A heel unit for an alpine touring binding, comprising a binding body which is suitable for holding a heel portion of an alpine touring shoe in a downhill position of the heel unit and for releasing the heel portion of the alpine touring shoe in an alpine touring position of the heel unit, such that the alpine touring shoe can lift off the heel unit, and a climbing aid which is adjustable between an active position and a passive position, wherein, while in the active position, the climbing aid supports the heel portion of the alpine touring shoe at a predetermined height above a sliding board plane in the alpine touring position of the heel unit, wherein the climbing aid is biased over the entire path of movement thereof into the active position by means of a flexible element and can be locked in the passive position.

A single-pull tightened snowshoe binding is provided, the binding comprising: a sole plate configured to be hingedly interconnected to a snowshoe; a toe cap interconnected with the sole plate with a first anterior strap and a second anterior strap, wherein the anterior straps are configured to wrap around the lateral aspects of a toe box of a shoe inserted within the snowshoe binding, and wherein the toe cap is configured to interface with a top aspect of the shoe; a first lateral strap extending outward from the sole plate, wherein the first lateral strap is configured to wrap upward along a lateral aspect of the shoe and extend toward a posterior aspect of the shoe; a second lateral strap extending outward from the sole plate, wherein the second lateral strap is configured to wrap upward along a lateral aspect of a shoe and extend toward the posterior aspect of the snowshoe binding; a first tightening strap having a first end and a second end, the first end of the first tightening strap interconnected to a posterior aspect of the toe cap, the first tightening strap slideably interconnected with the distal end of the first lateral strap, wherein the second end of the first tightening strap is configured to span around the posterior aspect of the shoe; a second tightening strap having a first end and a second end, the first end of the second tightening strap interconnected to a posterior aspect of the toe cap, the second tightening strap slideably interconnected with the distal end of the second lateral strap, wherein the second end of the second tightening strap is configured to span around the posterior aspect of the shoe; the second ends of the first and second tightening straps interconnected by a strap tightening mechanism; wherein tightening of the first and second tightening straps simultaneously retracts the toe cap toward the sole plate, retracts the first and second lateral straps upward along a lateral aspect of a shoe inserted in the binding, and biases the shoe toward the toe cap.

A snowshoe provides a way for outdoor enthusiasts to traverse the backcountry effectively and efficiently. The snowshoe allows the user to glide through the snow like a cross-country ski, but with the minimal footprint of a traditional snowshoe. The snowshoe includes a board and a binding mechanism that secures the user to the board, but allows for a pivoting motion. The pivoting motion allows the user to ascend steep terrain by performing a motion similar to cross-country skiing.

A snowshoe (1) in the form of an elongated plate called a mesh, onto which a fastener (3) is mounted, intended to hold the shoe of the user in place, the mesh being formed by an elongated plate comprising a front portion (6) called a spatula (6) extended rearward (AR) by a rear part, formed by a central portion (5) extended by a rear portion (7), the front portion (6) being curved upward to form the spatula, characterized in that the rear part is flexible at least longitudinally and at least in the central portion (5), while the front portion (6) of the mesh is rigid so as to be less flexible than the rear part, i.e. the other portions, particularly the central portion and the rear portion.

The hybrid snowshoe-ski comprises a rigid frame, a decking attached to the frame and a binding attached to one of the decking and the frame. The decking comprises undulations that each extend between first and second sides of the snowshoe-ski.

A snowshoe (1500) is formed from multi-density foam materials. The snowshoe (1500) generally includes a deck 1502 and binding 1504 mounted on the deck 1502. The deck 1502 is formed from layers of flexible multi-density foam materials and has a continuously curved bottom surface to promote forward rocking motion. Consequently, it is not necessary to provide a pivot plate with crampons or to provide an opening in the deck 1502. The deck 1502 further includes a traction plate 1510. The traction plate 1510 is formed from a material that is harder than the lower layer of the deck 1502. The traction plate 1510 includes a number of cleats 1512 distributed from side-to-side and front-to-back across the traction plate 1510. Each of the cleats 1512 includes a number of spikes 1514 for penetrating snow or ice to provide enhanced traction.

A snowshoe-ski kit comprising a hybrid snowshoe-ski comprising a main body defining a bottom surface operative for moving over snow and having a snowshoe-ski traction coefficient, and a top surface opposite the bottom surface. The hybrid snowshoe-ski further comprises a binding attached to the main body for attachment to a person's foot atop the top surface. The kit also comprises a first removable and reversible sheet-like skin having opposite first and second surfaces each defining respective first and second skin traction coefficients that differ from each other and that differ from the snowshoe-ski bottom surface traction coefficient. The first skin is removably attachable to the snowshoe-ski main body with either one of the first and second surfaces bearing against the bottom surface and the other one of the first and second surfaces being exposed, for allowing the snowshoe-ski to be operatively used either alone or with the first skin installed with either one of the first and second skin surfaces exposed.

A snowshoe. The snowshoe includes a base and straps. The base is made of polyethylene foam. The base includes an upper surface, a lower surface and an outer edge. The lower surface is substantially flat and is designed to prevent the user from sinking into snow. The plurality of straps each include a first end opposing a second end. The first end and the second end are secured to the upper surface forming a loop. The straps are an attaching mechanism to keep the snowshoe on the user's boot or shoe.

A snowshoe provides a way for outdoor enthusiasts to traverse the backcountry effectively and efficiently. The snowshoe allows the user to glide through the snow like a cross-country ski, but with the minimal footprint of a traditional snowshoe. The snowshoe includes a board and a binding mechanism that secures the user to the board, but allows for a pivoting motion. The pivoting motion allows the user to ascend steep terrain by performing a motion similar to cross-country skiing.

A snowshoe (1500) is formed from multi-density foam materials. The snowshoe (1500) generally includes a deck 1502 and binding 1504 mounted on the deck 1502. The deck 1502 is formed from layers of flexible multi-density foam materials and has a continuously curved bottom surface to promote forward rocking motion. Consequently, it is not necessary to provide a pivot plate with crampons or to provide an opening in the deck 1502. The deck 1502 further includes a traction plate 1510. The traction plate 1510 is formed from a material that is harder than the lower layer of the deck 1502. The traction plate 1510 includes a number of cleats 1512 distributed from side-to-side and front-to-back across the traction plate 1510. Each of the cleats 1512 includes a number of spikes 1514 for penetrating snow or ice to provide enhanced traction.