidably mounted on guide rods extending parallel to the cylinder surface so that the friction wheel can advance helically along the cylinder if angled relative to the cylinder axis. The friction wheel generates a lateral force which is used to apply torque to the directional wheel to turn it. The orientation of the friction wheel is varied and controlled by a digit-operated control lever operated by a rider of the vehicle.

Provided is a vehicle that performs position control in accordance with a travel condition such as turning or a change in a road surface. In a vehicle according to the present invention that can be propelled by an activating force of a driver, at least one of a front wheel section and a rear wheel section is structured from a left/right pair of wheels, a condition of the vehicle is detected, the rotational force of each of the pair of wheels can be controlled independently of one another in response to the detection, and the pair of wheels are attached to the vehicle via a suspension mechanism.

Provided is a vehicle that performs position control in accordance with a travel condition such as turning or a change in a road surface. In a vehicle according to the present invention that can be propelled by an activating force of a driver, at least one of a front wheel section and a rear wheel section is structured from a left/right pair of wheels, a condition of the vehicle is detected, the rotational force of each of the pair of wheels can be controlled independently of one another in response to the detection, and the pair of wheels are attached to the vehicle via a suspension mechanism.

A vehicle includes: N (N is an integer equal to or larger than 3) wheels including a pair of wheels spaced apart from each other in a width direction of the vehicle and a steered wheel turnable to right and left relative to the vehicle body; operation input unit to be operated to input a steering direction of the steered wheel; lean mechanism for leaning the vehicle body in its width direction; and lean control unit for controlling the lean mechanism. Lean control unit controls the lean mechanism so that vehicle body leans toward the steering direction side in response to an input into the operation input unit. Vehicle includes detector for detecting a force that changes a lean angle of the vehicle body. Lean control unit causes the lean mechanism to generate a torque that produces a force in a direction opposite to a force detected by the detector.