The present invention relates to a snow gliding device comprising: a first gliding surface, a first layer for heating said first gliding surface, which first layer comprises: a positive temperature coefficient superimposed impedance polymeric compound, a first and a second electrode, wherein said positive temperature coefficient superimposed impedance polymeric compound is at least partially sandwiched between said first and second electrode, and which first and second electrodes are adapted to provide a potential difference across said positive temperature coefficient superimposed impedance polymeric compound when connected to a power source, which first layer is arranged adjacent to and in thermal communication with said first gliding surface.

The present invention relates to a snow gliding device comprising: a first gliding surface, a first layer for heating said first gliding surface, which first layer comprises: a positive temperature coefficient superimposed impedance polymeric compound, a first and a second electrode, wherein said positive temperature coefficient superimposed impedance polymeric compound is at least partially sandwiched between said first and second electrode, and which first and second electrodes are adapted to provide a potential difference across said positive temperature coefficient superimposed impedance polymeric compound when connected to a power source, which first layer is arranged adjacent to and in thermal communication with said first gliding surface.

Some embodiments disclosed herein provide systems, methods, and apparatus relating to a touring snowboard binding comprising an adjustable lateral leverage device. In some embodiments, the adjustable lateral leverage device may comprise at least one first attachment generally at a top corner of a highback of a touring snowboard boot and at least one second attachment generally at an ankle portion of the binding. The adjustable tensioning element may extend generally diagonally between the at least one first attachment and the at least one second attachment such that when the tension in the adjustable lateral leverage device is increased the lateral support to the boot is increased proportionally and when the tension in the adjustable lateral leverage device is decreased the lateral support to the boot is decreased proportionally. Some embodiments also provide a touring snowboard boot comprising an adjustable leverage device.

Some embodiments disclosed herein provide an apparatus for joining two skis to form a splitboard. The apparatus can comprise a first attachment portion configured to attach to a first ski and a second attachment portion configured to attach to a second ski. The first attachment portion and the second attachment portion can be configured to engage to prevent splitboard skis from moving up and down relative to each other, from moving apart in a direction perpendicular to a seam of the splitboard, from sliding relative to each other in a direction parallel to the seam, and from rotating about the seam of the splitboard.

A rotating binding for a snowboard or other recreational equipment to which a user's foot is attached includes a lever having teeth at one end for engaging corresponding teeth in a disk attached to the snowboard or other equipment. Movement of the lever is resisted until an additional movement of the lever is performed in order to unsecure the lever from a secured position in which it engages the teeth within the disk. Some examples of the snowboard or other recreational equipment may include retractable fins that may be extended downward from the snowboard, or secured in a retracted position.

A rotating binding for a snowboard or other recreational equipment to which a user's foot is attached includes a lever having teeth at one end for engaging corresponding teeth in a disk attached to the snowboard or other equipment. Movement of the lever is resisted until an additional movement of the lever is performed in order to unsecure the lever from a secured position in which it engages the teeth within the disk. Some examples of the snowboard or other recreational equipment may include retractable fins that may be extended downward from the snowboard, or secured in a retracted position.

A latching device that joins splitboard skis along lengthwise edges. The latching device can include a bracket assembly and a crossbar assembly. The bracket assembly can be secured to a first splitboard ski. The crossbar assembly can be secured to a second splitboard ski. The crossbar assembly can include a crossbar and a lever rotationally coupled to the crossbar. The bracket assembly can include a bracket. Rotating the lever can apply a compressive force between the lever and the inside edge of the bracket applying a holding force between the first splitboard ski and the second splitboard ski. With the splitboard skis disengaged, the bracket assembly and crossbar assembly can be stowed completely within their respective splitboard ski perimeter boundaries.

Method for coupling a sensor to a piece of equipment, such as a golf club, baseball bat, or tennis racket, that ensures that the sensor is in a known position and orientation relative to the equipment. Compensates and calibrates for degrees of freedom introduced in manufacturing and installation. The method may include manufacturing a sensor receiver that aligns with equipment in a fixed orientation, and that holds a sensor housing in a fixed orientation relative to the receiver. Remaining uncertainties in sensor position and orientation may be addressed using post-installation calibration. Calibration may include performing specific calibration movements with the equipment and analyzing the sensor data collected during these calibration movements.

A snowmobile has a suspension with a spring. The spring has a central loop portion and an elastomeric bushing disposed in the central loop portion. A limiting cable is disposed adjacent to the spring. The snowmobile also has a rear snowmobile suspension with a torsion link structure. A control arm is pivotally connected to a first end of the torsion link structure. A wheel assembly is pivotally connected to a second end of the torsion link structure. A first slide rail is attached to the wheel assembly with a sliding mechanism. A track around the rear snowmobile suspension has a paddle oriented substantially perpendicular to the track. A first gripping element is disposed on the face of the paddle.

A snowmobile has a suspension with a spring. The spring has a central loop portion and an elastomeric bushing disposed in the central loop portion. A limiting cable is disposed adjacent to the spring. The snowmobile also has a rear snowmobile suspension with a torsion link structure. A control arm is pivotally connected to a first end of the torsion link structure. A wheel assembly is pivotally connected to a second end of the torsion link structure. A first slide rail is attached to the wheel assembly with a sliding mechanism. A track around the rear snowmobile suspension has a paddle oriented substantially perpendicular to the track. A first gripping element is disposed on the face of the paddle.