A flat board as a base plate of binding for splitboards with holders for its fixation on skis joined into a snowboard has a circular slit formed in the central part of the board. The circular slit is equipped with a perimeter recessing for demountable fixing of a contact ring which is on its inner perimeter equipped with two couples of opposed dents designed for connection with a holder. The contact ring is also modified between the dents for insertion of end pins of locking eccentric. The locking eccentric is formed by an axial shaft with end pins protruding from end hubs formed at the both ends of the axial shaft.

A brake device for a sliding board, including: a base for connecting the brake device to the sliding board; and a brake, including: at least one brake paddle; a latching element which can be moved back and forth between a first position in which the brake paddle can be released in order to slow the sliding board and a second position in which the brake paddle can be fixed in a non-braking position; and a pedal which includes a bearing area for a boot and a functional element which can be moved relative to the bearing area, wherein moving the functional element releases the latching element to be moved from the first position to the second position.

A binding having a front plate (2), a front assembly (3) for immobilising the boot and capable of cooperating with the sole (81) of the boot (8), a rear assembly (6) for retaining the boot and capable of cooperating with a retaining lug (85) of the rear portion of the front sole and/or with the rear sole, the rear assembly being movable relative to the front plate in the vertical plane, and tensioning means (66) which act between the rear retaining assembly (6) and the ski and/or the front plate (2) and which are capable of tensioning the boot (8) on the binding (1) and enabling the heel to be raised freely. The front immobilisation assembly is mounted in a floating manner on the front plate about a transverse pivot axis (A3), the supporting point enabling the front end (81′) of the sole (81) of the boot.

A heel unit for a downhill or a combined downhill and alpine touring ski binding has a vertical-release functional group with a tensioning device with a first spring assembly for holding a ski boot downhill, and a horizontal-release functional group with a base plate to be positioned on the ski and a slide that deflects laterally opposing the ski longitudinal direction against the force of a second spring assembly, on which the vertical-release functional group is arranged, as well as with a compression spring assembly acting on the horizontal-release functional group. The vertical-release functional group rotates on the horizontal-release functional group around an axis running vertically towards the top of the ski or towards the vertical, such that, after a limited lateral deflection of the slide, the vertical-release functional group rotates against the force of the second spring assembly to release of the ski boot into the respective lateral-release direction.

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 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 heel unit for a touring binding includes a base for mounting on a sliding board and coupling means to engage a heel portion of a sliding board boot in a downhill position of the touring binding to retain the sliding board boot on the touring binding. A release mechanism holds the coupling means so as to be moveable relative to the base and releasable from the sliding board boot, in the downhill position, in an event of action of a force exceeding a predetermined release force. An adjustment mechanism adjusts the touring binding between the downhill position and a walking position in which the coupling means are remote from and do not engage the sliding board boot. The adjustment mechanism comprises an actuation assembly manually actuatable to lock or unlock the adjustment mechanism substantially without an actuation force or with an actuation force less than the predetermined release force.

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.

The invention relates to a cross-country or ski touring binding for connecting a boot to a ski in an articulated manner, comprising a binding base body with a standing surface for a sole of the boot and a ski contact surface for at least indirect contact with the ski. The binding has a holding device comprising a receiving element which allows the boot to and a holding element for holding the boot on the receiving element. The holding element moves between a closed position holding the boot on the receiving element and an open position releasing the boot. The binding also has an actuating element with a rotating handle for switching the holding element from the closed to the open position, comprising a substantially disk-shaped, eccentrically mounted force-transmission element received in a recess of the holding element.

A ski binding with a binding element mounted displaceably on a slide rail arranged on a ski and which can be fixed in different positions by a latching device, wherein the latching device has latch elements which engage in each other in a blocking position on the binding and ski sides, and the binding-side latch element has a pivotable lever element that in a displacement position the latch elements are not in engagement with each other, wherein the binding element has an operating element with an oblique run-on surface which is transferred between open and closed positions, wherein the operating element, upon transfer of the operating element to the open position, cooperates with an oblique contact surface of the lever element such that the lever element is moved out of the blocking position.