A knife cylinder is provided with a restraint parts disposed within a fixation hole; a compression coil spring for pressing the restraint parts inwardly of the fixation hole; an operating parts entering the inside of the restraint parts through a mounting hole; a protrusion provided to the restraint parts; a helical groove provided in the operating parts, the helical groove engaging with the protrusion and being configured so that, when the operating parts rotates, the helical groove can move the restraint parts from a first position to a second position; and a blocking groove provided in the outer surface of the operating parts and blocking the rotation of the operating parts in the reverse direction when the restraint parts is located at the second position.

The invention relates to an apparatus and method for cutting, printing or embossing a continuous sheet of material. The apparatus comprises a tool element, at least two anvils, which are co-operable with the tool element, and a phase adjustment device. The tool element is configured to have a constant surface speed during operation of the apparatus. The apparatus is adapted to receive the continuous sheet at a constant speed into the apparatus, and being adapted to output the continuous sheet at a constant speed from the apparatus. The phase adjustment device is operable to adjust a speed of the continuous sheet within the apparatus in order to adjust a phase of alternate parts of the continuous sheet to be cut, printed or embossed by each anvil as it co-operates with the tool element.

A rotary knife assembly includes a rotatable core and a plurality of knife blades extending from the rotatable core. A healing element is coupled with the plurality of knife blades, and the heating element is configured to heat the knife blades. One or more package guides are interposed between each of the plurality of knife blades configured to engage along one or more deformable packages as the rotatable core is rotated. In another example, a discharge assembly includes a conveyor belt including inner and outer belt surfaces, and a plurality of belt rows extending along a belt length. A plurality of package spacing ridges each include outer engaging edges, and one package spacing ridge of the plurality is positioned between each of the plurality of belt rows. The outer belt surface is recessed from the outer engaging edges.

A manufacturing system for manufacturing folding boxes or labels from a web of printing material, includes a web unwinding device, a flat-bed diecutting and/or stamping/embossing unit disposed downstream thereof, and a product delivery disposed downstream thereof. The flat-bed diecutting and/or stamping/embossing unit is deactivatable and at least one rotary processing module for processing the web of printing material, in particular a rotary diecutting module, is provided between the flat-bed diecutting and/or stamping/embossing unit and the product delivery. This construction of the manufacturing system advantageously allows the planar elements to be processed either by the flat-bed diecutting and/or stamping/embossing unit or by a rotary diecutting module. Thus, the manufacturing system may be operated at high productivity. A method for operating the manufacturing system is also provided.

A device for treating substrates has a separation system, with which processed substrates can be separated into one or more waste parts and at least one blank. The device for treating substrates offers improved flexibility. The separation system comprises a transport cylinder and a stripping cylinder associated therewith. The transport cylinder is able to secure replaceable packing, along with first and second openings which, when the packing is secured, are covered at least partially by perforations that may be formed in the packing. A first air supply supplies air to the first openings and a second air supply supplies air to the second openings independently of the supply of the air to the first openings. The first and the second air supply are switchable between a suction air supply and a blower air supply.

The invention relates to an apparatus (10, 80) and method (160) for cutting, printing or embossing a continuous sheet (26) of material. The apparatus (10, 80) comprising a tool element (12), at least two anvils 14, 16 which are co-operable with the tool element (12), and a phase adjustment device (24). The tool element (12) is configured to have a constant surface speed during operation of the apparatus (10, 80). The apparatus (10, 80) is adapted to receive the continuous sheet (26) at a constant speed into the apparatus (10, 80), and being adapted to output the continuous sheet (26) at a constant speed from the apparatus (10, 80). The phase adjustment device (24) is operable to adjust a speed of the continuous sheet (26) within the apparatus (10, 80) in order to adjust a phase of alternate parts of the continuous sheet (26) to be cut, printed or embossed by each anvil (14, 16) as it co-operates with the tool element (12).

A cutting unit for cutting preparation features in a web of sheetlike material is provided. The cutting unit has a first part with a rigid base portion, at least one first cutting tool configured to cut a first preparation feature in the web of sheetlike material, and at least one second cutting tool configured to cut a second preparation feature in the web of sheetlike material. The at least one first and second cutting tools are attached to the base portion and located at a distance from each other, wherein at least one of the at least one first or second cutting tools is supported by a flexible support that is located in the rigid base portion of the first part.

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).

A rotary knife assembly includes a rotatable core and a plurality of knife blades extending from the rotatable core. A heating element is coupled with the plurality of knife blades, and the heating element is configured to heat the knife blades. One or more package guides are interposed between each of the plurality of knife blades configured to engage along one or more deformable packages as the rotatable core is rotated. In another example, a discharge assembly includes a conveyor belt including inner and outer belt surfaces, and a plurality of belt rows extending along a belt length. A plurality of package spacing ridges each include outer engaging edges, and one package spacing ridge of the plurality is positioned between each of the plurality of belt rows. The outer belt surface is recessed from the outer engaging edges.

A system for monitoring cutting devices in a packaging production line having a line for supplying a material to be cut, an area of a predetermined type of cutting device, and a packaging output line is provided. The system includes means for counting cutting actions of the cutting device, configured to provide a time series of cutting action counting data, a video camera to frame an area of the output line, the video camera configured to provide video data of packaging elements in the output line, first code means, configured to run, on a computer, a first algorithm for recognizing cutting defects starting from video data, the first algorithm providing defect recognition data, and second code means, configured to run, on the computer, a trained expert algorithm to predict cutting performance degradation based on historical defect recognition data, time series of cutting action counting data, and type of cutting device.