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 lacing system configured to selectively adjust the size of an opening on an object and allow for the incremental release of the lace within the lacing system. The lacing system can have a reel comprising a housing, a spool supported by the housing, and a knob supported by the housing. The reel can be configured so that cable is gathered in the channel formed in the spool when the spool is rotated in a first direction relative to the housing, and so that cable can be incrementally released from the spool when the spool is rotated in a second direction relative to the housing. In some embodiments, the reel can include a rotation limiter which can be configured to prevent over-tightening of the lacing system and/or to prevent rotation past the substantially fully loosened state.

A lacing system configured to selectively adjust the size of an opening on an object and allow for the incremental release of the lace within the lacing system. The lacing system can have a reel comprising a housing, a spool supported by the housing, and a knob supported by the housing. The reel can be configured so that cable is gathered in the channel formed in the spool when the spool is rotated in a first direction relative to the housing, and so that cable can be incrementally released from the spool when the spool is rotated in a second direction relative to the housing. In some embodiments, the reel can include a rotation limiter which can be configured to prevent over-tightening of the lacing system and/or to prevent rotation past the substantially fully loosened state.

An apparatus for automatically adjusting tension on retention member to hold multiple objects together. Examples include using retention apparatus to obtain optimal fit and use of a human wearable item such as article of footwear. Sensors may be used to sense changes in movement of the article of footwear, of the person wearing it, or of a third object such as a vehicle carrying the person. A retention member may surround at least a portion of the objects, and an actuator may be included that automatically rotates a rotating member such as a gear or pulley that may be coupled to the retention member. The rotating member may be configured to automatically adjust tension on the retention member many times per second based on control signals from control logic responsive to the sensors.

An apparatus for automatically adjusting tension on retention member to hold multiple objects together. Examples include using retention apparatus to obtain optimal fit and use of a human wearable item such as article of footwear. Sensors may be used to sense changes in movement of the article of footwear, of the person wearing it, or of a third object such as a vehicle carrying the person. A retention member may surround at least a portion of the objects, and an actuator may be included that automatically rotates a rotating member such as a gear or pulley that may be coupled to the retention member. The rotating member may be configured to automatically adjust tension on the retention member many times per second based on control signals from control logic responsive to the sensors.

A snowboard binding using for a snowboard is provided. The snowboard binding includes a baseplate, a boot supporter surrounding the baseplate, an interlocking assembly, and a stopper disposed on the interlocking assembly. The boot supporter includes a first side, a second side, and a rear side. The interlocking assembly is disposed at the first side of the boot supporter. A mutual positional relationship between the interlocking assembly and the snowboard presents an initial state. As snowboard boot touches the interlocking assembly to change the initial state while the snowboard boot is put in and fixed to the snowboard binding. Concurrently the interlocking assembly drives the stopper to rotate so that the stopper leaves or inserts into snowfield.

A snowboard binding using for a snowboard is provided. The snowboard binding includes a baseplate, a boot supporter surrounding the baseplate, an interlocking assembly, and a stopper disposed on the interlocking assembly. The boot supporter includes a first side, a second side, and a rear side. The interlocking assembly is disposed at the first side of the boot supporter. A mutual positional relationship between the interlocking assembly and the snowboard presents an initial state. As snowboard boot touches the interlocking assembly to change the initial state while the snowboard boot is put in and fixed to the snowboard binding. Concurrently the interlocking assembly drives the stopper to rotate so that the stopper leaves or inserts into snowfield.

The fastening device (3) for fastening a boot (4) to a sliding board (2) includes a base (10) intended to be fastened to a sliding board and to surround, at least partially, a sole and lateral sides of a boot, at least one lever (201, 301) that can move relative to the base and can interact with a retention element (44A, 44B) connected to a boot, the lever (201, 301) being able to move between a first retention position (P1) and a second clamping position (P2), the lever being able to retain the boot in the base when it is in its first position, the lever being able to transmit a downward force on the retention element when it is in its second position.

A binding for snowboard includes a base structure and a heel support pivotally mounted to the base structure for movement between an open position for allowing a user to insert or remove their boot from the binding and a closed position for securing the users boot in the binding. An adjustable foot strap is attached to the base structure and a tensioning system is attached to the heel support and the adjustable foot strap for applying a tensioning force to the adjustable strap when the heel support is moved to the closed position and for releasing the tensioning force from the adjustable foot strap when the seal support is moved to the open position.

A binding for snowboard includes a base structure and a heel support pivotally mounted to the base structure for movement between an open position for allowing a user to insert or remove their boot from the binding and a closed position for securing the users boot in the binding. An adjustable foot strap is attached to the base structure and a tensioning system is attached to the heel support and the adjustable foot strap for applying a tensioning force to the adjustable strap when the heel support is moved to the closed position and for releasing the tensioning force from the adjustable foot strap when the seal support is moved to the open position.