A thrust-responsive structure for skis includes a plurality of retractable elements. Each retractable element includes a portion configured to move from an elevated position to a retracted position. Each retractable element further includes a first retention feature. The structure further comprises a matrix surrounding at least a subset of the plurality of retractable elements. The matrix is static relative to the plurality of retractable elements. The matrix includes a plurality of second retention features configured to captively engage the first retention features of the plurality of retractable elements. A position of each retractable element of the plurality of retractable elements, in the elevated position, is limited by contact between the first retention feature and the second retention feature.

The running surface of a ski with unique individual tractive elements arranged in a pattern that allow for uphill movement by the skier. Individual tractive elements used on the running surface of a ski that have unique features in the surface design that enable more efficient operation for uphill movement by the skier. Individual tractive elements arranged in a pattern on a ski bottom in such a way that allows for minimum resistance to the snow surface in the glide portion of uphill ski movement, and maximum resistance in the grip (or kick) portion of uphill ski movement. Individual tractive elements that can be used uniquely on a ski bottom where a portion of the ski bottom surface is a device that can be removed and reattached. Individual tractive elements on the running surface of a ski bottom that can be arranged in a unique and optimal array to maximize the functions of uphill glide and uphill kick through movement of the skis by the skier. Individual tractive elements that can be incorporated on a climbing skin used in tractive uphill/forward skiing in a unique array configuration. Individual tractive elements in a unique array configuration that can be incorporated with additional tractive materials on a climbing skin used in tractive uphill/forward skiing.

Embodiments relate to a denticle scale array including a plurality of denticle scales arranged in pattern and configured to be incorporated onto a ski base, wherein the plurality of denticle scales includes at least a denticle scale including a glide contact area configured to contact terrain when the ski base is unweighted and moving forward, a kick contact area greater than the glide contact area and configured to contact the terrain when the ski base is weighted and not moving forward, at least a longitudinal profile comprising an S-curve, a curved trailing edge profile, and at least a longitudinal groove running parallel with the forward movement of the ski base.

Traction systems for snowmobile skis producing traction on snow and ice covered surfaces; consisting a pair of snowmobile skis each having an assembly of parts; driven by an hydraulic rotor that pivots the skis, adjusting their position when cornering, providing traction, according to a snowmobile steering system . And is powered and controlled by at least one of: hydraulic steering system, an electro-hydraulic steering system; an electric power steering system using an electric motor instead of hydraulic rotor.

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 thrust-responsive structure for skis includes a plurality of retractable elements. Each retractable element includes a portion configured to move from an elevated position to a retracted position. Each retractable element further includes a first retention feature. The structure further comprises a matrix surrounding at least a subset of the plurality of retractable elements. The matrix is static relative to the plurality of retractable elements. The matrix includes a plurality of second retention features configured to captively engage the first retention features of the plurality of retractable elements. A position of each retractable element of the plurality of retractable elements, in the elevated position, is limited by contact between the first retention feature and the second retention feature.

A thrust-responsive structure for skis includes a plurality of retractable elements. Each retractable element includes a portion configured to move from an elevated position to a retracted position. Each retractable element further includes a first retention feature. The structure further comprises a matrix surrounding at least a subset of the plurality of retractable elements. The matrix is static relative to the plurality of retractable elements. The matrix includes a plurality of second retention features configured to captively engage the first retention features of the plurality of retractable elements. A position of each retractable element of the plurality of retractable elements, in the elevated position, is limited by contact between the first retention feature and the second retention feature.

A thrust-responsive structure for skis includes a plurality of retractable elements. Each retractable element includes a portion configured to move from an elevated position to a retracted position. Each retractable element further includes a first retention feature. The structure further comprises a matrix surrounding at least a subset of the plurality of retractable elements. The matrix is static relative to the plurality of retractable elements. The matrix includes a plurality of second retention features configured to captively engage the first retention features of the plurality of retractable elements. A position of each retractable element of the plurality of retractable elements, in the elevated position, is limited by contact between the first retention feature and the second retention feature.

A snow ski has a longitudinal body defining a sole for gliding on the snow. The ski includes: (a) a platform slidably coupled to the body for sliding longitudinally relative to the body; and (b) a gripping element slidably and rotatably coupled to the body and rotatably coupled to the platform. The gripping element extends downward to penetrate the snow in response to the platform being slid rearward relative to the body. The gripping element retracts upward above the sole when the platform is slid forward relative to the body. First and second gripping elements may be disposed on opposing sides of the body. A locking mechanism selectively locks the platform at a forward position, in which the gripping element is retracted, one or more intermediate positions, or a rearward position in which the gripping element extends to penetrate the snow. A ski-traction kit for retrofitting a ski is provided.

A snow ski has a longitudinal body defining a sole for gliding on the snow. The ski includes: (a) a platform slidably coupled to the body for sliding longitudinally relative to the body; and (b) a gripping element slidably and rotatably coupled to the body and rotatably coupled to the platform. The gripping element extends downward to penetrate the snow in response to the platform being slid rearward relative to the body. The gripping element retracts upward above the sole when the platform is slid forward relative to the body. First and second gripping elements may be disposed on opposing sides of the body. A locking mechanism selectively locks the platform at a forward position, in which the gripping element is retracted, one or more intermediate positions, or a rearward position in which the gripping element extends to penetrate the snow.

A ski-traction kit for retrofitting a ski is provided.