An edge protector for a sports board in the form of a bead of a resilient material having a cross-section comprising a central portion and, extending therefrom in one direction, a tapering impact-absorbing section and, extending from the central portion in the opposing direction, a pair of convergent leg sections for engaging an edge of the board. The central portion and the impact-absorbing section together form a triangular cross-section, which is particularly suited to receiving and dissipating an impact. The triangular section can be a hollow triangular section to reduce weight and tailor the impact response. One leg of the pair extends beyond the other leg to ease fitting. The bead is preferably formed by extrusion; silicone with a Shore A hardness of between 62 and 68 provides an ideal resilient material.

A method of changing a shape of a gliding surface of a gliding device may involve, in response to longitudinal deflection of the gliding device, causing at least one force transfer element to move longitudinally relative to the gliding device. Causing the at least one force transfer element to move longitudinally relative to the gliding device may involve causing the at least one force transfer element to deflect first and second laterally opposite side elements of the gliding device along a portion of the gliding device extending longitudinally along a binding region of the gliding device. Apparatuses and gliding devices are also disclosed.

A method of changing a shape of a gliding surface of a gliding device may involve, in response to longitudinal deflection of the gliding device, causing at least one force transfer element to move longitudinally relative to the gliding device. Causing the at least one force transfer element to move longitudinally relative to the gliding device may involve causing the at least one force transfer element to deflect first and second laterally opposite side elements of the gliding device along a portion of the gliding device extending longitudinally along a binding region of the gliding device. Apparatuses and gliding devices are also disclosed.

The invention concerns a device for controlling a monoski (1), in particular for snow, by means of the combined simple rotation and simple tilting of a single control member such as a handlebar, simultaneously by lateral inclination and by longitudinal twisting. It therefore combines the necessary mechanical functions of a pair of conventional fixtures with the ease of use of a bicycle, and does not require a specific monoski. It makes it possible to move freely on the snow, controlling with both feet held but not locked, or indeed to use one foot to help push on flat terrain and provide stability. The lever arm provided by the control member is considerably superior to that of a pair of conventional fixtures, greatly improving ease of use and the maximum capacities of the device. Finally, it can be quickly folded for ease of handling and storage.

The invention concerns a device for controlling a monoski (1), in particular for snow, by means of the combined simple rotation and simple tilting of a single control member such as a handlebar, simultaneously by lateral inclination and by longitudinal twisting. It therefore combines the necessary mechanical functions of a pair of conventional fixtures with the ease of use of a bicycle, and does not require a specific monoski. It makes it possible to move freely on the snow, controlling with both feet held but not locked, or indeed to use one foot to help push on flat terrain and provide stability. The lever arm provided by the control member is considerably superior to that of a pair of conventional fixtures, greatly improving ease of use and the maximum capacities of the device. Finally, it can be quickly folded for ease of handling and storage.

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 trick scooter comprising a base plate, a support member, comprising a first end and a second end, a handle, comprising a first end and a second end, wherein the handle is attached to the second end of the support member. Furthermore, the base plate is manufactured of elastic and flexible material. Such a trick scooter is advantageous as it is lightweight, easy and safe to handle and does not damage the surroundings or cause injury to people nearby.

A trick scooter comprising a base plate, a support member, comprising a first end and a second end, a handle, comprising a first end and a second end, wherein the handle is attached to the second end of the support member. Furthermore, the base plate is manufactured of elastic and flexible material. Such a trick scooter is advantageous as it is lightweight, easy and safe to handle and does not damage the surroundings or cause injury to people nearby.

A handle for a snowboard with handle that can be manufactured in a simple manufacturing process and has increased strength is provided. Further, a snowboard with handle provided with such a handle is provided. A handle for a snowboard with handle to be attached to a sliding board of a snowboard to form a snowboard with handle includes a front-side plate part, a back-side plate part, and a handle main body having a reinforcing member joining an inside surface of the front-side plate part and an inside surface of the back-side plate part and having a hollow portion inside, wherein the reinforcing member internally includes a core member constituted of a hollow cylindrical body or a columnar body having a predetermined thickness. Further, a snowboard with handle including this handle for a snowboard with handle.