The present document relates to surface covering panel assembly for installation over a receiving surface and under a top layer. The surface covering panel assembly includes substantially identical surface covering panels. Each one of the surface covering panels includes a sheet member made of a first flexible material, the sheet member defining a first surface for interfacing with the top layer and a second surface, a padding layer panel made of a second flexible material, the padding layer panel defining a first surface for partially covering the second surface defined by the sheet member and a second surface for interfacing with the receiving surface, and an edge being adapted for releasable attachment to one of the at least other substantially identical surface covering panel.

A ball comprising a first material having an elastic modulus of at least E=0.60 GPa, preferably at least E=0.70 GPa and more preferably at least E=0.73 GPa and/or a maximum elastic modulus of E=5 GPa, preferably at most E=3 GPa, more preferably at most E=1 GPa and even more preferably at most E=0.74 GPa, the first material defining at least an outermost section of the ball.

Disclosed is a support and suspension assembly for a snow sports board. The assembly includes a base configured to be attached to a snow sports board and a frame above the base. The frame includes a first portion extending vertically upward or upward and forward to an upper end. The frame further includes a second portion extending generally rearward from the upper end of the first portion. A seat is on the second portion of the frame. A shock absorber is connected between the base and the frame. A linkage assembly is pivotably connected between the base and the first portion of the frame.

Disclosed is a configurable modular damping ice-skating blade assembly including a frame with a blade runner extending along a longitudinal axis and being removably mounted in relation to the frame. The modular damping ice-skating blade assembly is configurable with the use of modified blade runners so as to allow one or more configurations for damping the frame in relation to the blade runner.

A one-wheeled vehicle may comprise a board including first and second deck portions each configured to receive a left or right foot of a rider oriented generally perpendicular to a direction of travel of a board, and a pair of side rails, each of which are coupled to the first and second deck portions at distal ends. A top surface of each side rail defines a generally concave shape, such that a plane connecting distal edges of the end portions of the side rail is spaced apart from the central portion of the side rail. In some examples, a bottom surface of each side rail also defines a generally concave-upward shape. In some examples, a bottom surface of each side rail includes a central cutout.

Exemplary embodiments are directed to a base plate for a skateboard that includes a body, and first and second pivot cups. The body includes a proximal end and a distal end. The first pivot cup extends from the body at or near the distal end. The second pivot cup is spaced from the first pivot cup and extends from the body at or near the proximal end. The second pivot cup defines an outer perimeter surface having an uninterrupted height. The second pivot cup includes an opening extending therethrough and surrounded by the outer perimeter surface of the second pivot cup. The second pivot cup includes one or more channels extending from the opening and through at least a portion of the second pivot cup. The one or more channels extend through at least the portion of the second pivot cup without extending through the outer perimeter surface.

A snowboard controller includes a base placeable on an upper surface of a board for a snowboard, a plurality of joints that join the base to the upper surface of the board. The plurality of joints include one joint being a direct joint at which the base is directly joinable to the board in a rotatable manner, and other joints being indirect joints at which the base is indirectly joinable to the board with joining members. The indirect joints control bending of the board using the direct joint as a base point.

An electric weight sensing skateboard using one or more strain gauge systems to detect rider-induced strain on one or both trucks, an inertial sensor to detect accelerations and balance position, and wheel speed sensors. Throttle is controlled by rider position, for example, lean forward to increase speed, lean back to slow down. Several drive methods include a driver position detection velocity setpoint control, torque setpoint control, and direct velocity/torque control. A throttle remote is note required. Rider weight activates the motors.

A foot-deck-based vehicle, a front wheel support, and at least one accessory therefor are provided. The foot-deck-based vehicle has a foot-deck with a front end, a rear end, and at least one rear wheel proximal to the rear end. The foot-deck-based vehicle has a front wheel support comprising a pair of wheel interfaces, each of which is couplable to a front wheel, a main body extending between the wheel interfaces and coupled to the foot-deck, and at least one recess in the main body. At least one accessory is snugly securable within the at least one recess of the front wheel support to modify a resistance of the main body to bending under a bending load applied to the front wheel support through the foot-deck when the foot-deck supports a person.

A resilient rod that provides adjustable directional resistance is disclosed. In one aspect of the invention, a resistance level may be determined based on a thickness of the rod and a position of an applied force with respect to a fulcrum point. In another aspect of the invention, at least one spine may be attached to the beam to increase a diameter of the beam along one axis. A resistance level may be determined based on a thickness of the rod, a position of an applied force and an orientation of the at least one spine with regard to the direction of the applied force. In other aspects of the invention, the resilient rods may be incorporated into various equipment that provide for adjustable resistance levels. In still other aspects of the invention, the resilient rod may be incorporated into medical devices that provide adjustable support for injured limbs or joints.