The present disclosure relates to splitboard bindings. The splitboard bindings can be used to change a splitboard between a snowboard for riding downhill in a ride mode and touring skis for climbing up a hill in a tour mode. The bindings can have a first interface and a second interface configured to engage and disengage. The interfaces can be configured such that a binding has large clearances for easy transitions. The first interface can be configured with a locking mechanism. The second interface can be configured to remove large clearances between the first interface and second interface, when the locking mechanism of the first interface is engaged with the second interface, allowing the first interface to attach tightly to the second interface and splitboard to improve the ride of the splitboard.

A steering system for a snowboard includes two binding interface pods, one of which may be active and one of which may be passive. Rotation or tilting of a top plate of the active binding interface pod in response to rotation or tilting of the rider's steering foot causes counter-rotation of a steering fin under the rider's steering foot. The passive binding interface pod is responsive via a linkage between the active and passive binding interface pods to cause rotation of a steering fin under the rider's non-steering foot. Coordinated counter-rotation of the steering fins causes the board to turn in the direction of rotation of the rider's steering foot when the steering fins are unaligned. Optionally, both binding pods may be active in steering, i.e. enabling two footed steering.

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 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 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.

Splitboard binding systems including a binding that may be attached to either a left or right gliding board in a ski mode or to both gliding boards in a snowboard mode. The binding includes left and right bottom rails attached to the bottom surface of a base plate, which define channels for slidable attachment to pucks disposed on the gliding board in snowboard mode. Each rail has a circular bore at a forward end for attachment to a counterpart pivot pin on a ski mode toe bracket in a ski mode by a sideways movement. A securing lever is disposed on an upper surface of the toe bracket. When the securing lever is rotated into a securing position, an end of the securing lever prevents removal of the pivot pin from the rail bore. Rotating the securing lever to a removal position allows the binding to be removed.

Splitboard binding systems including a binding that may be attached to either a left or right gliding board in a ski mode or to both gliding boards in a snowboard mode. The binding includes left and right bottom rails attached to the bottom surface of a base plate, which define channels for slidable attachment to pucks disposed on the gliding board in snowboard mode. Each rail has a circular bore at a forward end for attachment to a counterpart pivot pin on a ski mode toe bracket in a ski mode by a sideways movement. A securing lever is disposed on an upper surface of the toe bracket. When the securing lever is rotated into a securing position, an end of the securing lever prevents removal of the pivot pin from the rail bore. Rotating the securing lever to a removal position allows the binding to be removed.

A snowboard binding that enables a snowboard to hang nearly vertically on a user's foot includes a board base attachable to a snowboard, the board base having a generally planar configuration and a hinge, a hardened boot attachable to the user's foot, the hardened boot having a first lateral side and a second lateral side. The hinge attaches the first lateral side of the hardened boot to the board base and a latch attached to the second lateral side. The hinge and latch cooperate to enable the snowboard binding to selectively move from a first configuration where the latch engages both the board base and the hardened boot and align to align the hardened boot and the board base in a planar arrangement, to a second configuration where the latch releases the board base from the hardened boot.

A snowboard hook including a flat bottom component, to be secured to a top surface of a snowboard, and a curved top component, wherein a bottom edge of the curved top component is orthogonally coupled to a first edge of the flat bottom component. The curved top component includes: a vertical portion, including the bottom edge of the curved top component; and a horizontal portion, wherein the horizontal portion protrudes in a curved manner from the vertical portion to an approximately horizontal position near a top edge of the curved top component.