The disclosure herein provides methods, systems, and devices for hands-free binding that offer enhanced convenience, style, and performance. In an embodiment, the systems and devices disclosed herein comprise a binding system having an opening. In an embodiment, the binding system can be configured to change the size of the opening to allow for an item to be inserted, secured, released, and/or removed. In an embodiment, the binding system can be configured to be able to change its profile.

Splitboard binding systems and assemblies for use in ski mode or snowboard mode. Left and right bottom rails are attached to the bottom surface of a base plate. Each rails may have a circular hook at a forward end for attachment to a toe bracket in a ski mode. The rails and base plate define channels for slidable attachment to pucks disposed on the gliding board in snowboard mode. A securing lever disposed near the rear end of the binding with a securing member disposed on the lower surface thereof may be rotated into a downwards position so the securing member resides below the base plate to secure the binding in position when installed on pucks in a snowboard mode. Crampon assemblies and sliding heel locks for use with the binding assembly are aso disclosed.

Splitboard binding systems and assemblies for use in ski mode or snowboard mode. Left and right bottom rails are attached to the bottom surface of a base plate. Each rails may have a circular hook at a forward end for attachment to a toe bracket in a ski mode. The rails and base plate define channels for slidable attachment to pucks disposed on the gliding board in snowboard mode. A securing lever disposed near the rear end of the binding with a securing member disposed on the lower surface thereof may be rotated into a downwards position so the securing member resides below the base plate to secure the binding in position when installed on pucks in a snowboard mode. Crampon assemblies and sliding heel locks for use with the binding assembly are aso disclosed.

A snowboard binding that eliminates the ratchet-type connection used in conventional snowboard bindings. Instead, the snowboard binding incorporates a connection mechanism that is somewhat similar to a ski-boot style connector, and that uses only two straps on each binding compared to the traditional four straps. In addition, the connection mechanism can be pre-adjusted by the user to the desired connection pressure. Once the desired pre-adjustment is reached, the user can simply step into the binding and connect the connection mechanism without needing to adjust the connection pressure or tightness during mounting the user's foot or boot to the board as with conventional snowboard bindings.

A snowboard binding that eliminates the ratchet-type connection used in conventional snowboard bindings. Instead, the snowboard binding incorporates a connection mechanism that is somewhat similar to a ski-boot style connector, and that uses only two straps on each binding compared to the traditional four straps. In addition, the connection mechanism can be pre-adjusted by the user to the desired connection pressure. Once the desired pre-adjustment is reached, the user can simply step into the binding and connect the connection mechanism without needing to adjust the connection pressure or tightness during mounting the user's foot or boot to the board as with conventional snowboard bindings.

A snowboard binding that eliminates the ratchet-type connection used in conventional snowboard bindings. Instead, the snowboard binding incorporates a connection mechanism that is somewhat similar to a ski-boot style connector, and that uses only two straps on each binding compared to the traditional four straps. In addition, the connection mechanism can be pre-adjusted by the user to the desired connection pressure. Once the desired pre-adjustment is reached, the user can simply step into the binding and connect the connection mechanism without needing to adjust the connection pressure or tightness during mounting the user's foot or boot to the board as with conventional snowboard bindings.

A snowboard binding that eliminates the ratchet-type connection used in conventional snowboard bindings. Instead, the snowboard binding incorporates a connection mechanism that is somewhat similar to a ski-boot style connector, and that uses only two straps on each binding compared to the traditional four straps. In addition, the connection mechanism can be pre-adjusted by the user to the desired connection pressure. Once the desired pre-adjustment is reached, the user can simply step into the binding and connect the connection mechanism without needing to adjust the connection pressure or tightness during mounting the user's foot or boot to the board as with conventional snowboard bindings.

The invention consist of a tool-less system applied for adjusting the wrist-strap and the toe-strap on snowboard bindings, where such tool-less system is made up with the combination of 3 elements, 1. It is tool-less so the attachment position of the binding strap can be unlocked from one position on the binding frame and locked into another position fairly easily with bare hands 2. It has a stable locking mechanism based on a profiled press-button/pin element fitting into at least one hole with profiled shape provided in the frame of the binding where also at least one hole provided in the strap(s) will fit in and be securely locked in when the button element is put in place 3. The press-button element is put in place from the inside and prevented from popping out during use also by the boot which blocks the only exit direction for the button element, which is inwards. The wrist-strap will further be prevented from popping out by the highback, which during riding covers the button element holding the wrist-strap in place. The toe-strap may further be prevented from popping out by the base-plate.

The invention consist of a tool-less system applied for adjusting the wrist-strap and the toe-strap on snowboard bindings, where such tool-less system is made up with the combination of 3 elements, 1. It is tool-less so the attachment position of the binding strap can be unlocked from one position on the binding frame and locked into another position fairly easily with bare hands 2. It has a stable locking mechanism based on a profiled press-button/pin element fitting into at least one hole with profiled shape provided in the frame of the binding where also at least one hole provided in the strap(s) will fit in and be securely locked in when the button element is put in place 3. The press-button element is put in place from the inside and prevented from popping out during use also by the boot which blocks the only exit direction for the button element, which is inwards. The wrist-strap will further be prevented from popping out by the highback, which during riding covers the button element holding the wrist-strap in place. The toe-strap may further be prevented from popping out by the base-plate.

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.