A removable assembly for a skateboard comprises a base piece (1) configured for the fixing thereof to a board (40); an upper piece (7) configured for the fixing thereof in a removable manner to a wheel unit (36), the base piece (1) being coupled to the upper piece (7) such that they can rotate with respect to each other; and a torsion spring (6) arranged between the base piece (1) and the upper piece (7) to exert a force aimed at causing them to regain a neutral position.

An electric vehicle includes a carrier, a free-wheel unit, a foot-wheel unit, a driving unit, a first angle-detecting unit and a micro processing unit. The carrier is for supporting a user. The free-wheel unit is disposed at one end of the carrier. The foot-wheel unit is disposed at the other end of the carrier. The driving unit is disposed at the free-wheel unit or the foot-wheel unit, and is for providing a power to the electric vehicle. The first angle-detecting unit is disposed at the free-wheel unit or the carrier, and is for detecting a swinging status between the free-wheel unit and the carrier so as to provide a swinging signal. The micro processing unit is signally connected to the driving unit and the first angle-detecting unit. When the swinging signal achieves a predetermined condition determined by the micro processing unit, the driving unit is turned on.

A bifurcated truck in a laterally-sliding board wheel assembly enables the freeboard to seamlessly transition from carvingas associated with a traditional skateboardto new omnidirectional motions, in which the board can easy travel forward, backwards, sideways or in any other directional combination. The wheel assembly of this invention employs a bifurcated truck system having two independent suspension arms, both operating independently from one another and from the board's castering wheels. The wheel assemblies are mirrored at each longitudinal end of the board, resulting in the board's ability to carve, slide or skidand easily transition back and forth among each of these modesproviding the rider a sense of stability and freedom commonly associated only with snowboarding.

Various powered wheeled board vehicles are disclosed. In some embodiments, the vehicle includes a deck having a forward portion and a rearward portion. At least one front wheel can be connected with the deck under the forward portion. The front wheel can be configured to swivel about a first axis and rotate about a second axis. A powered wheel can be connected with the rearward portion. In some configurations, the rear wheel comprises a hub motor.

Various powered mobility systems for users are described. The powered mobility system can include at least one powered skate. The powered skate can include a platform, a plurality of wheels, and a motor assembly. The motor assembly can include a motor. The motor can be powered by a power supply. A motor control can be implemented to determine when power is supplied to the motor from the power supply.

A caster board can include a front platform, a rear platform, and at least two neck sections extending between the front platform and the rear platform. The neck sections can serve as a torsion element allowing twisting of the front platform relative to the rear platform. An aperture between the neck sections can be configured to receive an insert. The insert can alter a structural characteristic of the caster board, such as the torsional stiffness of the caster board.

A method of driving a manned vehicle includes following steps of: acquiring correspondingly initial weight values of a plurality of weight sensors, each weight sensor is corresponding to a direction; acquiring correspondingly weight measurement values by the weight sensors; calculating correspondingly a weight ratio of each weight sensor according to the initial weight value and the weight measurement value of each weight sensor; producing a control command according to the direction corresponding to the weight sensor when the weight ratio of any one of the weight sensors is greater than a first threshold value; and driving the manned vehicle to move according to the control command. Accordingly, it is to effectively reduce the size and weight of the manned vehicle and reduce the difficulty of controlling the manned vehicle by intuitively controlling moving directions of the manned vehicle according to variations of the center of gravity of a user.

Examples of the present disclosure are related to systems and methods for an attachment for a stroller, walker, wheelchair, ambulation device, or other transportation device. More particularly, embodiments relate to a wheeled board that is configured to be coupled to an axle and a support of the transportation device, wherein a lower clamp connected to the axle is positioned orthogonal to an upper clamp coupled to the support of the transportation device.

The invention relates to a skateboard-type vehicle (1) comprising a platform (2) to which a front wheel (9) support assembly (8) is connected, the front wheel being mounted so as to pivot about a pivot axis (C-C) which is inclined with respect to a mean plane (P2) of the ground (S), the projection of said pivot axis in a plane (P3) orthogonal to the mean plane of the ground forming, with the latter, a forwardly open angle (a) of between 65? and 85?, the front wheel being in contact with the mean plane of the ground at a contact point (17) offset towards the rear by a distance (d) of between 60 mm and 150 mm with respect to a point (18) of intersection of the pivot axis with the mean plane of the ground.

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.