A brake device for a sliding board, including: a base for connecting the brake device to the sliding board; and a brake, including: at least one brake paddle; a latching element which can be moved back and forth between a first position in which the brake paddle can be released in order to slow the sliding board and a second position in which the brake paddle can be fixed in a non-braking position; and a pedal which includes a bearing area for a boot and a functional element which can be moved relative to the bearing area, wherein moving the functional element releases the latching element to be moved from the first position to the second position.
The invention relates to a ski binding including a front jaw and a rear jaw for holding the sole of a ski boot. The front jaw includes a base, via which the front jaw can be connected to a ski, a first holding device for connecting the boot to the ski at the front end of the boot for ascending, and a second holding device for connecting the ski boot to the ski at the front end of the boot for descending. The second holding device exhibits a first configuration for descending, in which the second holding device is in contact with the front end of the sole of the ski boot, and a second configuration for ascending, in which the second holding device is out of contact with the front end of the sole of the ski boot.
A63C 9/18 - Non-self-releasing bindings without heel-straps, but with a clamping device arranged at the front end of, or behind, the binding
A63C 9/086 - Ski bindings yieldable or self-releasing in the event of an accident, i.e. safety bindings using parts which are fixed on the shoe of the user and are releasable from the ski binding
A front jaw for a touring ski binding, includes a base and at least one recess or transit opening in the base. Lateral sole retainers lie opposite each other in relation to a longitudinal axis of the front jaw each include a boot retainer pin and, in a pivoted-in state, co-operate with bearings formed on a ski boot, defining a pivoting axis for the boot extending substantially transverse to the longitudinal axis of the front jaw, and are adjustable between the pivoted-in state, where the bearings of the boot engage the boot retainer pins, and a pivoted-away state where the bearings of the boot are not engaged with the boot retainer pins; spring elements for tensioning the lateral sole retainers; a tensioning lever for moving the sole retainers from the pivoted-in state to the pivoted-away state to release the ski boot from a downhill skiing position or a walking position.
A63C 9/10 - Non-self-releasing toe jaw-ironsNon-self-releasing binding hooks made of one piece
A63C 9/22 - Arrangements for adjusting the toe-clamps
A63C 9/08 - Ski bindings yieldable or self-releasing in the event of an accident, i.e. safety bindings
A63C 9/085 - Ski bindings yieldable or self-releasing in the event of an accident, i.e. safety bindings with sole hold-downs, e.g. swingable
A63C 9/086 - Ski bindings yieldable or self-releasing in the event of an accident, i.e. safety bindings using parts which are fixed on the shoe of the user and are releasable from the ski binding
A front jaw for a touring ski binding, includes a base and at least one recess or transit opening in the base. Lateral sole retainers lie opposite each other in relation to a longitudinal axis of the front jaw each include a boot retainer pin and, in a pivoted-in state, co-operate with bearings formed on a ski boot, defining a pivoting axis for the boot extending substantially transverse to the longitudinal axis of the front jaw, and are adjustable between the pivoted-in state, where the bearings of the boot engage the boot retainer pins, and a pivoted-away state where the bearings of the boot are not engaged with the boot retainer pins; spring elements for tensioning the lateral sole retainers; a tensioning lever for moving the sole retainers from the pivoted-in state to the pivoted-away state to release the ski boot from a downhill skiing position or a walking position.
A63C 9/10 - Non-self-releasing toe jaw-ironsNon-self-releasing binding hooks made of one piece
A63C 9/08 - Ski bindings yieldable or self-releasing in the event of an accident, i.e. safety bindings
A63C 9/085 - Ski bindings yieldable or self-releasing in the event of an accident, i.e. safety bindings with sole hold-downs, e.g. swingable
A63C 9/086 - Ski bindings yieldable or self-releasing in the event of an accident, i.e. safety bindings using parts which are fixed on the shoe of the user and are releasable from the ski binding
A63C 9/22 - Arrangements for adjusting the toe-clamps
5.
Children's ski boot with improved walking function
A ski boot, comprising a ski boot shell and a ski boot sole, wherein the ski boot sole comprises a front end of the ski boot sole, a rear end of the ski boot sole, a lower side of the sole and a free upper side of the sole via which the ski boot sole protrudes forwards, backwards and/or laterally beyond the ski boot shell,
wherein the lower side of the sole comprises a first bearing region for placing upright on a bearing plate of a ski binding, and a second bearing region for walking without skis, wherein a width of the ski boot sole in the second bearing region is larger than a width of the ski boot sole in the first bearing region.
A ski boot, comprising: a rigid ski boot shell; and a sole of the ski boot which comprises a free upper side, which protrudes forwards in the longitudinal direction of the boot and/or laterally beyond the ski boot shell, and a lower side, wherein the ski boot comprises a front attaching region which co-operates with a front part of a ski binding in order to secure the ski boot, and a front region of the ski boot stands upright on a planar base via the front attaching region, wherein the upper side of the sole exhibits a distance, orthogonally with respect to the base, of at least 25 mm at a front end of the sole of the ski boot, and the upper side of the sole has a distance from the lower side of the sole, measured perpendicular to the base, of 19 mm±2 mm at a distance from the front end of the sole, measured in the longitudinal direction, of at least 28 mm, and wherein, with the ski boot standing upright on the base, the lower side of the sole has a distance from the base of at least 5 mm throughout, up to a distance of 40 mm±10 mm from the front end of the sole, as measured in the longitudinal direction.
A combined downhill and touring binding for a ski, including: a base plate which can be fastened on an upper side of the ski; a toe retainer; a heel retainer; a connecting structure; a shifting mechanism comprising a shifting element having a first end which is a front end in the skiing direction and a second end which is a rear end in the skiing direction; and a latching lever using which the heel retainer can be moved by the shifting mechanism into a walking position and into a travelling position and latched in the walking position or travelling position, respectively; wherein the latching lever is connected to the ski in a pivoting joint and arranged in front of the heel retainer in the skiing direction, the first end of the shifting element is connected to the latching lever, and the second end of the shifting element is connected to the heel retainer.
A heel retainer for a ski binding, includes a base plate using which the heel retainer can be fastened to an upper side of a ski or snowboard; a connecting structure connectable to the base plate; and a tensioning device using which a ski boot is tensioned onto the ski. The connecting structure includes first and second connecting structure parts. The first connecting structure part can be moved relative to the second connecting structure part in the transverse release direction when the ski binding is transversely released. The tensioning device includes a sole retainer which, in direct contact with the sole of a ski boot, tensions the ski boot onto the ski or snowboard. The sole retainer is formed as a rolling body exhibiting a rotational axis and is connected to the tensioning device such that the sole retainer can be rotated about its rotational axis.
A heel retainer for a combined downhill and touring binding for a ski, including: a base plate which can be fastened on an upper side of the ski; a connecting structure; a tensioning device for securely holding a ski boot in the heel retainer, including a sole retainer; a shifting mechanism using which the heel retainer can be moved from a travelling position to a walking position and vice versa; and a latching mechanism which latches at least parts of the heel retainer in the travelling position or in the walking position. The latching mechanism includes a latching lever which can be operated manually or using a ski pole and which latches the heel retainer at least in the travelling position, wherein the parts of the heel retainer for changing from the travelling position to the walking position and vice versa can be linearly shifted on the base plate.
A ski binding for downhill skiing and cross-country skiing has a plate (5) which can be pivoted upwards in the front region about an axis (6.26) located transversely to the longitudinal direction of the ski. A front ski binding (2) and a rear heel holder (3) for a ski boot or cross-country ski boot are fastened on the plate. At least one catch element (9.28) which is arranged in front of, or in the region of, the rear sole holder (3) can be used to secure the plate, in its rear region, on the abutment fitted on the ski. In addition, at least one catch element is arranged in the front region of the plate. The plate is fixed on the ski, and reinforced, in the manner of a conventional downhill ski binding by the further catch element in the front region of the ski binding and, in the locked state, is anchored at the front end and at the rear end, and at a number of locations therebetween, on parts of the ski or parts which have been fixed to the ski.
patents
