A coating film transfer tool in which a rotational torque with the least variability may be generated without being affected by a surface state of a resilient body is provided. In an automatically winding type coating film transfer tool including: a paying-out core having a coating film transfer tape wound thereon; and a rewinding core that rewinds the coating film transfer tape after use, the paying-out core and the rewinding core being interlocked via a power transmission mechanism in a case, and generating a rotational torque by a frictional force generating on a sliding surface between components by using a restoring force of a resilient body, the resilient body is configured to rotate integrally with a component A that comes into contact with one end of the resilient body and a component B that comes into contact with the other end.

A ratcheting strap device has an elongate body with a reel axis towards a first end and a ratcheting mechanism towards a second end opposite there-from. The ratcheting mechanism is affixed to the body, and has a spool axis and a ratchet spool rotatable relative to the body there-about. A first strap/hook member has a first length of strap affixed to a first one of the ratcheting mechanism and the body at a first proximal end, and has a first hook affixed to a first distal end there-of. A take-up reel is affixed to the body and rotational relative thereto about the reel axis. A second strap hook member has a second length of strap having a second proximal end connectable to the take-up reel, has a take-up strap portion adjacent to the second proximal end and windable around the take up reel, and has a second hook affixed to a second distal end there-of. The second length of strap has a midsection between its second proximal and distal ends, passing through and engageable by the ratchet spool such that rotation of the spool causes the midsection to be wound there-around.

A pipe inspection system includes a cable storage drum and a housing configured to removably receive and rotatably support the cable storage drum. A push-cable with a plurality of conductors is stored in the drum. An inspection camera may be attached to a distal end of the push-cable. The drum includes a hollow core outer cone configured to accept an inner core removable module. The removable module may include electrical, mechanical, wireless, satellite, and power/battery interfaces. The module mates with a contact plate sealed inside the inner cone. The inner core components, including the battery module, are stationary relative to the inner core. The inner core is free to rotate bidirectionally inside the outer cone as the camera is being fed into, and out of a pipe or conduit for inspection. Slip-rings are not required to maintain connectivity because the electronics and battery module are stationary relative to each other.

A wire management device includes a base, a cover body, and a wire management slot. The cover body is configured to move away from the base to an open position and toward the base to a closed position. The wire management slot is located between the base and the cover body. When the cover body is in the open position, the wire management slot is exposed by a gap between the base and the cover body. When the cover body is in the closed position, the gap is closed so that the wire management slot is located in a sheltered space formed by the base and the cover body.

The present disclosure provides a novel lacing device and an anti-reverse mechanism thereof. This lacing device uses a swing arm elastic component-stop piece-gap mechanism as the anti-reverse mechanism, wherein an elastic component of the swing arm elastic component has good deformation ability, and a swing arm head and an anti-reverse head of the stop piece may form self-locking force, such that the lacing device with the novel anti-reverse mechanism not only has excellent hand feeling when the lace is tensioned, but also can effectively avoid the unintentional loosening of the lace, thereby having excellent use reliability and durability.

A reel assembly (100) for coupling within a housing (160) includes an axle (110) and a reel (120) defining a rotational axis (X-X). The reel (120) is rotatably mounted around the axle (110) to allow winding of a flexible linear component (130) on the reel (120). The reel assembly (100) further includes a frame (140) which houses the reel (120). Moreover, the reel assembly (100) includes one or more fixing units (150) to removably fix the reel assembly (100) inside the housing (160). The reel assembly (100) is characterized in that the reel assembly (100) further includes a blocking mechanism (170) that operatively couples with the reel assembly (100) and cooperates with the reel (120) for selective rotation of the reel (120). The blocking mechanism (170) disallows rotation of the reel (120) in absence of coupling of the reel assembly (100) within the housing (160).

A reel assembly machine for assembling a bottom flange and a top flange to a reel core of a reel includes a lower assembly device including a support plate for supporting the bottom flange of the reel. The lower assembly device includes a locating jig for positioning the bottom flange on the support plate. The lower assembly device includes a lower staple gun configured to staple the bottom flange to the reel core. The reel assembly machine includes an upper assembly device including a pressure plate configured to press against the top flange and hold the reel core between the bottom flange and the top flange. The upper assembly device includes an upper staple gun configured to staple the top flange to the reel core.

A reel assembly machine for assembling a bottom flange and a top flange to a reel core of a reel includes a lower assembly device including a support plate for supporting the bottom flange of the reel. The lower assembly device includes a locating jig for positioning the bottom flange on the support plate. The lower assembly device includes a lower staple gun configured to staple the bottom flange to the reel core. The reel assembly machine includes an upper assembly device including a pressure plate configured to press against the top flange and hold the reel core between the bottom flange and the top flange. The upper assembly device includes an upper staple gun configured to staple the top flange to the reel core.

An article of footwear, method, and motorized lacing system includes a motor, including a motor shaft, a spool, coupled to the motor shaft, configured to spool and unspool the lace based on the turning of the motor shaft, a processor circuit, and a three-dimensional encoder. The three-dimensional encoder defines a major axis and has a surface having a tabs extending from a drum, an optical sensor, positioned within optical range of the cylindrical encoder, configured to output a signal to the processor circuit indicative of a detected one of the tabs, and a beam break, positioned between the three-dimensional encoder and the optical sensor, forming a pair of slits. The optical sensor is positioned to view the tabs through the pair of slits, wherein the processor circuit is configured to operate the motor based, at least in part, on the signal as received from the optical sensor.

A system and method for storing, deploying and retracting cables, wherein the cables are those used to connect a docked ship with onshore facilities, such as water, electricity, and telecommunications. The system comprises one or more of a cable spool, a cradle and a support for moving and managing the cable spool. The system enabling the relatively rapid deployment and retraction of cables with minimal personnel compared to prior art systems.