The invention relates to a sports item (1), comprising a carrier (3) for a coupling device (25) for accommodating a user and including at least one distributing device (2) for the loads and/or forces to be transmitted to the sports item (1), which at least one distributing device (2) connects the carrier (3) to the sports item (1) via a joint arrangement, the latter having at least one pivoting arm (4, 5; 6, 7), which is pivotably connected, in each case via a joint (8, 9; 10, 11), to the sports item (1) at one arm end of the pivoting arm and to the carrier (3) at the other arm end of the pivoting arm, wherein the carrier (3) is movable from a starting position, counter to the restoring force of at least one elastic restoring element, to a balancing position in which the carrier is brought closer to the sports item (1). The sports item (1) according to the invention is characterized in that the at least one restoring element is an elastically deformable spring element (12; 13), which is held at one end on the carrier (3) and at the other end on the sports item (1).

A cross-country skiing kit with a cross-country ski binding and with a cross-country ski boot, wherein the crosscountry ski binding, for articulated connection of a cross-country ski boot to a cross-country ski, is provided with a substantially unyielding binding main body which has a stand surface for a sole of the cross-country ski boot, with a holder device which has a seat for pivotable arrangement of the cross-country ski boot about a pivot axis extending in the transverse direction of the binding main body, with an elastically deformable resetting element for resetting the cross-country ski boot from an upwardly pivoted position in the direction of the stand surface of the binding main body, wherein at least one substantially unyielding elevation is provided on the stand surface of the binding main body, to the rear of the pivot axis in the longitudinal direction of the binding main body, with which elevation the sole of the cross-country ski boot in its unloaded state is arranged at a distance from the stand surface of the binding main body.

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.

A rear portion of a ski mountaineering binding has a base with a turret rotatable into a first position. The binding portion attaches to a ski boot heel for downhill skiing. The turret has a second position for walking uphill. A ski brake includes a braking lever rotatable to assume a braking position and a non-active position. The brake has elastic for rotating the braking lever towards the braking position, the braking lever is pressed by the ski boot heel, when the turret is in the first position, in order to reach the non-active position. A rotation member rotatably borne by the base bears the braking lever. The rotation member and the turret are interconnected and solidly constrained to one another, with the turret in the second turret position and the braking lever in the non-active position, to enable walking uphill.

A downhill snow ski sound system comprises a speaker coupled to a binding of a snowboard or ski. An orifice is located at a perimeter of the binding and a strap is coupled to and extends from the orifice. The speaker is releasably coupled to the binding by the strap. The speaker is positioned adjacent the binding with less than an inch between the speaker and the binding. The speaker is also positioned directly on and contacting the ski-board.

An impact absorbing ski binding interface device includes an elongated top plate having a toe end and a heel end adapted to engage a boot toe and a boot heel, respectively, and a bottom plate adapted to engage a ski, thereby securing the device between the boot and ski. A plurality of constant force spring linkages between the top plate and the bottom plate include a constant force spring linkage between the toe end and the bottom plate, and a constant force spring linkage between the heel end and the bottom plate, such that each of the constant force spring linkages have an opposed pair of deformable members for exerting a counterforce to vertical displacement forces between the top plate and the bottom plate for load mitigation.

A cross-country skiing kit with a cross-country ski binding and with a cross-country ski boot, wherein the crosscountry ski binding, for articulated connection of a cross-country ski boot to a cross-country ski, is provided with a substantially unyielding binding main body which has a stand surface for a sole of the cross-country ski boot, with a holder device which has a seat for pivotable arrangement of the cross-country ski boot about a pivot axis extending in the transverse direction of the binding main body, with an elastically deformable resetting element for resetting the cross-country ski boot from an upwardly pivoted position in the direction of the stand surface of the binding main body, wherein at least one substantially unyielding elevation is provided on the stand surface of the binding main body, to the rear of the pivot axis in the longitudinal direction of the binding main body, with which elevation the sole of the cross-country ski boot in its unloaded state is arranged at a distance from the stand surface of the binding main body.

A support plate for a binding for a gliding board that includes the following: a chassis to be fixed on an upper surface of the gliding board; a damping plate intended to be at least partially interposed between a lower surface of the chassis and the upper surface of the gliding board. The support plate includes a wedge that is less compressible than the damping plate, movable between a hardness configuration, suitable for transmitting a vertical force from the chassis to the upper surface of a gliding board, and inhibiting, at least partially, the compression of the damping plate and between a flexibility configuration, suitable for the force to be retransmitted from the chassis to the upper surface of a gliding board, mainly via the damping plate.

A fastening assembly for a ski crampon includes a hinge pin having a mounting portion and a securing portion. The mounting portion has a smaller dimension in a first direction and a larger dimension in a second direction, the first and second directions orthogonal to the longitudinal direction of the hinge pin. The securing portion has substantially the same dimension in the first and second directions. A mounting fastening portion defines a gap and an opening. The gap and the opening each extends substantially transversely to a ski longitudinal direction and substantially parallel to the ski surface. The gap receives the mounting portion of the hinge pin, which is inserted through the opening. The dimension of the opening in the ski longitudinal direction is larger than the dimension of the mounting portion in the first direction and smaller than the dimension of the mounting portion in the second direction.

A fastening assembly for a ski crampon includes a hinge pin having a mounting portion and a securing portion. The mounting portion has a smaller dimension in a first direction and a larger dimension in a second direction, the first and second directions orthogonal to the longitudinal direction of the hinge pin. The securing portion has substantially the same dimension in the first and second directions. A mounting fastening portion defines a gap and an opening. The gap and the opening each extends substantially transversely to a ski longitudinal direction and substantially parallel to the ski surface. The gap receives the mounting portion of the hinge pin, which is inserted through the opening. The dimension of the opening in the ski longitudinal direction is larger than the dimension of the mounting portion in the first direction and smaller than the dimension of the mounting portion in the second direction.