An attachment mechanism for a locking element to be fastened to a mounting plate on a cross-country ski. The ski comprises the mounting plate on a top surface of the ski. The mounting plate comprises side edges having an undercut profile for placement and attachment of a binding or binding component via a complementary profile thereon, and a channel that accommodates a slide member. The slide member top side comprises at least one locking element. The underside of the binding or binding component comprises at least one complementary locking element. The locking element comprises a plate. The plate underside includes downward projecting legs. The legs are spaced apart at a distance substantially corresponding to a width of the channel. The mounting plate on each side of the channel comprises openings adapted to receive the legs. The mounting plate and the legs comprise holes adapted to receive one or more bayonets.

A locking device for locking a ski binding on a mounting plate, arranged to be mounted on a ski, in which the locking device is arranged to be in a locked position, in which the ski binding is locked relative to the mounting plate in a longitudinal direction, and in an open position, in which the ski binding can be moved relative to the mounting plate in the longitudinal direction, wherein corresponding locking elements of the locking device and of the mounting plate engage with each other in the locked position. The locking device comprises a force-transmitting element with opposite ends, arranged to be attached in corresponding attachments in the ski binding, when the locking device is in locked position. The locking element is located between the force-transmitting element's opposite ends.

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 brake arrangement for a touring binding, adjustable between a braking position and a sliding position. The brake arrangement includes a base having a fastening arrangement for fastening to one or more of a ski or the touring binding, a pedal having a step surface for a shoe on a side of the pedal facing away from the ski, at least one brake arm mounted on the base and on the pedal, at least one first resilient element configured to preload the brake arrangement into the braking position, and a locking element that is movable between an engaged position and a disengaged position. The locking element, in the engaged position, is designed to lock the brake arrangement in the sliding position. The locking element may be preloaded into the engaged position. The brake arrangement may include a blocking element that is adjustable between a blocking position and a release position.

A brake arrangement for a touring binding adjustable between a braking position and a sliding position, including: a base having a fastening arrangement; a pedal; at least one brake arm mounted on the base and on the pedal; at least one first resilient element to preload the brake arrangement into the braking position; a locking element that is linearly displaceable along a longitudinal direction of the ski to adjust between an active position, which locks the brake arrangement in the sliding position, and a passive position; and an actuating element mounted on the brake arrangement pivotable about a pivot access, the actuating element adjustable between a locking position, where the locking element is set into the locking position, and a release position, where the locking element is set into the passive position, and wherein a pivoting movement of the actuating element causes a linear movement of the locking element.

A ski binding moving mechanism (1) comprising:—a ski binding (2a) configured to be fastened in the vertical and lateral direction on a ski, and further configured to be movable in the longitudinal direction relative to the ski; —a rod (5) with two or more pushing elements (51a, 51b, . . . ), the rod (5) being fastened to the ski binding (2a); and—a rotatable element (32), configured to be fastened fixedly relative to the ski in the longitudinal direction of the ski, the rotatable element (32) being rotatable relative to the ski (6), wherein the rotatable element (32) comprises:—a first and a second rotating pin (321, 322) configured to rotate with the rotatable element (32), and cooperate with the pushing elements (51a, 51b, . . . ), wherein—the rotatable element (32) is configured to be rotated at least one revolution and move the rod (5) and the binding (2a) in the same longitudinal direction throughout the revolution.

The invention relates to a combination of a downhill binding or downhill ski binding, in particular a front jaw of the downhill binding, and a ski boot. The ski boot (10) comprises a rigid ski boot shell (11) and a sole (1) of the ski boot comprising a front end (1b) of the sole, a rear end of the sole, an upper side (1a) of the sole and a lower side (1c) of the sole. The downhill binding comprises a front jaw (20) and a rear jaw, wherein the downhill binding comprises a bearing structure (2) for the sole (1) of the ski boot. The bearing structure (2) has an apex (5) which has a distance (X1), in the longitudinal direction (X), from the front end (1b) of the sole held in the downhill binding of at least 28 mm and at most 34 mm, and wherein the apex (5) exhibits a perpendicular distance (Y2) from the upper side (1a) of the sole of the ski boot held in the downhill binding of 19 mm±2 mm in at least one point.

A mounting system for a binding or a binding component on a cross-country ski includes a mounting plate that is arranged on the top surface of the cross-country ski. The mounting plate comprises longitudinal side edges having a profile with undercuts for longitudinal positioning and attachment of the binding or binding component with the aid of a complementary profile on the binding or binding component. The mounting plate comprises a longitudinal channel that houses a longitudinal rail. The upper side of the longitudinal rail comprises at least one locking device. The underside of the binding or binding component comprises at least one complementary locking device.

Presented is one embodiment of a telemark-capable ski binding system which combines the conventional tech style toe piece or front coupling with a telemark tension assembly (110) that provides the necessary rotational resistance to a ski boot (300) but still allows the ski boot heel to be raised for a telemark style turn upon descent. Telemark tension assembly (110) can be adjusted to alter the engagement of telemark tension assembly (110) according to user preference and conditions for descent. Telemark tension assembly (110) can also be loosened to the point that adjustable restraint (112) can be rotated forward and rest unengaged in front of ski boot (300) for free rotation in toe coupling (100) during ascent or touring. This embodiment provides a lightweight telemark ski binding system that has improved resistance to undesirable snow gathering. Other embodiments are described that have adjustability features and alpine descent mode.