A riding vehicle includes: a main body supporting a wheel and on which a steering stay and a seat stay are erected at an interval in a traveling direction; a handle provided on the steering stay; a pedestal portion fixed to an upper end of the seat stay; a seat rotatably connected to the pedestal portion, and configured to switch between a riding state where the seat stands upright to cover the pedestal portion from above so as to be in an arrangement suitable for riding and a cart state where the seat is inclined in a traveling direction away from the steering stay to open an upper portion of the pedestal portion so as to be in an arrangement suitable for conveyance movement with baggage placed thereon; and a stopper interposed between the pedestal portion and the seat and regulating the seat in the riding and cart states.

A riding vehicle includes: a main body supporting a wheel and on which a steering stay and a seat stay are erected at an interval in a traveling direction; a handle provided on the steering stay; a pedestal portion fixed to an upper end of the seat stay; a seat rotatably connected to the pedestal portion, and configured to switch between a riding state where the seat stands upright to cover the pedestal portion from above so as to be in an arrangement suitable for riding and a cart state where the seat is inclined in a traveling direction away from the steering stay to open an upper portion of the pedestal portion so as to be in an arrangement suitable for conveyance movement with baggage placed thereon; and a stopper interposed between the pedestal portion and the seat and regulating the seat in the riding and cart states.

A left suspension unit supports a left wheel. A right suspension unit supports a right wheel. A steering actuator imparts a force causing the left suspension unit and the right suspension unit to turn about a left steering axis and a right steering axis respectively to a steering force transmission mechanism. A leaning actuator imparts a force causing a body frame to lean leftward or rightward of a leaning vehicle to a link mechanism. A control unit is capable of selecting a first mode wherein both of the steering actuator and the leaning actuator are employed, and a second mode wherein the steering actuator is employed without employing the leaning actuator, in order to control a leaning angle of the body frame in cooperation with a steering mechanism.

A left suspension unit supports a left wheel. A right suspension unit supports a right wheel. A steering actuator imparts a force causing the left suspension unit and the right suspension unit to turn about a left steering axis and a right steering axis respectively to a steering force transmission mechanism. A leaning actuator imparts a force causing a body frame to lean leftward or rightward of a leaning vehicle to a link mechanism. A control unit is capable of selecting a first mode wherein both of the steering actuator and the leaning actuator are employed, and a second mode wherein the steering actuator is employed without employing the leaning actuator, in order to control a leaning angle of the body frame in cooperation with a steering mechanism.

A motorized mobile system includes a human machine interface (HMI) to provide control instructions to the system. A controller in the system receives the control instructions and generates a control signal, wherein the generated control signal causes one or more components of the motorized mobile system to respond. One or more sensors generate health data related to a user, wherein the health data is stored in a secure memory connected to the controller, and wherein the stored user health data is used to bias the control signal for the motorized mobile system.

A powered balancing mobility device that can provide the user the ability to safely navigate expected environments of daily living including the ability to maneuver in confined spaces and to climb curbs, stairs, and other obstacles, and to travel safely and comfortably in vehicles. The mobility device can provide elevated, balanced travel.

A powered balancing mobility device that can provide the user the ability to safely navigate expected environments of daily living including the ability to maneuver in confined spaces and to climb curbs, stairs, and other obstacles, and to travel safely and comfortably in vehicles. The mobility device can provide elevated, balanced travel.

A folding scooter frame (100) includes a front vehicle frame (110), a rear vehicle frame (120) and a folding seat support frame (8). The front vehicle frame (110) and the rear vehicle frame (120) are pivotally connected. The folding seat support frame (8) includes a linkage rod (81) and a frame body, wherein a front end of the linkage rod (81) is connected with the front vehicle frame (110), a rear end of the linkage rod (81) is pivotally connected with the frame body, and the linkage rod (81) is able to swing as the front vehicle frame (110) is folded and thus drives the frame body to fold. The folding scooter frame (100) has the advantages of quick and convenient folding operations.

A folding scooter frame (100) includes a front vehicle frame (110), a rear vehicle frame (120) and a folding seat support frame (8). The front vehicle frame (110) and the rear vehicle frame (120) are pivotally connected. The folding seat support frame (8) includes a linkage rod (81) and a frame body, wherein a front end of the linkage rod (81) is connected with the front vehicle frame (110), a rear end of the linkage rod (81) is pivotally connected with the frame body, and the linkage rod (81) is able to swing as the front vehicle frame (110) is folded and thus drives the frame body to fold. The folding scooter frame (100) has the advantages of quick and convenient folding operations.

A solar charging shopping scooter is shown and described. The solar charging shopping scooter includes a scooter, having a base with a housing affixed to a rear portion of the base. A plurality of wheels movably affixed to the underside of the base. A seat affixed to a top portion of the housing. A basket affixed to the front of the housing. A solar panel is attached to the scooter. The solar panel is capable of charging the scooter. An electrical connection, wherein the electrical connection is configured to attach to a wall outlet.