A system 100 for sheet coil packaging is provided. The system 100 preferably comprises: a sheet coil rotating arrangement 120, arranged to rotate a sheet coil 116 to enable it to be wrapped; first 112 and second 113 industrial robots, having first 108 and second 109 robot arms, arranged to wrap the sheet coil 116 using a wrapping tool 110, using sequences of the first robot arm 108 inserting the wrapping tool 110 into a central hole 118 of the sheet coil 116 and handing over the wrapping tool 110 to the second robot arm 109, and the second robot arm 109 transporting the wrapping tool 110 along the outside of the sheet coil 116 and handing it back to the first robot arm 108, as the sheet coil 116 is rotated by the sheet coil rotating arrangement 120; and two outer edge protection mounting devices 210, 220, arranged at opposite ends of the sheet coil 116 to feed out edge protection material 250 along an outer edge of the sheet coil 116 as the sheet coil 116 is rotated by the sheet coil rotating arrangement 120. The first 112 and second 113 industrial robots are preferably arranged to wrap the sheet coil 116 in synchronization with the feeding out of the edge protection material 250, thereby fixing the edge protection material 250 to the outer edges of the sheet coil 116 by the wrapping as the sheet coil 116 is rotated by the sheet coil rotating arrangement 120.

A processing line for packaging coils has a first conveyor, a sortation table, a pallet loader for placing a pallet on the sortation table, a coil discharge apparatus to move a coil from a discharge of the first conveyor to the sortation table, and a control. The control is configured to control: (i) the sortation table to move to an open position adjacent the pallet loader; (ii) the pallet loader to place a pallet at the open position of the sortation table; (iii) the sortation table to move such that the pallet occupied position is adjacent the discharge of the first conveyor; (iv) the coil discharge apparatus to move a coil from the discharge of the first conveyor on to the pallet; and (v) the sortation table to move such that the pallet occupied position is away from the discharge of the first conveyor. A similar method is provided.

A processing line for packaging coils has a first conveyor, a sortation table, a pallet loader for placing a pallet on the sortation table, a coil discharge apparatus to move a coil from a discharge of the first conveyor to the sortation table, and a control. The control is configured to control: (i) the sortation table to move to an open position adjacent the pallet loader; (ii) the pallet loader to place a pallet at the open position of the sortation table; (iii) the sortation table to move such that the pallet occupied position is adjacent the discharge of the first conveyor; (iv) the coil discharge apparatus to move a coil from the discharge of the first conveyor on to the pallet; and (v) the sortation table to move such that the pallet occupied position is away from the discharge of the first conveyor. A similar method is provided.

An automated filament spooler for winding and optionally packaging a filament includes an enclosure, a conveyor for conveying an empty spool into the enclosure and for conveying a wound spool from the enclosure, an indexing unit for positioning a feeding hole on the spool at a location for feeding a free end of the filament onto the spool, a filament feeding unit for feeding the free end of the filament through the feeding hole on the spool, a spooling unit for gripping the free end of the filament and rotating the spool to wind the filament onto the spool, and an optional packaging unit for applying a stretch wrap to the wound spool. A method for automatically winding a filament onto a spool includes positioning the feeding hole, feeding the free end of the filament onto the spool, gripping the free end of the filament and rotating the spool.

An automated filament spooler for winding and optionally packaging a filament includes an enclosure, a conveyor for conveying an empty spool into the enclosure and for conveying a wound spool from the enclosure, an indexing unit for positioning a feeding hole on the spool at a location for feeding a free end of the filament onto the spool, a filament feeding unit for feeding the free end of the filament through the feeding hole on the spool, a spooling unit for gripping the free end of the filament and rotating the spool to wind the filament onto the spool, and an optional packaging unit for applying a stretch wrap to the wound spool. A method for automatically winding a filament onto a spool includes positioning the feeding hole, feeding the free end of the filament onto the spool, gripping the free end of the filament and rotating the spool.

A bundling device comprises a frame, and a wire bending device and a wire twisting device each mounted to the frame. The wire bending device bends a bundling wire into an open ring to partially surround an object to be bundled, and guide the bundling wire into the wire twisting device. The wire twisting device twists two opposite end segments of the bundling wire together to bundle the object.

A system includes a tool for installing a cable material around a set of elongate members. The tool includes a housing; a cartridge detachably connected to the housing; and a jaw detachably connected to the housing. The cartridge has a length of cable material. The jaw is configured to extend around the set of elongate members to install the length of cable around the set of elongate members. A welding horn is detachably connected to the housing. At least one processor is configured to read a programmable chip. The programmable chip stores a set of parameters for at least one of the cartridge, the jaw, or the welding horn.

A system includes a tool for installing a cable material around a set of elongate members. The tool includes a housing; a cartridge detachably connected to the housing; and a jaw detachably connected to the housing. The cartridge has a length of cable material. The jaw is configured to extend around the set of elongate members to install the length of cable around the set of elongate members. A welding horn is detachably connected to the housing. At least one processor is configured to read a programmable chip. The programmable chip stores a set of parameters for at least one of the cartridge, the jaw, or the welding horn.

A tape dispensing tool includes holder assembly and an applicator member. The holder assembly has a base portion and a retainer head that are spaced apart by a recess. A leader tape segment extends across the recess from a tape roll held by the base portion to the retainer head. The applicator member is moveably coupled to the holder assembly rearward of the leader tape segment. The applicator member includes a receiving surface and a pressing surface angled relative to one another. The cable bundle forces a proximal portion of the leader tape segment against the receiving surface as the cable bundle is received in the recess, which moves the applicator member. The movement of the applicator member causes the pressing surface to force a distal portion of the leader tape segment against the cable bundle to adhere the leader tape segment to the cable bundle.

An adhesive tape with a backing layer is longitudinally folded upon itself, creating an approximately 180-degree angle at each of two ends of the tape, and a first longitudinal section of multiple layers of the adhesive tape and a second longitudinal section of multiple layers of the adhesive tape such that the first section is positioned above and parallel to the second section. The folding does not crease the tape at either end of the tape. The first longitudinal section and second longitudinal section are maintained in contact or close proximity via a piece of tape, clip, rubber band, or other means, such that the adhesive tape is maintained in a flat profile. The adhesive tape in its flat profile can then be easily inserted into a United States first class letter-sized mailing envelope.