A front ski binding assembly for a ski board, including a front boot-retaining mechanism retaining a boot in a slope ascending or descending utilisation, two first articulated arms pivotably mounted on a platform, a lateral security release device arranged in cooperation with first ends of first articulated arms to apply thereon a biasing force urging second ends of first articulated arms towards the longitudinal axis of the platform and allow each first articulated arms to rotate away from the longitudinal axis upon application by a boot of force higher than the biasing force on an interior surface of a first articulated arm, and two second articulated arms pivotably mounted about a second arbor and bearing at an end touring pins to engage corresponding mating members on front end sides of a boot in slope ascending utilisation, the second articulated arms being movable between an active and inactive position.

Toe-piece for a boot on a gliding board including a chassis affixed to the gliding board; a body movable on the chassis; a sole-clamp movable on the body; a lateral release mechanism including a first elastic mechanism to return the sole clamp to engagement with the boot; a vertical retention mechanism having a second elastic mechanism arranged to continuously exert a return force on the body to bring the sole-clamp toward the lower surface of the chassis, the return force pressing the sole-clamp on the boot; at least one cam kinematically inserted between the second elastic mechanism and either the chassis or the body, the cam being shaped to modify, in relation to the chassis, the direction of the return force exerted by the second elastic mechanism on the body to attenuate a variation in the pressing force when the sole-clamp is away from the lower surface of the chassis.

A touring skibinding (1) comprises a support element (2) which can be fastened to the ski, a bearing element (3) with a skiboot reception (4) which is designed in such a way that the skiboot (5) can be mounted in the skiboot reception (4) such that the skiboot can pivot about a first pivot axis (S1) with respect to the skiboot reception (4) and a convex supporting surface (6) on which the skiboot (5) can roll, the bearing element (3) being connected to the support element (2) so as to be pivotable about a second pivot axis (S2) from an initial state into a pivoted state, wherein the skiboot (5) is moveable from a standing state, in which the skiboot (5) stands on the convex supporting surface (6), into a pulling state, in which the skiboot (5) is at least partially lifted from the convex supporting surface (6), wherein, starting from the standing state, the skiboot (5) is movable on the convex supporting surface (6) in the direction of the pulling state in such a manner that the skiboot (5) rolls on the convex support surface (6), wherein a pivoting movement of the skiboot (5) about the first pivot axis (S1) and of the bearing element (3) about the second pivot axis (S2) is effected simultaneously with the rolling process.

A toe-piece for binding a boot to a gliding board, the toe-piece including a frame; two wings each pivotable in relation to the frame about an axis of rotation and supporting a lateral interface surface designed to come into contact with a front portion of the boot when the toe-piece is in a descent configuration. The toe-piece further includes a lateral release mechanism that includes a connecting element connected to the wings such that the displacement of the connecting element causes the rotation of the wings about their axes of rotation; a first elastic member, a first end of which is connected to the connecting member; and a body against which a second end of the first elastic member presses. The toe-piece further includes an adjustment mechanism that acts on the wings in order to position them alternately in a first configuration, in which each lateral interface surface is in contact with the boot, or in a second configuration, in which each lateral interface surface is away from the boot, for the same positioning of the boot in relation to the toe-piece. The body of the lateral release mechanism is movable in relation to the frame.

The invention relates to a ski binding including a front jaw and a rear jaw for holding the sole of a ski boot. The front jaw includes a base, via which the front jaw can be connected to a ski, a first holding device for connecting the boot to the ski at the front end of the boot for ascending, and a second holding device for connecting the ski boot to the ski at the front end of the boot for descending. The second holding device exhibits a first configuration for descending, in which the second holding device is in contact with the front end of the sole of the ski boot, and a second configuration for ascending, in which the second holding device is out of contact with the front end of the sole of the ski boot.

A toe-piece of a ski binding includes rotatable first and second clamping members respectively provided with first and second jaws. First and second rotatable supports rotatably bear the first clamping member and the second clamping member, respectively. In a ski descent configuration, the first and second jaws can elastically retract if solicited by a tip of a ski boot. The first clamping member has a third jaw with a first pin, while the second clamping member has a fourth jaw with a second pin. Locking means are provided which when the ski boot tip is between the third and fourth jaws, the blocking means are activatable to block the third and fourth jaws in angular blocking positions in which the first pin is inserted in a first hole of a ski boot and the second pin is inserted in a second hole of the ski boot, making walking uphill possible.

A ski binding release system includes a spring that is releasably maintained in a first state using a pyrotechnic fastener. In the first state, a ski boot is secured in the ski binding. The pyrotechnic fastener is electrically coupled to an activation circuit. The activation circuit includes a battery, a plurality of sensors, a switch, and a controller. When the controller determines that the skier has fallen, the controller generates an output signal that transitions the switch from a disconnected state to a connected state. In the disconnected state, the pyrotechnic fastener is electrically disconnected from the battery. In the connected state, the pyrotechnic fastener is electrically connected to the battery. Electrical energy from the battery causes the pyrotechnical fastener to explode to transition the spring from the first state to a second state to release the ski boot from the ski binding.

A front ski binding assembly for a ski board, including a front boot-retaining mechanism retaining a boot in a slope ascending or descending utilisation, two first articulated arms pivotably mounted on a platform, a lateral security release device arranged in cooperation with first ends of first articulated arms to apply thereon a biasing force urging second ends of first articulated arms towards the longitudinal axis of the platform and allow each first articulated arms to rotate away from the longitudinal axis upon application by a boot of force higher than the biasing force on an interior surface of a first articulated arm, and two second articulated arms pivotably mounted about a second arbor and bearing at an end touring pins to engage corresponding mating members on front end sides of a boot in slope ascending utilisation, the second articulated arms being movable between an active and inactive position.

A toe-piece for binding a boot on a gliding board, the toe piece including a chassis having a lower surface configured to be affixed to the gliding board; a body movably mounted on the chassis; a sole-clamp movably mounted on the body and capable of coming into contact with an upper surface and at least one lateral portion of a front or rear portion of the boot when the boot is engaged with the toe-piece; a lateral release mechanism including at least one first elastic mechanism acting on the sole-clamp to return it to a configuration of engagement with the boot; a vertical retention mechanism comprising a second elastic mechanism, distinct from the first elastic mechanism, arranged so as to continuously exert a return force on the body in order to bring the sole-clamp back toward the lower surface of the chassis, the return force producing a force pressing the sole-clamp on the boot when the boot is engaged with the binding; wherein the toe-piece includes at least one cam kinematically inserted between the second elastic mechanism and either the chassis or the body, the cam being shaped to modify, depending on the position of the body in relation to the chassis, the direction of the return force exerted by the second elastic mechanism on the body so as to attenuate a variation in the pressing force when the sole-clamp is away from the lower surface of the chassis.

A toe-piece of a ski binding has a base fixable to a ski, a first jaw, a second jaw, a first pin on the first jaw for inserting in a first lateral hole a ski boot tip, and a second pin on the second jaw for inserting in a second lateral hole opposite the first lateral hole in the ski boot tip. The toe-piece also has a first guide and a second guide on the base, each with a portion extending away from a longitudinal axis of the ski and another second portion extending towards the front of the ski. Two sliding elements on the first jaw engage slidably along the first guide and two sliding elements on the second jaw engage slidably along the second guide.