A portable device for attaching a connector to an optical fiber, the optical fiber having an end, the device comprising means for receiving the optical fiber at the end of the optical fiber; and a connector station for autonomously attaching the connector to the optical fiber.

A bobbin for winding optical fiber includes: a body around which an optical fiber is wound; a flange that extends in a radial direction from the body; and a seal that is bonded to an axially outer side surface of the flange. The flange has a void penetrating the flange. A part of the seal covers at least a part of the void. At least a part of a portion of the seal is non-adhesive. The portion covers the void.

A cable storage system that may include a mounting portion that is configured to extend from a wall portion of a cable storage enclosure, and an envelope portion. The envelope portion may be configured to contain a coil of cable. The envelope portion may include an envelope opening portion that may be located on an edge portion of the envelopment portion. The mounting portion may be configured to support the envelope portion though the envelope opening portion. The envelope portion may be configured to support the coil of cable in the envelope portion so as to restrict the coil of cable from expanding and interfering with contents of the cable storage enclosure.

A cable spool module for a terminal module includes a skirt, a cable spool and a retention member. The cable spool may include a lower flange, an upper flange and a barrel disposed between the lower and upper flanges. The retention member may be configured to couple a terminal module to the cable spool. The skirt may be configured to be removed from the lower flange to permit access to the cable spool and the slack fiber optic cable wound on the cable spool.

A wire body winding device includes a rotating plate that rotates together with a drive shaft, a bobbin that is attached to the rotating plate and winds a wire body, and a locking portion that is attached to the rotating plate and locks the wire body. The locking portion includes a base member fixed to the rotating plate and a guide member disposed so as to overlap the base member. The locking portion has a base end portion at which the guide member is fixed to the base member and a tip end portion configured to receive the wire body. The locking portion has a shape in which a distance between the base member and the guide member increases gradually from the base end portion toward the tip end portion.

A multi-fiber reel and adapter assembly includes a base, a cable reel mounted to the base, and a plurality of adapters fixedly mounted to the base. The cable reel is configured to rotate relative to the base and the adapters, and each of the adapters is configured to couple a fiber optic cable from the cable reel with a fiber optic drop cable that is configured to run from the respective adapter to a location of an end user that is remote from the assembly.

A rotary wire-receiving rack includes a winding structure, a shaft, a first handle, a lid, a locking slider, and a second handle. The winding structure includes two bars arranged longitudinally in parallel and two rods arranged horizontally in parallel for winding cables. Both ends of the two rods are linked to the bars respectively. The shaft is arranged parallel to and located between the rods. The shaft is pivoted on the bars. The first handle and the lid are respectively fixed at the two ends of the shaft. The lid has a locking hole, and the locking slider is slidably installed on the shaft near the locking hole. The locking slider is formed with a locking pin that cooperates with the locking hole. The second handle is pivoted at the end of the bar which closing to the locking hole and having a recess for clamping a cable.

A multi-fiber reel and adapter assembly includes a base, a cable reel mounted to the base, and a plurality of adapters fixedly mounted to the base. The cable reel is configured to rotate relative to the base and the adapters, and each of the adapters is configured to couple a fiber optic cable from the cable reel with a fiber optic drop cable that is configured to run from the respective adapter to a location of an end user that is remote from the assembly.

A jointed strand includes a superposed portion in which a first strand end in which fibers are oriented in one direction and a second strand end in which fibers are oriented in one direction are superposed; and a joint portion in which fibers of the first strand and the second strand are interlaced at the superposed portion, wherein the joint portion has a slit extending in a fiber orientation direction and a joint spot adjacent to the slit at one location or a plurality of locations aligned in a direction orthogonal to the fiber orientation direction, and monofilaments of the first strand and the second strand are interlaced at the joint spot.

A device that pulls out an optical fiber includes: a bobbin support that supports a bobbin rotatably about a rotation axis; a first pulling out unit that holds a first end of the optical fiber, pulls out a first portion of the optical fiber wound around the bobbin from a side of the first end in a state where the bobbin rotates in a predetermined direction, and returns a part of the first portion to the bobbin in a state where the bobbin rotates in a direction opposite to the predetermined direction; and a second pulling out unit that holds a second end of the optical fiber after the first pulling out unit pulls out the first portion from the side of the first end, and pulls out a second portion of the optical fiber wound around the bobbin from a side of the second end.