Systems and methods are provided for paying out material. One embodiment is a method for dispensing film onto a surface. the method includes operating vacuum ports at a suction table, adhering a leading edge of a web of film to the suction table, driving the payout system across the suction table while the vacuum ports are being operated and while unrolling the web of film, unrolling a web of film from a roll of a payout system that is mounted for traversal across the upper surface of the suction table, and enforcing tension at the web of film between the suction table and the roll while payout system is drawn across the suction table.

Systems and methods are provided for paying out material. One embodiment is a method for dispensing film onto a surface. the method includes operating vacuum ports at a suction table, adhering a leading edge of a web of film to the suction table, driving the payout system across the suction table while the vacuum ports are being operated and while unrolling the web of film, unrolling a web of film from a roll of a payout system that is mounted for traversal across the upper surface of the suction table, and enforcing tension at the web of film between the suction table and the roll while payout system is drawn across the suction table.

The invention discloses a film-cutting device of an environmental coating machine, belonging to the technical field of mechanical engineering, which solves the existing problem that the protective film clamped by the conveyor belts are difficult to be cut. The film-cutting device of an environmental coating machine comprises frame (1), several pairs of upper conveyor belts (12) and lower conveyor belts (13), coating areas (15), wherein the film-cutting device comprises a rotation pipe (2), two transmission rods (3), film cutters (32), transverse edges (321), longitudinal edges (331), and a drive member and a spreading element arranged on the frame (1); this film-cutting device of an environmental coating machine is able to but the protective film clamped by the conveyor belts, which can improve an efficiency, reduce the usage amount of the protective film and be more environmental.

A method of manufacturing a glass roll includes separating unnecessary portions from a glass ribbon by cutting the glass ribbon along a longitudinal direction while conveying the glass ribbon. The method also includes passing the glass ribbon, from which the unnecessary portions are separated, through a looseness conveyance region on a conveyance path where the glass ribbon is loosened, and taking up the glass ribbon around a roll core at a downstream end of the conveyance path. A suction conveyor is provided between the looseness conveyance region and the downstream end on the conveyance path. While the glass ribbon is conveyed by the suction conveyor, the glass ribbon is tensioned between the suction conveyor and the downstream end on the conveyance path along with taking up the glass ribbon around the roll core.

A corrugated sheet processing apparatus is disclosed, comprising feed and guide rollers for selecting, moving and supporting sheets or webs to a corrugator for forming a corrugated sheet; and a control system for controlling the sheet processing equipment or a cutter; the sheet processing apparatus further comprising a visual inspection unit for reading printed information markers on at least one printed sheet or web as the printed sheet or web pass through the corrugated sheet processing apparatus, or corrugator; and wherein the control system further has a data look-up table whereby the apparatus can identify what products will be produced downstream of the visual inspection unit, and the required settings for the sheet processing equipment or corrugator for those products.

A corrugated sheet processing apparatus is disclosed, comprising feed and guide rollers for selecting, moving and supporting sheets or webs to a corrugator for forming a corrugated sheet; and a control system for controlling the sheet processing equipment or a cutter; the sheet processing apparatus further comprising a visual inspection unit for reading printed information markers on at least one printed sheet or web as the printed sheet or web pass through the corrugated sheet processing apparatus, or corrugator; and wherein the control system further has a data look-up table whereby the apparatus can identify what products will be produced downstream of the visual inspection unit, and the required settings for the sheet processing equipment or corrugator for those products.

A fill-packaging method for plural rows, a fill-packaging machine for plural rows and a fill-packaged body include a wide-width cylindrical body forming process for continuously longitudinal-sealing a plastic film longitudinally unreeled in the longitudinal direction to continuously form a single wide-width cylindrical body, a sealing and cutting process for continuously heat-sealing one or more widthwise positions of the wide-width cylindrical body to form longitudinally border sealed portions and continuously cutting the longitudinally border sealed portions in the longitudinal direction to cut out the wide-width cylindrical body into a plurality of narrow-width cylindrical body rows independently arranged in parallel, and a bag-making process for continuously manufacturing packaged bodies by applying horizontal sealing to each of the narrow-width cylindrical body rows separated and run independently in the longitudinal direction at predetermined intervals while filling a packing material therein.

An automated photovoltaic (PV) subassembly manufacturing method involves in-line cutting of material strips. A tape is cut longitudinally into multiple strips. The strips are separated and guided into spaced apart positions relative to a surface of the PV cell subassembly comprising one or more PV cells. The multiple strips remain attached to the tape while the strips are guided to the spaced apart positions. The multiple strips are positioned at attachment locations on the surface of a PV cell subassembly.

An automated photovoltaic (PV) subassembly manufacturing method involves in-line cutting of material strips. A tape is cut longitudinally into multiple strips. The strips are separated and guided into spaced apart positions relative to a surface of the PV cell subassembly comprising one or more PV cells. The multiple strips remain attached to the tape while the strips are guided to the spaced apart positions. The multiple strips are positioned at attachment locations on the surface of a PV cell subassembly.

Disclosed is a cutting apparatus for a roll zebra. The cutting apparatus includes: a main body portion; a mounting portion provided at one side of the main body portion to wind or unwind a fabric; a cutting portion provided at one side of the main body portion to cut the fabric with a required length; and a discharge portion provided at one side of the main body portion to convey the fabric cut by the cutting portion to the outside. The cutting portion includes a longitudinal cutting portion cutting the fabric in a longitudinal direction, and a transverse cutting portion cutting the fabric in a transverse direction.