A snow ski assembly is provided for use by an individual to slide across a snow covered surface, for example, under the force of gravity. The assembly includes a ski having a bottom wall for engaging the snow covered surface and an upturned peripheral region extending around a perimeter of the bottom wall. The bottom wall of the ski includes at least one control structure extending across at least a portion of the bottom wall, where the at least one control structure is configured to control a movement of the ski on the snow covered surface. The assembly also includes a mounting feature configured to couple a binding to the bottom wall of the ski, such that the individual can position a foot in the binding and use the ski to slide across the snow covered surface.

A snow ski assembly is provided for use by an individual to slide across a snow covered surface, for example, under the force of gravity. The assembly includes a ski having a bottom wall for engaging a snow covered surface and an upturned peripheral region extending around a perimeter of the bottom wall to help facilitate sliding movement of the ski across a snow covered surface in any direction, without preference to a particular direction, and to help inhibit the ski from digging into the snow covered surface when sliding across the snow covered surface. The assembly also includes a mounting feature for coupling a binding to the bottom wall of the ski, such that an individual can position a foot in the binding and use the ski to slide across the snow covered surface.

A binding for snowboard includes a base structure and a heel support pivotally mounted to the base structure for movement between an open position for allowing a user to insert or remove their boot from the binding and a closed position for securing the users boot in the binding. An adjustable foot strap is attached to the base structure and a tensioning system is attached to the heel support and the adjustable foot strap for applying a tensioning force to the adjustable strap when the heel support is moved to the closed position and for releasing the tensioning force from the adjustable foot strap when the seal support is moved to the open position.

The present invention relates to a snowboard binding for coupling a snowboard shoe to a snowboard, comprising a baseplate, which is designed to be attached by means of a fastening device to a snowboard and to sit flat against same, a highback, which extends substantially perpendicularly to the baseplate, a toe strap, and an instep strap. The snowboard binding according to the invention is formed in two parts, wherein the baseplate and the toe strap are associated with a first module and the highback and the instep strap are associated with a second module. A coupling unit is provided, by means of which the first module and the second module can be releasably coupled to one another, the first module being designed to remain on the snowboard in a decoupled state and the second module being designed to remain on the snowboard shoe in the decoupled state.

The fastening device (3) for fastening a boot (4) to a sliding board (2) includes a base (10) intended to be fastened to a sliding board and to surround, at least partially, a sole and lateral sides of a boot, at least one lever (201, 301) that can move relative to the base and can interact with a retention element (44A, 44B) connected to a boot, the lever (201, 301) being able to move between a first retention position (P1) and a second clamping position (P2), the lever being able to retain the boot in the base when it is in its first position, the lever being able to transmit a downward force on the retention element when it is in its second position.

The fastening device (3) for fastening a boot (4) to a sliding board (2) includes a base (10) intended to be fastened to a sliding board and to surround, at least partially, a sole and lateral sides of a boot, at least one lever (201, 301) that can move relative to the base and can interact with a retention element (44A, 44B) connected to a boot, the lever (201, 301) being able to move between a first retention position (P1) and a second clamping position (P2), the lever being able to retain the boot in the base when it is in its first position, the lever being able to transmit a downward force on the retention element when it is in its second position.

A binding for snowboard includes a base structure and a heel support pivotally mounted to the base structure for movement between an open position for allowing a user to insert or remove their boot from the binding and a closed position for securing the users boot in the binding. An adjustable foot strap is attached to the base structure and a tensioning system is attached to the heel support and the adjustable foot strap for applying a tensioning force to the adjustable strap when the heel support is moved to the closed position and for releasing the tensioning force from the adjustable foot strap when the seal support is moved to the open position.

There is provided herein and improved step in binding having a body and a footplate pivotally coupled therein at the front. A levered high back exposes load arms which are interfaced to the pivotable footplate by way of linkages. When the footplate is depressed, the linkages transition horizontally, thereby increasing rearward force and therefore leverage on the backplate, until substantially horizontally engaged. At this orientation, the linkages experiences little or no vertical vector component thereby preventing inadvertent unbinding.

There is provided herein and improved step in binding having a body and a footplate pivotally coupled therein at the front. A levered high back exposes load arms which are interfaced to the pivotable footplate by way of linkages. When the footplate is depressed, the linkages transition horizontally, thereby increasing rearward force and therefore leverage on the backplate, until substantially horizontally engaged. At this orientation, the linkages experiences little or no vertical vector component thereby preventing inadvertent unbinding.