A boot binding system for a splitboard that can include a latch pedal mechanism at an end of a baseplate on which the rider's boot rests. The latch pedal can have a dual function: either to attach each boot binding to a ride mode interface, or to attach each boot binding to a ski tour interface. In a release position the latch pedal is disengaged allowing the baseplate assembly to alternate between the ski tour interface and the ride mode interface. In a lock position, the rider depresses the latch pedal and locks the boot binding onto the selected interface. The latch pedal is held down by the rider's boot when in the lock position, contributing to the system's lightness and strength.

A boot binding system for a splitboard that can include a latch pedal mechanism at an end of a baseplate on which the rider's boot rests. The latch pedal can have a dual function: either to attach each boot binding to a ride mode interface, or to attach each boot binding to a ski tour interface. In a release position the latch pedal is disengaged allowing the baseplate assembly to alternate between the ski tour interface and the ride mode interface. In a lock position, the rider depresses the latch pedal and locks the boot binding onto the selected interface. The latch pedal is held down by the rider's boot when in the lock position, contributing to the system's lightness and strength.

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 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.

An improved highback adjustment system for a splitboard boot binding. A captive strut is mounted on the spine of the highback, the strut having a forward lean adjustor block such that rotation or sliding of the block lengthens or shortens the strut. The combination provides a broadly adjustable range of forward lean bias in small increments and the block is readily disengaged and stowed on the highback when not needed. Advantageously, the mechanism that can be operated and adjusted without tools, even with gloved hands, a significant benefit in winter conditions, and does not jam with snow. Methods of use of the improved forward lean adjustor and highback are also disclosed.

An improved highback adjustment system for a splitboard boot binding. A captive strut is mounted on the spine of the highback, the strut having a forward lean adjustor block such that rotation or sliding of the block lengthens or shortens the strut. The combination provides a broadly adjustable range of forward lean bias in small increments and the block is readily disengaged and stowed on the highback when not needed. Advantageously, the mechanism that can be operated and adjusted without tools, even with gloved hands, a significant benefit in winter conditions, and does not jam with snow. Methods of use of the improved forward lean adjustor and highback are also disclosed.

A binding system is mounted atop a rider-support surface of the board. The binding system comprises: a pair of rails locatable on opposing sides of a generally flattened foot-receiving surface for the rider's foot, each rail comprising a central portion mountable to the recreational board, a toe-side leg which extends from the central portion toward a toe-side of the recreational board and a heel-side leg which extends from the central portion toward a heel-side of the recreational board. Each rail is moveably coupled to a corresponding stand-off flange of a base.

A Method and apparatus for reducing stress on the body (e.g., foot, ankle, hip, spine) of a snowboarder while sitting on a chairlift. The apparatus includes a boot binding assembly adapted for mounting on the top surface of a snowboard including a boot retention member hinged for movement between a closed position and an open position. For typical downhill snowboarding activity, a user will place the retention member in the closed position to orient the sole of the user's boot substantially parallel, i.e. against the snowboard top surface. For sitting on a chairlift, the user will place the retention member in the open position so as to allow the snowboard to pivot around the hinge and hang substantially vertically from the retention member thus avoiding stressful torques on the user's supporting limb.

A Method and apparatus for reducing stress on the body (e.g., foot, ankle, hip, spine) of a snowboarder while sitting on a chairlift. The apparatus includes a boot binding assembly adapted for mounting on the top surface of a snowboard including a boot retention member hinged for movement between a closed position and an open position. For typical downhill snowboarding activity, a user will place the retention member in the closed position to orient the sole of the user's boot substantially parallel, i.e. against the snowboard top surface. For sitting on a chairlift, the user will place the retention member in the open position so as to allow the snowboard to pivot around the hinge and hang substantially vertically from the retention member thus avoiding stressful torques on the user's supporting limb.

Boot binding systems for riding a snow gliding board, including a pair of boot bindings, each member of the pair having a toe latch pedal mechanism at the toe end of a baseplate on which the rider's boot rests, the toe latch pedal having dual function to either a) attach each boot binding to a ride mode interface in ride mode configuration or to b) attach each boot binding to a ski touring mode interface in ski touring configuration. In a release position the toe latch pedal is disengaged so that the baseplate assembly may be detached or switched between the ski touring mode interface and the ride mode interface in alternation. In a lock position, the toe of the rider's boot depresses the toe latch pedal and locks the boot binding onto the selected interface. As co-planar with the baseplate, the latch pedal also supports the rider's boot when in the lock position.