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.

Provided is a cable laying apparatus capable of changing a direction of a cable, which is configured to lay a cable from a cable drum placed on a trailer bogie without additional unloading work, the cable laying apparatus including a frame unit variably installed to accommodate the cable drum therein; a traverse part provided at a side of the frame unit and configured to guide a withdrawal direction of the cable wound around the cable drum; and a cable unwinding part located at the rear of the traverse part and configured to pull the cable, wherein the traverse part is further configured to change the withdrawal direction of the cable withdrawn in a radial direction of the cable drum to an axial direction of the cable drum.

Provided is a cable laying apparatus capable of changing a direction of a cable, which is configured to lay a cable from a cable drum placed on a trailer bogie without additional unloading work, the cable laying apparatus including a frame unit variably installed to accommodate the cable drum therein; a traverse part provided at a side of the frame unit and configured to guide a withdrawal direction of the cable wound around the cable drum; and a cable unwinding part located at the rear of the traverse part and configured to pull the cable, wherein the traverse part is further configured to change the withdrawal direction of the cable withdrawn in a radial direction of the cable drum to an axial direction of the cable drum.

Provided is a cable laying method using a cable laying apparatus capable of changing a direction of a cable, the cable laying method including: (A) installing a frame unit; (B) arranging a trailer bogie loaded with a cable drum inside the frame unit without additional loading work; (C) rotating the cable drum, which is loaded in the trailer bogie, by an under roller part; (D) changing a withdrawal direction of a cable unwound from the cable drum by a traverse part of the frame unit; (E) supplying the cable, the withdrawal direction of which is changed by the traverse part, to a cable unwinding part located at the rear of the traverse part; and (F) supplying the cable passing through the cable unwinding part to a required place through a curvature guide part located at the rear of the cable unwinding part, wherein the traverse part is configured to change a direction of the cable withdrawn in a radial direction of the cable drum to an axial direction of the cable drum.

A cart comprising a support frame having a plurality of wheels, a reel supported by the support frame, and a tool tethered to the support frame.

A container for transporting, storing, and/or paying-out welding wire from a contained wire coil without tangling, and having flexible straps each extending between the lowermost and upper parts of the container wall passing through a second opening of an anti-entangling device and along a path between said wire coil and said wall. The anti-entangling device rests on the top of the wire coil and descends by gravity as the welding wire is paid-out. The anti-entangling device has a first opening through which said wire passes and respective second openings through each of which a flexible strap passes. The second openings are opposingly located in the anti-entangling device loop about the device's first central opening so that the flexible straps are positioned by the second openings to contact the top surface of the wire coil.

A container for transporting, storing, and/or paying-out welding wire from a contained wire coil without tangling, and having flexible straps each extending between the lowermost and upper parts of the container wall passing through a second opening of an anti-entangling device and along a path between said wire coil and said wall. The anti-entangling device rests on the top of the wire coil and descends by gravity as the welding wire is paid-out. The anti-entangling device has a first opening through which said wire passes and respective second openings through each of which a flexible strap passes. The second openings are opposingly located in the anti-entangling device loop about the device's first central opening so that the flexible straps are positioned by the second openings to contact the top surface of the wire coil.

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.