The present invention is provided with: one slitter device which forms cutting lines on a corrugated board web in a conveying direction and produces a plurality of slitted webs; a plurality of cutoff devices which cut the slitted webs in the width direction; a director device which separates the plurality of slitted webs cut by the slitter device and distributes same to the plurality of cutoff devices; and a separation cutting device which is disposed on the upstream side of the director device, and forms separation cutting lines, which are for separating the plurality of slitted webs with the director device, between the slitted webs of a new order and an old order, wherein the cutting operation is continued after the separation cutting device is stopped at the position of a separation cutting line of the new order.

Systems for providing efficient manufacturing of sheet or box structures, corrugate sheets, or other products of varying size and structure often with pre-applied print (pre-print) are provided herein. The systems include various features and modules that enable automated control of the corrugator, including the knives, slitters, scorers and cut-to-mark detection system(s), are contemplated. Colored markings may be used to indicate an order change section between two order sections of a roll plan for the manufacturing process. The colored markings are detected as the corrugator runs and, once detected, a controller determines a next set of order instructionse.g., to match the upcoming order. Thus, an order change may occur, thereby enabling automated control of the corrugator based on the new order instructions. Computer readable markings may enable checking of the actual position in the roll plan to an intended position, enabling stopping or changing of the corrugator operation if needed.

In an apparatus and method for successively making plastic bags, webs of first and second panel materials are superposed and fed longitudinally. A plastic film is slit to form longitudinal slit lines so as to be divided into the web of the first panel material and a plurality of webs of a bottom gusset material before the webs of the first and second panel materials are superposed. Then, the webs of the bottom gusset material are guided and supplied to the webs of the first or second panel material by bottom gusset material guide devices. The bottom gusset material is not supplied from another supply roll, and a pattern discrepancy is not caused.

In an apparatus and method for successively making plastic bags, webs of first and second panel materials are superposed and fed longitudinally. A plastic film is slit to form longitudinal slit lines so as to be divided into the web of the first panel material and a plurality of webs of a bottom gusset material before the webs of the first and second panel materials are superposed. Then, the webs of the bottom gusset material are guided and supplied to the webs of the first or second panel material by bottom gusset material guide devices. The bottom gusset material is not supplied from another supply roll, and a pattern discrepancy is not caused.

A method for producing a cardboard box comprising a rigid window made of a transparent material extending over at least two adjacent faces of the box includes the following steps: supplying a continuous width of rigid transparent plastic, the width of which corresponds to the deployed width of the window; forming in the continuous width of rigid transparent plastic a succession of longitudinal cuts distributed longitudinally with a spacing corresponding to the width of the window and laterally according to the widths of the adjacent faces.

A method for producing a cardboard box comprising a rigid window made of a transparent material extending over at least two adjacent faces of the box includes the following steps: supplying a continuous width of rigid transparent plastic, the width of which corresponds to the deployed width of the window; forming in the continuous width of rigid transparent plastic a succession of longitudinal cuts distributed longitudinally with a spacing corresponding to the width of the window and laterally according to the widths of the adjacent faces.

In order to successively make plastic bags each of which includes panel portions, side gusset portions and a zipper portion, a web of panel material 9 is folded and folded back along longitudinal folded lines 14, 15 and 16 and longitudinal folded back lines 17 and 18 into superposed two layers having opposite side edges at each of which a folded portion is formed. The web of panel material 9 is slit along the longitudinal folded line 16 into two divided parts after being folded and folded back. The divided parts are separated and spaced from each other. In addition, the folded portions are split at positions into sprit portions and removed at the positions partially, a body of zipper material being disposed between the sprit portions.

In order to successively make plastic bags each of which includes panel portions, side gusset portions and a zipper portion, a web of panel material 9 is folded and folded back along longitudinal folded lines 14, 15 and 16 and longitudinal folded back lines 17 and 18 into superposed two layers having opposite side edges at each of which a folded portion is formed. The web of panel material 9 is slit along the longitudinal folded line 16 into two divided parts after being folded and folded back. The divided parts are separated and spaced from each other. In addition, the folded portions are split at positions into sprit portions and removed at the positions partially, a body of zipper material being disposed between the sprit portions.

A machine (1) for making blanks (2) for boxes to measure, comprises feed means configured for realizing rectangular pieces (3) of the blank (2). Each rectangular piece (3) has a width (La), measured along a first edge (3a) thereof, which width (La) is equal to a pre-determined width (La) of the blank (2) and a length (Lu), measured along a second edge (3b) of said rectangular piece, said length (Lu) being preferably less than a pre-determined length (Lu) of the blank (2). Joining means (32) are configured for joining at least two rectangular pieces (3) or one rectangular piece (3) and a piece of an intermediate blank previously made, relative to respective first edges (3a), so as to obtain a blank exhibiting an intermediate width (La), which intermediate width (La) is equal to the pre-determined width (La) of the blank (2), and a length which is greater than the pre-determined length (Lu) of the blank (2). Cutting means (40) are configured for cutting the intermediate blank parallel to the first edges in order to obtain the blank (2).

Systems for providing efficient manufacturing of sheet or box structures, corrugate sheets, or other products of varying size and structure often with pre-applied print (pre-print) are provided herein. The systems include various features and modules that enable automated control of the corrugator, including the knives, slitters, scorers and cut-to-mark detection system(s), are contemplated. Colored markings may be used to indicate an order change section between two order sections of a roll plan for the manufacturing process. The colored markings are detected as the corrugator runs and, once detected, a controller determines a next set of order instructionse.g., to match the upcoming order. Thus, an order change may occur, thereby enabling automated control of the corrugator based on the new order instructions. Computer readable markings may enable checking of the actual position in the roll plan to an intended position, enabling stopping or changing of the corrugator operation if needed.