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.

The present invention provides a kind of sports equipment, particularly sports equipment for water sport or snow sport, comprising a main body made of light rigid material and having at least one built-in framework that is harder than the main body. The sports equipment further comprises a deck fixed on the top surface of the main body and configured to be harder than the main body. Compared with prior sport equipment, the equipment of the invention has the advantages such as light weight, durability, collision resistance and easy handling.

The present invention provides a kind of sports equipment, particularly sports equipment for water sport or snow sport, comprising a main body made of light rigid material and having at least one built-in framework that is harder than the main body. The sports equipment further comprises a deck fixed on the top surface of the main body and configured to be harder than the main body. Compared with prior sport equipment, the equipment of the invention has the advantages such as light weight, durability, collision resistance and easy handling.

A bindingless snowboard including: a deck having a platform, the platform includes a first deck side edge, a second deck side edge, an upper deck surface and a lower deck surface; a first extension secured to and extending from the first deck side edge; a second extension secured to and extending from the second deck side edge; a base having a first base side edge and a second base side edge, the base secured to the lower deck surface; a first carving edge secured to the first deck edge; a second carving edge secure to the second deck edge; a first sidewall spacer secured between the first extension and the first edge and positioned adjacent to the first deck side edge; and, a second sidewall spacer secured between the second extension and the second edge and positioned adjacent to the second deck side edge, wherein at least a portion of a first force applied to the first extension is transmitted to the first carving edge through the first sidewall spacer and at least a portion of a second force applied to the second extension is transmitted to the second carving edge through the second sidewall spacer.

A bindingless snowboard including: a deck having a platform, the platform includes a first deck side edge, a second deck side edge, an upper deck surface and a lower deck surface; a first extension secured to and extending from the first deck side edge; a second extension secured to and extending from the second deck side edge; a base having a first base side edge and a second base side edge, the base secured to the lower deck surface; a first carving edge secured to the first deck edge; a second carving edge secure to the second deck edge; a first sidewall spacer secured between the first extension and the first edge and positioned adjacent to the first deck side edge; and, a second sidewall spacer secured between the second extension and the second edge and positioned adjacent to the second deck side edge, wherein at least a portion of a first force applied to the first extension is transmitted to the first carving edge through the first sidewall spacer and at least a portion of a second force applied to the second extension is transmitted to the second carving edge through the second sidewall spacer.

In described embodiments, a snowboard conversion kit includes a first strap assembly having a first hollow strap sleeve having a first end, a second end, distal from the first end, and a cutout between the first end and the second end. A first strap has a first strap end that extends into the first hollow strap sleeve from the first end and a second strap end that extends into the first hollow strap sleeve from the second end. The first strap and the first strap sleeve form a loop. A first strap securing assembly is adapted to extend through the first hollow strap sleeve and secure the first hollow strap sleeve to a snowboard. A second strap assembly, similar to the first strap assembly is also provided.

A steering system for a snowboard includes two binding interface pods, one of which may be active and one of which may be passive. Rotation or tilting of a top plate of the active binding interface pod in response to rotation or tilting of the rider's steering foot causes counter-rotation of a steering fin under the rider's steering foot. The passive binding interface pod is responsive via a linkage between the active and passive binding interface pods to cause rotation of a steering fin under the rider's non-steering foot. Coordinated counter-rotation of the steering fins causes the board to turn in the direction of rotation of the rider's steering foot when the steering fins are unaligned. Optionally, both binding pods may be active in steering, i.e. enabling two footed steering.

A steering system for a snowboard includes two binding interface pods, one of which may be active and one of which may be passive. Rotation or tilting of a top plate of the active binding interface pod in response to rotation or tilting of the rider's steering foot causes counter-rotation of a steering fin under the rider's steering foot. The passive binding interface pod is responsive via a linkage between the active and passive binding interface pods to cause rotation of a steering fin under the rider's non-steering foot. Coordinated counter-rotation of the steering fins causes the board to turn in the direction of rotation of the rider's steering foot when the steering fins are unaligned. Optionally, both binding pods may be active in steering, i.e. enabling two footed steering.

A system, configuration, and method for converting a pair of skis to perform as an emulation snowboard is provided. The system includes a pair of skis, and a coupling device including a platform having an upper planar surface with a plurality of mounting locations with mounting system therein. The mounting system couples the skis together and provides a surface on which a pair of bindings may be affixed. The steps for conversion include providing a pair of skis, removing a ski binding from each ski in the pair of skis, if a binding is installed on either ski in the pair of skis, providing a platform with a mounting system, utilizing the mounting system to affix the platform to each ski in the pair of skis, and attaching a pair of snowboard bindings to the platform.

The splitboard fastening system is for use with a splitboard having first and second splitboard skis. The splitboard fastening system includes an adjustable crossbar attachment, configured to be coupled to the first splitboard ski, and including a crossbar having an engagement interface that is adjustable relative to a center seam of the splitboard. A rotatable lever attachment is configured to be coupled to the second splitboard ski, and includes a post, defining an axis of rotation, and coupled to a lever. Wherein, in a locked configuration, the post exerts a lateral force against the engagement interface of the crossbar based upon rotation of the lever.