A charge cord management arrangement includes a retractable charge retainer and a charge cord wrapped at least partially around a plunger of that retractable charge cord retainer when that plunger is in a deployed position. The retractable charge cord retainer includes: (a) a base, (b) the plunger carried on the base and displaceable between a home position and a deployed position, (c) a biasing element received and held in the base and adapted to bias the plunger toward the deployed position and (d) a guide feature. The guide feature includes a guide track carried on the base and a guide follower. A related method of managing a charge cord is also disclosed.

The disclosure relates to a sleeve for fitting around a spooling drum: the sleeve comprises at least a groove for receiving a conveying element to be spooled around the drum, is made of flexible material and is configured so as to be able to take a first configuration in which the sleeve forms a flat sheet, the groove extending in a direction, called spooling direction, and a second configuration in which the sleeve forms a cylinder, with the groove is situated on an external face of the cylinder.

The disclosure relates to a sleeve for fitting around a spooling drum: the sleeve comprises at least a groove for receiving a conveying element to be spooled around the drum, is made of flexible material and is configured so as to be able to take a first configuration in which the sleeve forms a flat sheet, the groove extending in a direction, called spooling direction, and a second configuration in which the sleeve forms a cylinder, with the groove is situated on an external face of the cylinder.

It is intended to provide a cable pulling machine that can avoid, even when installed at a high place, a stop of pulling and a cable installation method. A cable pulling machine according to the present invention includes two roller portions c having outer peripheries between which a cable a is to be held and a guide f that introduces the cable a between the roller portions c. The guide f adjusts an angle ? formed between a straight line connecting respective centers o of the roller portions c and the cable a introduced between the roller portions c to a value of not less than 45? and not more than 90?.

A device for retaining an optical fiber or cord at a desired position while the cord is being installed along a defined route at a user premises. The device includes a bend limiter having an open channel that extends between opposite ends of the limiter, wherein the channel is sized to receive a cord and allow the cord to slide freely inside the channel. An elongated retainer is arranged to overlie the bend limiter and thus close the channel when the retainer is secured to the bend limiter, so that the cord is confined inside the channel as the cord slides between the opposite ends of the bend limiter. A latch is arranged to close the device by securing the retainer to the bend limiter, and the bend limiter is configured to conform in shape with one or more surfaces against which it will be installed at the premises.

A frictionless service carriage system including: a shaft 1 having a first 2 and a second 3 helix-shaped guide in its surface, each helix shaped-guide 2, 3 defining a linear movement along the longitudinal axis of the shaft 1 of a carriage 4 in opposite directions and both helix shaped-guides 2, 3 crossing each other 2, 3 along the longitudinal axis of the shaft 1, wherein the carriage 4 includes a movable element 5 located into a helix-shaped guide 2, 3 and movable along it 2, 3, the movable element 5 comprising a set of rolling elements 6 along the first or second helix-shaped guide 2, 3 of the shaft 1 and configured such that in a crossing with the other helix-shaped guide 2, 3, the set of rolling elements 6 has at least two contact points with the helix-shaped guide 2, 3 for which it rolls.

A frictionless service carriage system including: a shaft 1 having a first 2 and a second 3 helix-shaped guide in its surface, each helix shaped-guide 2, 3 defining a linear movement along the longitudinal axis of the shaft 1 of a carriage 4 in opposite directions and both helix shaped-guides 2, 3 crossing each other 2, 3 along the longitudinal axis of the shaft 1, wherein the carriage 4 includes a movable element 5 located into a helix-shaped guide 2, 3 and movable along it 2, 3, the movable element 5 comprising a set of rolling elements 6 along the first or second helix-shaped guide 2, 3 of the shaft 1 and configured such that in a crossing with the other helix-shaped guide 2, 3, the set of rolling elements 6 has at least two contact points with the helix-shaped guide 2, 3 for which it rolls.

An apparatus for reducing fiber whip damage to optical fiber wound on a fiber winding spool is provided. The apparatus includes a fiber entry feed mechanism operatively coupled to the fiber winding spool to feed the optical fiber onto the fiber winding spool. The apparatus also includes a whip shield arranged to substantially surround the fiber winding spool. The whip shield includes a first surface aligned with and facing the fiber winding spool within an entry slot that is laterally offset from a second surface. The first surface transitions to the second surface such that a loose end of the optical fiber is initially directed into the entry slot away from the fiber winding spool and transitions to the second surface.

An apparatus for reducing fiber whip damage to optical fiber wound on a fiber winding spool is provided. The apparatus includes a fiber entry feed mechanism operatively coupled to the fiber winding spool to feed the optical fiber onto the fiber winding spool. The apparatus also includes a whip shield arranged to substantially surround the fiber winding spool. The whip shield includes a first surface aligned with and facing the fiber winding spool within an entry slot that is laterally offset from a second surface. The first surface transitions to the second surface such that a loose end of the optical fiber is initially directed into the entry slot away from the fiber winding spool and transitions to the second surface.

A guard insert having a body and a guide. The body can include a top surface, an opposed bottom surface, and a plurality of side edges extending between the top and bottom surfaces and including a front side edge. The body can define a slot and a plurality of fastener-receiving openings. The slot can extend inwardly from the front side edge. The plurality of fastener-receiving openings can extend through the top and bottom surfaces, with each opening of the plurality of fastener-receiving openings being configured to receive a fastener. The guide can be securely received within the slot of the body. The guide can have an outer peripheral wall and an inner peripheral wall. The outer peripheral wall can have a shape complementary to the slot, and at least a portion of the inner peripheral wall can define a channel configured for receiving yarn.