A brake arrangement for a touring binding adjustable between a braking position and a sliding position, including: a base having a fastening arrangement; a pedal; at least one brake arm mounted on the base and on the pedal; at least one first resilient element to preload the brake arrangement into the braking position; a locking element that is linearly displaceable along a longitudinal direction of the ski to adjust between an active position, which locks the brake arrangement in the sliding position, and a passive position; and an actuating element mounted on the brake arrangement pivotable about a pivot access, the actuating element adjustable between a locking position, where the locking element is set into the locking position, and a release position, where the locking element is set into the passive position, and wherein a pivoting movement of the actuating element causes a linear movement of the locking element.

A release mechanism is provided for releasably connecting a strap to sports equipment. The strap is secured at a first end to the sports equipment and at a second end to the release mechanism. The release mechanism has a fastening part releasably connected to an engagement element. The engagement element interacts with a fastening part bail element that is pivotable about a pivot axle between a release position and an engaged position with the engagement element. The bail element can be secured in the engaged position by a securing element. The securing element and bail element are secured to the fastening part such that the distance between the pivot axle of the bail element and the securing element changes when a tensile load is applied to the bail element. The securing element releases the bail element when a defined release tensile force is exerted on the bail element.

A binding having a front plate (2), a front assembly (3) for immobilising the boot and capable of cooperating with the sole (81) of the boot (8), a rear assembly (6) for retaining the boot and capable of cooperating with a retaining lug (85) of the rear portion of the front sole and/or with the rear sole, the rear assembly being movable relative to the front plate in the vertical plane, and tensioning means (66) which act between the rear retaining assembly (6) and the ski and/or the front plate (2) and which are capable of tensioning the boot (8) on the binding (1) and enabling the heel to be raised freely. The front immobilisation assembly is mounted in a floating manner on the front plate about a transverse pivot axis (A3), the supporting point enabling the front end (81′) of the sole (81) of the boot.

The invention relates to a combination of a downhill binding or downhill ski binding, in particular a front jaw of the downhill binding, and a ski boot. The ski boot (10) comprises a rigid ski boot shell (11) and a sole (1) of the ski boot comprising a front end (1b) of the sole, a rear end of the sole, an upper side (1a) of the sole and a lower side (1c) of the sole. The downhill binding comprises a front jaw (20) and a rear jaw, wherein the downhill binding comprises a bearing structure (2) for the sole (1) of the ski boot. The bearing structure (2) has an apex (5) which has a distance (X1), in the longitudinal direction (X), from the front end (1b) of the sole held in the downhill binding of at least 28 mm and at most 34 mm, and wherein the apex (5) exhibits a perpendicular distance (Y2) from the upper side (1a) of the sole of the ski boot held in the downhill binding of 19 mm±2 mm in at least one point.

A front ski binding assembly for a ski board, including a front boot-retaining mechanism retaining a boot in a slope ascending or descending utilisation, two first articulated arms pivotably mounted on a platform, a lateral security release device arranged in cooperation with first ends of first articulated arms to apply thereon a biasing force urging second ends of first articulated arms towards the longitudinal axis of the platform and allow each first articulated arms to rotate away from the longitudinal axis upon application by a boot of force higher than the biasing force on an interior surface of a first articulated arm, and two second articulated arms pivotably mounted about a second arbor and bearing at an end touring pins to engage corresponding mating members on front end sides of a boot in slope ascending utilisation, the second articulated arms being movable between an active and inactive position.

A release mechanism is provided for releasably connecting a strap to sports equipment. The strap is secured at a first end to the sports equipment and at a second end to the release mechanism. The release mechanism has a fastening part releasably connected to an engagement element. The engagement element interacts with a fastening part bail element that is pivotable about a pivot axle between a release position and an engaged position with the engagement element. The bail element can be secured in the engaged position by a securing element. The securing element and bail element are secured to the fastening part such that the distance between the pivot axle of the bail element and the securing element changes when a tensile load is applied to the bail element. The securing element releases the bail element when a defined release tensile force is exerted on the bail element.

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.

A toe-piece of a ski binding has a base fixable to a ski, a first jaw, a second jaw, a first pin on the first jaw for inserting in a first lateral hole a ski boot tip, and a second pin on the second jaw for inserting in a second lateral hole opposite the first lateral hole in the ski boot tip. The toe-piece also has a first guide and a second guide on the base, each with a portion extending away from a longitudinal axis of the ski and another second portion extending towards the front of the ski. Two sliding elements on the first jaw engage slidably along the first guide and two sliding elements on the second jaw engage slidably along the second guide.

A telemark ski binding has a toe retainer pivotally coupled to a base. A lock assembly of the binding has an actuator assembly. The lock assembly is adjustable between a locked configuration and an unlocked configuration. The binding further has a heel retainer rotatably coupled to the toe retainer. When the lock assembly is in the unlocked configuration, the toe retainer is unlocked, and the toe retainer and heel retainer are both rotatable together substantially inline, relative to the base, around a first center point. When the lock assembly is in the locked configuration, the toe retainer is locked, and the toe retainer is restrained from rotating relative to the base. The heal retainer is rotatable relative to the toe retainer around a second center point. The second center point is at a different location from said first center point.

The present invention relates to a release mechanism for a ski binding system, wherein the system comprises a ski shoe (20) wherein pins (11) moveable in each direction are arranged and at least one intermediate spring element (12), wherein the pins (11) are adapted to slide in a barrel (13) between a protruding and a retracted position. The system comprises a frame (2) with two vertical parts (3, 4) arranged on a ski, wherein each vertical part has an opening (5) each for receiving a pin (11) protruding sideways out of the ski shoe (20), two bails (7) with claws (8) at one end and brought together in a manipulator (9) at the other end, wherein the claws (8) and the manipulator (9) are adapted so that they can move synchronously into the openings in the opposite direction of the pins (11).