A packaging arrangement for a bundle of cable includes a planar packaging blank extending in a longitudinal direction from a first end to a second end. The blank includes a middle region extending from the first end to the second end between a first fold line and a second fold line, a first side extending from the first end to the second end and including a plurality of first flaps extending from the first fold line in a direction away from the second side in a direction perpendicular to the longitudinal direction, and a second side extending from the first end to the second end and including a plurality of second flaps extending from the second fold line in a direction away from the first side in a direction perpendicular to the longitudinal direction. The blank is configured to be rolled into a cylindrical shape such that the first end overlaps the second end. The plurality of first flaps are configured to be folded radially inward relative to the cylindrical blank, and the plurality of second flaps are configured to be folded radially inward relative to the cylindrical blank.

A packaging arrangement for a bundle of cable includes a planar packaging blank extending in a longitudinal direction from a first end to a second end. The blank includes a middle region extending from the first end to the second end between a first fold line and a second fold line, a first side extending from the first end to the second end and including a plurality of first flaps extending from the first fold line in a direction away from the second side in a direction perpendicular to the longitudinal direction, and a second side extending from the first end to the second end and including a plurality of second flaps extending from the second fold line in a direction away from the first side in a direction perpendicular to the longitudinal direction. The blank is configured to be rolled into a cylindrical shape such that the first end overlaps the second end. The plurality of first flaps are configured to be folded radially inward relative to the cylindrical blank, and the plurality of second flaps are configured to be folded radially inward relative to the cylindrical blank.

An electronics cable retail packaging, having a base assembly, which has a first end section having a first elongated hole and a second end section having a second elongated hole. The base assembly and the first and second end sections are a single piece to secure a cable. The base assembly is rectangular in shape. The first end section bends toward the base upper face defining a predetermined angle with respect to the base assembly, and the second end section bends toward the base upper face defining a predetermined angle with respect to the base assembly. The first and second elongated holes are oval in shape. The cable is positioned longitudinally onto the base upper face. The first elongated hole receives a first section of the cable, and the second elongated hole receives a second section of the cable.

An electronics cable retail packaging, having a base assembly, which has a first end section having a first elongated hole and a second end section having a second elongated hole. The base assembly and the first and second end sections are a single piece to secure a cable. The base assembly is rectangular in shape. The first end section bends toward the base upper face defining a predetermined angle with respect to the base assembly, and the second end section bends toward the base upper face defining a predetermined angle with respect to the base assembly. The first and second elongated holes are oval in shape. The cable is positioned longitudinally onto the base upper face. The first elongated hole receives a first section of the cable, and the second elongated hole receives a second section of the cable.

A method for laying multiple conductors in a container may be provided. The method may comprise receiving the multiple conductors at a monitoring station; receiving the multiple conductors at a drive; and receiving the multiple conductors at the container.

A method for laying multiple conductors in a container may be provided. The method may comprise receiving the multiple conductors at a monitoring station; receiving the multiple conductors at a drive; and receiving the multiple conductors at the container.

Consistent with embodiments of the invention, a cable package may be provided. The cable package may comprise a cable and a chamber. The cable may comprise a winding and at least one free end. The chamber may define an internal volume containing the cable. The chamber may comprise a continuous opening. The continuous opening may comprise at least one surface arranged to apply pressure to a portion of the cable located proximate to the continuous opening.

Consistent with embodiments of the invention, a cable package may be provided. The cable package may comprise a cable and a chamber. The cable may comprise a winding and at least one free end. The chamber may define an internal volume containing the cable. The chamber may comprise a continuous opening. The continuous opening may comprise at least one surface arranged to apply pressure to a portion of the cable located proximate to the continuous opening.

A pipe coil lifting device includes a superstructure with a central longitudinal member and at least two supports attached to opposite sides of the central longitudinal member, with two channels at the outside long-edges of the superstructure attached to the supports, with a convex upper surface attached to the supports of the superstructure.

A container includes an outer box, and a polygonal liner located within the outer box. The polygonal liner has a plurality of vertical walls. A continuous length of wire is located within the polygonal liner and forms a plurality of layers. Each of the layers is comprised of a series of wire loops arrayed polygonally along the vertical walls of the polygonal liner.