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 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 binding apparatus for a snowboard is provided including a base plate having a pivot portion, an elongate arm member, and a cuff member for receiving a portion of a rider's boot or leg. The base plate may be affixed to the snowboard such that a boot may be coupled to a footbed thereof at an angle relative to the lateral axis of the snowboard. The elongate arm member is pivotably coupled to the pivot portion of the base plate at a first end portion thereof, and the cuff member is coupled to the elongate arm member. The elongate arm member is configured to pivotably rotate about an axis of rotation of the pivot portion such that the elongate arm member and cuff member coupled thereto are capable of moving fore and aft of a lateral axis of a snowboard.

A binding apparatus for a snowboard is provided including a base plate having a pivot portion, an elongate arm member, and a cuff member for receiving a portion of a rider's boot or leg. The base plate may be affixed to the snowboard such that a boot may be coupled to a footbed thereof at an angle relative to the lateral axis of the snowboard. The elongate arm member is pivotably coupled to the pivot portion of the base plate at a first end portion thereof, and the cuff member is coupled to the elongate arm member. The elongate arm member is configured to pivotably rotate about an axis of rotation of the pivot portion such that the elongate arm member and cuff member coupled thereto are capable of moving fore and aft of a lateral axis of a snowboard.

A device for setting the orientation of a boot binding on a snowboard includes a disk fixable to the board, the binding being mounted to be able to rotate in relation to the disk about a vertical axis of rotation, at least one locking method mounted adjustably between a locked position where it immobilizes the binding in relation to the disk, and an unlocked position where it allows the rotation of the binding around the axis of rotation for an angular adjustment of the binding in relation to the board, the displacement of the locking method is ensured by an actuator, that is remotely controllable, and a locking method and an actuator that are installed in the disk so that: the actuator can be actuated when the boot is retained in the binding and, the locking method is movable by the actuator when the boot is retained in the binding.

A device for setting the orientation of a boot binding on a snowboard includes a disk fixable to the board, the binding being mounted to be able to rotate in relation to the disk about a vertical axis of rotation, at least one locking method mounted adjustably between a locked position where it immobilizes the binding in relation to the disk, and an unlocked position where it allows the rotation of the binding around the axis of rotation for an angular adjustment of the binding in relation to the board, the displacement of the locking method is ensured by an actuator, that is remotely controllable, and a locking method and an actuator that are installed in the disk so that: the actuator can be actuated when the boot is retained in the binding and, the locking method is movable by the actuator when the boot is retained in the binding.

In one example, a snowboard binding includes a retention and release assembly configured to be mounted to a snowboard, and including a manually operable retention mechanism. The snowboard binding further includes a boot interface portion configured to releasably engage the retention and release assembly, and the boot interface portion further configured to releasably retain a boot, and when the boot interface portion is fully engaged with the retention and release assembly, the boot interface portion is rotatable relative to the retention and release assembly.

In one example, a snowboard binding includes a retention and release assembly configured to be mounted to a snowboard, and further includes a retention mechanism operable by a wireless remote control. A boot interface portion of the snowboard binding is configured to releasably engage the retention and release assembly, and the boot interface portion is also configured to releasably retain a boot. In operation, the user can enable release of the boot interface portion from the retention mechanism by activating the wireless remoted control so as to cause the boot interface portion to be unlocked from the retention mechanism.

A mounting device for snowboards and other snow glide boards that includes a puck assembly. The adjustment system can be adjusted with three degrees of freedom with respect to the snowboard: foot placement, foot angle, and heel and toe centering. The puck assembly can attach directly to the snowboard or can be built into the snowboard boot binding. The mounting device can include a slider block/snowboard binding base plate and a disk. The disk includes a series of projections. The slider block/snowboard binding base plate receives the disk in a recess indented in the slider block/snowboard binding base plate top surface. The recess is patterned with a series of detents sized and shaped to receive the projections from the disk. The detents arranged as a series of arcs, of equal radius, translated linearly on even increments. This combination allows for the foot angle and heel and toe centering adjustments to be made concurrently.

A mounting device for snowboards and other snow glide boards that includes a puck assembly. The adjustment system can be adjusted with three degrees of freedom with respect to the snowboard: foot placement, foot angle, and heel and toe centering. The puck assembly can attach directly to the snowboard or can be built into the snowboard boot binding. The mounting device can include a slider block/snowboard binding base plate and a disk. The disk includes a series of projections. The slider block/snowboard binding base plate receives the disk in a recess indented in the slider block/snowboard binding base plate top surface. The recess is patterned with a series of detents sized and shaped to receive the projections from the disk. The detents arranged as a series of arcs, of equal radius, translated linearly on even increments. This combination allows for the foot angle and heel and toe centering adjustments to be made concurrently.