Disclosed is a flying skateboard which comprises a bearing part, power parts, a main control module and altitude induction modules. The bearing part comprises a left foot bearing area and a right foot bearing area which are connected, can rotate oppositely when pedaled with foot soles of a human body and can be located on the same plane or on different planes. The main control module comprises a gyroscope and used for controlling the power output of the power parts to keep the balance of the flying skateboard and make the flying skateboard to vertically move up and down or hover. The altitude induction modules are used for measuring the distances between the altitude induction modules and the ground to make the flying altitude of the flying skateboard within the altitude limit threshold value range.

An electric skateboard is disclosed. In one aspect, the electric skateboard comprises a foot placement section. The electric skateboard comprises a wheel suspension truck connected to the foot placement section. The electric skateboard comprises a first wheel and a second wheel, wherein the first wheel and the second wheel are spaced apart and substantially parallel to one another and wherein the first wheel and the second wheel are connected to the wheel suspension truck. The electric skateboard comprises a deformation sensor module attached to the wheel suspension truck, the deformation sensor module configured to generate a weight signal and a gravity angle signal associated with the electric skateboard. The electric skateboard comprises a control logic configured to output control signals that control a movement of the electric skateboard in response to the weight signals, and the gravity angle signals.

A user powered ride-on device and assemblies to facilitate ride-on device reconfiguration.

A skateboard with positive camber steering includes a frame and a board pivotally coupled to the frame. A steering assembly is coupled to the end portion of the frame and includes an upper truck arm, a lower truck arm, and at least one wheel. The upper truck arm and the lower truck arm are spaced apart relative to the frame, and the wheel has an axis of rotation. The upper truck arm and the lower truck arm are each rotatable about an axis of travel parallel to the skateboard's line of travel, and the upper truck arm is coupled to the wheel above the axis of rotation relative to the surface, with the lower truck arm coupled to the wheel below the axis of rotation relative to the surface. Thus the upper truck arm extends farther from the frame than the lower truck arm, thereby imparting a positive camber in the direction of steering.

A roller board device like a skateboard or scooter operated by a user with one or more user-maneuverable wheel assemblies that are automatically returned to their true north position is provided according to the invention. The roller board device comprises an elongated deck, at least one wheel assembly, a rotation assembly operatively engaging and extending through the opening in the deck, one end of the rotation assembly being connected to the wheel assembly positioned below the deck, the other end of the rotation assembly being connected to a user interface member extending upward beyond the top surface of the deck, and a north-seeking return mechanism secured to the deck containing an engagement member movable along a linear axis within a housing and engaging a spring disposed between the engagement member and an interior wall of the housing, the rotation assembly operatively connected to the engagement member to convert rotational movement of the rotation member into linear movement of the engagement member. When the user applies rotational force to the user engagement member to turn it to the left or right, the rotation assembly and wheel assembly are rotated in the same direction and degree to allow the roller board device to be turned, the rotated rotation assembly interacting with the engagement member of the north-seeking return mechanism to move the engagement member along its linear axis to a retracted position to compress the spring. But, when the user releases the rotational force upon the user interface member, the spring extends from its compressed state to its elongated state to move the engagement member of the north-seeking return mechanism back along the linear axis from its retracted position to its standby position, counter interacting with the rotation assembly to return the wheel assembly of the roller board device to its true north position.

Disclosed is a flying skateboard which comprises a bearing part, power parts, a main control module and altitude induction modules. The bearing part comprises a left foot bearing area and a right foot bearing area which are connected, can rotate oppositely when pedaled with foot soles of a human body and can be located on the same plane or on different planes. The main control module comprises a gyroscope and used for controlling the power output of the power parts to keep the balance of the flying skateboard and make the flying skateboard to vertically move up and down or hover. The altitude induction modules are used for measuring the distances between the altitude induction modules and the ground to make the flying altitude of the flying skateboard within the altitude limit threshold value range.

A standing-ride type moving device includes: a board; wheels that are disposed on right and left sides of a front side and a rear side in a traveling direction of the board; drive units that is configured to independently rotationally drive the wheels disposed on the front side in the traveling direction of the board; a first sensor that is configured to detect a shift in the center of gravity of the rider riding the board; a steering board that is disposed on the front side in the traveling direction of the board; a second sensor that that is configured to acquire rotation information of the steering board; and a control unit that is configured to control the drive units.

The present invention relates to a novel skateboard truck. More particularly, the present invention pertains to skateboard truck with two independently adjustable pivot points that achieve a unique variable turning motion without affecting the skateboard's stability. Additionally, the skateboard truck includes an offset axle that swings towards the direction of the turn, thus shifting the wheels away from the side of the skateboard, eliminating wheel bite, and increasing stability.

The present invention relates to a novel skateboard truck. More particularly, the present invention pertains to skateboard truck with two independently adjustable pivot points that achieve a unique variable turning motion without affecting the skateboard's stability. Additionally, the skateboard truck includes an offset axle that swings towards the direction of the turn, thus shifting the wheels away from the side of the skateboard, eliminating wheel bite, and increasing stability.

A powered two-wheel vehicle includes a chassis extending between a rotatable front fork and a fixed rear fork. A deck is attached to the chassis to enclose a compartment. A front wheel is rotatably attached to the front fork and a rear wheel is rotatably attached to the rear fork via a hub motor. The steering assembly includes a head tube supported above and in front of the deck by a pair of arched frame tubes, a steering tube rotatably connected to the head tube, and a rotational damper connected between the head tube and the steering tube.