The roller board having a footboard and two front wheels mounted on a front axle can be steered in that the front axle is connected to the footboard pivotable about an axis perpendicular to the plane of travel. The front axle is resiliently coupled to the footboard in the direction of rotation.

A self-stabilizing, one-wheeled electric skateboard may include improved features. In some examples, the vehicle includes a status indicator viewable through a slot formed in an upper surface of the board. In some examples, the vehicle includes a convertible carrying handle transitionable between stowed and deployed positions. In some examples, the vehicle includes an interchangeable fender and fender substitute that may be removably coupled to an upper surface of the board. In some examples, a motor controller of the vehicle may operate a field-oriented control (FOC) scheme configured to control the electric motor by manipulating a direct current aligned with a rotating rotor flux angle and a quadrature current defined at ninety degrees from the rotating rotor flux angle. In some examples, the motor controller may be configured to permit intuitive dismounting of the vehicle by tilting and/or moving the vehicle backward.

The invention relates to a scooter, comprising a standing surface, at least one rear wheel articulated to the standing surface, and at least one front wheel articulated to the standing surface, which scooter can be moved in a direction of travel, wherein the scooter also comprises an element that is connected in an articulated manner to or can be attached to the standing surface, which element can be transferred from a first position as a seat element to a second position as a holding bar for a person standing on the standing surface, wherein, in the case of use, the scooter can be moved in the same movement direction in the case of a first position of the element and in the case of a second position of the element.

A self-stabilizing, one-wheeled electric skateboard may include improved features. In some examples, the vehicle includes a status indicator viewable through a slot formed in an upper surface of the board. In some examples, the vehicle includes a convertible carrying handle transitionable between stowed and deployed positions. In some examples, the vehicle includes an interchangeable fender and fender substitute that may be removably coupled to an upper surface of the board. In some examples, a motor controller of the vehicle may operate a field-oriented control (FOC) scheme configured to control the electric motor by manipulating a direct current aligned with a rotating rotor flux angle and a quadrature current defined at ninety degrees from the rotating rotor flux angle. In some examples, the motor controller may be configured to permit intuitive dismounting of the vehicle by tilting and/or moving the vehicle backward.

The invention relates to a scooter, comprising a standing surface (1), at least one rear wheel (2) articulated to the standing surface (1), and at least one front wheel (3) articulated to the standing surface (1), which scooter can be moved in a direction of travel, wherein the scooter also comprises an element (5) that is connected in an articulated manner to or can be attached to the standing surface (1), which element (5) can be transferred from a first position (6) as a seat element to a second position (7) as a holding bar for a person standing on the standing surface (1), wherein, in the case of use, the scooter can be moved in the same movement direction (20) in the case of a first position (6) of the element (5) and in the case of a second position (7) of the element (5).

A riding device with a front truck and a rear truck connected by a frame, with a longitudinal roll axis coincident with a virtual line between a front virtual pivot point and a rear virtual pivot point. Each virtual pivot point is located at the intersection of a line projecting upward from the central point of a hanger axle axis and a hanger pivot axis. Virtual pivot points are the points about which the front and rear hanger pivot axis rotate as a result of rider input leaning to the right or left.

A personal transport includes a deck configured for supporting a rider in a standing position. At least one wheel assembly is mounted on a bottom surface of the deck, the, or each, wheel assembly having at least one wheel so that the deck can travel over a substrate. An operator handle is substantially rigidly mounted on a rear end of the deck and extends rearwardly from the deck so that an operator, standing on the substrate, can grasp the operator handle and push the apparatus along the substrate, or tilt the apparatus relative to the substrate, while the rider is supported on the deck. A rider handle mounted on one of the deck and the operator handle and positioned so that the rider can grasp the rider handle for balance while supported by the deck.

A skateboard includes a board adapted for a user to stand with both feet thereon and having a major axis, and a front steering device and a rear steering device respectively disposed on front and rear sections of a bottom surface of the board along the major axis and each having two wheels. The front or rear steering device has a wheel seat disposed on the bottom surface of the board rotatably around a rotation axis which inclines downwards from front to rear, and a wheel rack disposed on the wheel seat rotatably or swingably around a main axis. An abutted surface is defined where the wheel seat and the wheel rack are abutted against each other. On an imaginary vertical plane including the major axis, where the rotation axis passes the abutted surface is in front of where the main axis passes the abutted surface.

A skateboard has a platform that extends longitudinally from a first end to a second end, the first and second ends being separated by a central portion. The platform body is formed so that the platform is laterally planar, and longitudinally bent upwardly at the first end, and bent downwardly at the second end, relative to the central portion. A first truck mounting structure is provided adjacent the first end, and a second truck mounting structure is provided adjacent the second end.

A personal transport includes a deck configured for supporting a rider in a standing position. At least one wheel assembly is mounted on a bottom surface of the deck, the, or each, wheel assembly having at least one wheel so that the deck can travel over a substrate. An operator handle is substantially rigidly mounted on a rear end of the deck and extends rearwardly from the deck so that an operator, standing on the substrate, can grasp the operator handle and push the apparatus along the substrate, or tilt the apparatus relative to the substrate, while the rider is supported on the deck. A rider handle mounted on one of the deck and the operator handle and positioned so that the rider can grasp the rider handle for balance while supported by the deck.