An integrated latching mechanism includes a slider button. At least one curved elastic arm extends from the slider button and is configured such that in response to an external force urging the slider button in a first direction, the curved elastic arm is distorted such that upon removal of the external force, the curved elastic arm moves the slider button in a direction opposite to the first direction. A locking part is contiguous with the slider button and extends away from the slider button. In response to the external force urging the slider button in the first direction, the locking part moves in the first direction, and upon removal of the external force, the curved elastic arm moves the locking part in the direction opposite to the first direction. The at least one curved elastic arm, the slider button, and the locking part form a single piece of elastic material.

An integrated latching mechanism includes a slider button. At least one curved elastic arm extends from the slider button and is configured such that in response to an external force urging the slider button in a first direction, the curved elastic arm is distorted such that upon removal of the external force, the curved elastic arm moves the slider button in a direction opposite to the first direction. A locking part is contiguous with the slider button and extends away from the slider button. In response to the external force urging the slider button in the first direction, the locking part moves in the first direction, and upon removal of the external force, the curved elastic arm moves the locking part in the direction opposite to the first direction. The at least one curved elastic arm, the slider button, and the locking part form a single piece of elastic material.

A reel assembly (10) having a spool (20) comprising a drum core (22) and side disc flanges (24) attached to the drum core (22) for retaining a wound hose (26) on the spool (20), and a release mechanism (120) operatively engaging the spool (20) via a drive shaft (110). The release mechanism (120) has a pair of rotatable hubs (132, 134) arranged in axial alignment and having a clamping spring (136) fitted around the rotatable hubs (132, 134) and arranged to clamp the hubs (132, 134) together in fixed rotational relation, wherein the clamping spring (136) opens to releases the rotatable hubs (132, 134) when the spool (20) is rotated in a payout direction so that the rotatable hubs (132, 134) disengage and the spool (20) can freewheel.

A reel assembly (10) having a spool (20) comprising a drum core (22) and side disc flanges (24) attached to the drum core (22) for retaining a wound hose (26) on the spool (20), and a release mechanism (120) operatively engaging the spool (20) via a drive shaft (110). The release mechanism (120) has a pair of rotatable hubs (132, 134) arranged in axial alignment and having a clamping spring (136) fitted around the rotatable hubs (132, 134) and arranged to clamp the hubs (132, 134) together in fixed rotational relation, wherein the clamping spring (136) opens to releases the rotatable hubs (132, 134) when the spool (20) is rotated in a payout direction so that the rotatable hubs (132, 134) disengage and the spool (20) can freewheel.

A homing mechanism within a drive mechanism of a lacing engine for an automated footwear platform can include an indexing wheel, a plurality of Geneva teeth and a stop tooth. The plurality of Geneva teeth can be distributed around a portion of a perimeter of the indexing wheel. Each Geneva tooth of the plurality of Geneva teeth can include side profiles conforming to a first side profile that generates a first force when engaged by an index tooth on a portion of the drive mechanism. The stop tooth can be located along the perimeter of the indexing wheel between two Geneva teeth. Additionally, the stop tooth can include side profiles conforming to a second side profile that generates a second force when engaged by the index tooth.

A rope based fall protection device including a rotation unit, a brake unit, and a rope. A first end of the rope is connected to the rotation unit. The rope includes a first rope loop and a second rope loop that are wound around the rotation unit. A first retaining portion of a retaining ring is sleeved on the first rope loop and a second retaining portion thereof is sleeved on the second rope loop, such that the rope forms a rope section which has a fixed length between the second retaining portion and the first end and is wound around the rotation unit. When a free end of the rope is pulled by an external force to release the rope wound around the rotation unit in a direction away from the rotation unit, the retaining ring is broken to release the rope section of the rope. The external force is greater than or equal to a pulling force generated by a user's free fall. By releasing the rope section of the rope, the rotation unit rotates and simultaneously drives the brake unit to rotate to slow down or stop the rotation of the rotation unit.

A detachable cord rolling device includes a cord rolling unit and an auxiliary driving unit. The cord rolling unit has a first base where first and second torsion spring gears engaged with each other are disposed. A first torsion spring is disposed between the first and second torsion spring gears. The auxiliary driving unit has a second base where third and fourth torsion spring gears engaged with each other are disposed. The second base is detachably disposed on the first base of the cord rolling unit. The third torsion spring gear and the first torsion spring gear of the cord rolling unit are connected by a transmission shaft, thereby rotatable synchronously. As a result, the cord rolling unit of the invention can be used individually, or combined with the auxiliary driving unit by the transmission shaft for increasing the rolling force of the cord rolling unit.

A blind body actuator casing includes a plastic top panel defining a bottom wall, a plastic bottom panel defining a top wall and detachably fastened to the plastic top panel with a predetermined interval defined between the bottom wall of the plastic top panel and the top wall of the plastic bottom panel, and a plurality of metal wheel axles connected between the bottom wall of the plastic top panel and the top wall of the plastic bottom panel. Thus, the invention effectively reduces noises during rotation of rotary components that are mounted on the metal wheel axles.

A blind body actuator casing includes a plastic top panel defining a bottom wall, a plastic bottom panel defining a top wall and detachably fastened to the plastic top panel with a predetermined interval defined between the bottom wall of the plastic top panel and the top wall of the plastic bottom panel, and a plurality of metal wheel axles connected between the bottom wall of the plastic top panel and the top wall of the plastic bottom panel. Thus, the invention effectively reduces noises during rotation of rotary components that are mounted on the metal wheel axles.