The present invention relates to a set of coupling assemblies comprising a right coupling assembly and a left coupling assembly being configured to be mounted on aboard for board sports and to receive respectively a right boot and a left boot, wherein the right and left coupling assembly comprise an inner receiving unit and outer receiving unit, wherein each inner receiving unit comprises a locking arm which is pivotable about a main inner pivot axis from a locked position to a released position and vice versa, wherein each inner receiving unit comprises a pull mechanism comprising:—at least one elongate interlink member which extends between the two inner receiving units, and—a link pull member configured to engage the boot or the inner boot coupling part and to receive a pull force from the boot or boot coupling part when the boot or boot coupling part is no longer held by the coupling assembly and moves away from the coupling assembly, and to be pulled over a pull distance by said boot or by the boot coupling part, wherein the pull mechanism is configured to transfer the pull force and the pull distance to the at least one elongate interlink member, and to convert the pull distance in an interlink pull distance of the elongate interlink member, and wherein said interlink pull distance pivots the locking arm of the other coupling assembly from the locking position to the released position, thereby releasing the other boot.

The present invention contemplates a binding system for a snowboards and the like. The system includes a soft-soled boot having a hardened exterior shell consisting of a toe portion and a heel portion, which are linked by at least one sidewall portion. The toe and heel portions include two toe and two heel pegs respectively. The boot includes an instep portion having instep cables for adjusting the boot to the wearer and the cables are adjusted by grommets and tightened in position by at least one resting bar. The binding has a base plate for connecting to the snowboard. The base plate further supports a pair of toe hooks adapted to engage the toe pegs and a pair of heel peg levers adapted to releasably engage the heel pegs of the boot. A grappling hook and ratchet mechanism grabs the resting bar on the 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 snowboard binding with a base, a bearing shell movable about a first rotary pin supported by the base, and a pedal for controlling the bearing shell from an open position to a closed position, the bearing shell including a shell bottom and two shell sides supporting the pedal. The first rotary pin is supported by the bearing shell to form a boot stop in the shell bottom in any position of the bearing shell lying between an open position and the closed position. The shell bottom can support a bearing and the base, a pin housed in the bearing to form a hinge extending along the axis of rotation of the first rotary pin. The pedal can move relative to the shell sides about a second axis of rotation and be supported by two arms.

The present invention relates to a set of coupling assemblies comprising a right coupling assembly and a left coupling assembly being configured to be mounted on aboard for board sports and to receive respectively a right boot and a left boot, wherein the right and left coupling assembly comprise an inner receiving unit and outer receiving unit, wherein each inner receiving unit comprises a locking arm which is pivotable about a main inner pivot axis from a locked position to a released position and vice versa, wherein each inner receiving unit comprises a pull mechanism comprising:—at least one elongate interlink member which extends between the two inner receiving units, and—a link pull member configured to engage the boot or the inner boot coupling part and to receive a pull force from the boot or boot coupling part when the boot or boot coupling part is no longer held by the coupling assembly and moves away from the coupling assembly, and to be pulled over a pull distance by said boot or by the boot coupling part, wherein the pull mechanism is configured to transfer the pull force and the pull distance to the at least one elongate interlink member, and to convert the pull distance in an interlink pull distance of the elongate interlink member, and wherein said interlink pull distance pivots the locking arm of the other coupling assembly from the locking position to the released position, thereby releasing the other 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.

The present invention relates to a set of coupling assemblies comprising a right coupling assembly and a left coupling assembly being configured to be mounted on aboard for board sports and to receive respectively a right boot and a left boot, wherein the right and left coupling assembly comprise an inner receiving unit and outer receiving unit, wherein each inner receiving unit comprises a locking arm which is pivotable about a main inner pivot axis from a locked position to a released position and vice versa, wherein each inner receiving unit comprises a pull mechanism comprising:—at least one elongate interlink member which extends between the two inner receiving units, and—a link pull member configured to engage the boot or the inner boot coupling part and to receive a pull force from the boot or boot coupling part when the boot or boot coupling part is no longer held by the coupling assembly and moves away from the coupling assembly, and to be pulled over a pull distance by said boot or by the boot coupling part, wherein the pull mechanism is configured to transfer the pull force and the pull distance to the at least one elongate interlink member, and to convert the pull distance in an interlink pull distance of the elongate interlink member, and wherein said interlink pull distance pivots the locking arm of the other coupling assembly from the locking position to the released position, thereby releasing the other boot.

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.

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 snowboard binding with a base, a bearing shell movable about a first rotary pin supported by the base, and a pedal for controlling the bearing shell from an open position to a closed position, the bearing shell including a shell bottom and two shell sides supporting the pedal. The first rotary pin is supported by the bearing shell to form a boot stop in the shell bottom in any position of the bearing shell lying between an open position and the closed position. The shell bottom can support a bearing and the base, a pin housed in the bearing to form a hinge extending along the axis of rotation of the first rotary pin. The pedal can move relative to the shell sides about a second axis of rotation and be supported by two arms.