DE102018210919B3 - A method of operating a printing machine with a proofing image and a printed product having a proofing image - Google Patents

Abstract

The invention relates to a method of operating a printing machine, wherein a proof print image is formed on a substrate in a proof printing operation by a printhead, and wherein the printhead has a plurality of nozzles arranged in the form of a nozzle array of generator rows and generator columns, and wherein the proof image has a functional inspection area. for the preparation of which on the substrate by means of the nozzles a plurality of functional test elements is arranged, which are arranged in the form of a test matrix of test lines and test columns, and wherein in the direction of the test lines in pairs adjacent functional test elements of dot-generating devices of a respective same print head originate in the direction the generator rows in the respective print head are arranged in pairs adjacent to each other and wherein in the direction of the test columns in pairs adjacent functional test elements of dot-generating devices of a respective same printhead It is understood that there are, which are arranged in pairs in the direction of the generator columns in the respective non-impact print head and a printed product having a substrate and a Prüfdruckbild.

Description

The invention relates to a method for operating a printing machine with a proof image and a printed product with a proof image.

Printing presses use different printing methods. Non-impact printing processes (NIP = non-impact printing) are understood to mean printing processes which do not require a fixed, that is physically immutable, printing form. Such printing methods can produce different print images in each printing process. Examples of non-impact printing processes are ionographic processes, magnetographic processes, thermographic processes, electrophotography, laser printing and in particular inkjet printing processes or ink-jet printing processes. Such printing methods usually have at least one image-forming device, for example at least one print head. In the case of the inkjet printing method, such a printhead is designed, for example, as an inkjet printhead and has at least one and preferably several nozzles, by means of which specifically at least one printing fluid, for example in the form of ink drops, can be transferred to a printing material. Alternative printing methods include solid printing forms, for example gravure printing, planographic printing, offset printing and letterpress printing, especially flexographic printing. Depending on the number of copies and / or other requirements such as print quality, a non-impact printing process or a printing process with a solid printing form may be preferable.

An exact match of a print image on the front and back of a printed substrate printed on both sides is called register (DIN 16500-2). Multi-color printing is called the Passer (DIN 16500-2), when individual print images of different colors are combined exactly to a picture. Also in the context of inkjet printing, appropriate measures must be taken to maintain register and / or register. In particular, it is important that a relative position between the print head and printing material is known and / or kept constant. The register is also called color register. The term register mark should therefore also be understood below to mean a registration mark, that is to say a mark for checking the passport or color register.

Non-impact printheads, and particularly ink-jet printheads, often have a matrix of dot-forming devices such as nozzles. In this case, the dot-generating devices of the individual producer lines are arranged in a transverse direction offset to dot-generating devices of other producer lines in order to increase the resolution of the print head. If all point-generating devices are checked for their function by generating points next to one another, it is difficult to assign occurring errors to individual nozzles.

Other errors may also occur, such as misaligned printheads or different responses from different printheads to the same drive signals.

By the DE 10 2014 203 420 A1 For example, a method is known in which printheads print test images and are sequentially matched and aligned.

By the US 2009/0 289 985 A1 a printing machine is known, the printheads each have staggered portions arranged in each of which nozzles are arranged in the form of a matrix of rows and columns and by means of which a printed product is produced with a Prüfdruckbild having a matrix with oblique columns of Funktionsprüfelementen.

By the US 2009/0 085 952 A1 , the US 2013/0 215 176 A1 and the US 2011/0 227 988 A1 In each case, a printing press is known whose print heads each have nozzles which are arranged in the form of a matrix of lines and columns and by means of which a printed product is produced with a proof image having a matrix with oblique columns of functional test elements.

By the US 2010/0245455 A1 For example, a method is known in which position test elements in the form of a matrix are printed on a substrate and conclusions about a possible skew of a print head generating the position test elements are drawn from distances measured in a transverse direction.

The invention has for its object to provide a method for operating a printing press with a Prüfdruckbild and a printed product with a Prüfdruckbild.

The object is achieved by the features of claim 1 and the features of claim 7.

A processing machine or sheet processing machine is preferably designed as a printing press or sheet-fed press. The processing machine is preferably designed as a processing machine for processing corrugated board, in particular corrugated board, that is preferably as a corrugated board processing machine and / or corrugated board processing machine. Further preferred the sheet processing machine is designed as a sheet-fed printing machine for coating and in particular for printing corrugated cardboard sheet, so as a corrugated board printing machine. The processing machine is alternatively or additionally formed as a punching machine and / or sheet punching machine and / or sheet-fed rotary punching machine. The preferably designed as a sheet-fed press processing machine preferably has at least one and more preferably at least two modules designed as modules. The at least one module and more preferably the at least two modules preferably each have at least one own drive. Preferably, at least one of the at least two modules is designed as a processing module, in particular as a coating module.

Alternatively, the processing machine is designed as a roll processing machine and / or web processing machine and / or as a roll coating machine and / or web coating machine and / or as a web press and / or web press. For example, the processing machine is alternatively or additionally designed as a corrugated board processing machine and / or corrugated cardboard web processing machine and / or as a roll punching machine.

Preference is given to a method for operating a printing press, wherein at least one test print image is produced on at least one substrate by means of at least one non-impact print head and preferably by means of at least two non-impact print heads of the printing press, in particular in at least one test print process. If necessary, the test print image can be incorporated in a print job, but is preferably at least one and more preferably exactly one pre-determined and more preferably permanently stored test print image in a memory of the printing press, which is preferably printed only for test purposes. The at least one test print image printed by means of the at least one non-impact print head and in particular by means of the at least two non-impact print heads is preferably detected by means of a sensor device, for example by means of at least one optical sensor and / or a line scan camera. This sensor device is preferably part of the printing press. In the method, at least one printed product is preferably produced. Preferably, the printed product is printed and in particular checked in at least one test printing operation, without being stopped in between and / or removed from the printing press.

In an alternative or additional development, the method and / or the test print image is preferably distinguished by the fact that at least one position check process is performed. In the position checking process, a relative position of at least one partial image generated by the at least one non-impact print head is preferably checked for at least one reference by means of the data of this at least one test print image acquired by the sensor device. This at least one reference is, for example, at least one further partial image and / or a reference point. The at least one further partial image is, for example, a partial image generated by a further non-impact printhead. In the position checking operation, for example by means of the data recorded by the sensor device of this at least one proof image relative to each other and / or a relative position of these at least two non-impact printheads to each other and / or a relative position of at least two sub-images to at least one reference, for example at least one reference point is checked. This relative position is preferably related at least to a transverse direction oriented transversely to a transport direction of the at least one substrate. Alternatively or additionally, this relative position is preferably related to a pivotal position, for example a pivotal position relative to a pivot axis which has at least one component or only one component in a direction orthogonal to the transverse direction and orthogonal to the transport direction. For example, at least the at least one sensor device and / or the at least one in particular optical sensor serves as a reference or reference point. If the at least one sensor device is arranged in a known, in particular unchangeable position, the measurements obtained can be used to directly deduce the relative position between the non-impact print head on the one hand and the sensor device on the other hand, and thus more preferably the absolute position of the non-impact print head. Preferably, at least one attitude measurement result is determined by the attitude checking process.

In an alternative or additional refinement, the method and / or the test print image is preferably characterized in that, in addition to the at least one position check operation, at least one color density check operation and / or at least one function check operation is performed, in particular likewise based on the test print image acquired by the same sensor device. At least one first color density measured at a first location, in particular the test print image, on the one hand, and at least one further color density, on the other hand, are preferably compared with one another in the color density test process by means of the data of this test print image acquired by the sensor device and / or the at least one sensor. The at least one further color density is, for example, at least one desired color density and / or at least one second location spaced from the first location at a transverse direction oriented in a direction orthogonal to a transport direction especially the proof print image measured second color density. The pixels at these locations preferably originate from different dot-forming devices and / or different printhead elements and / or different non-impact printheads. At least one color density measurement result is preferably determined by the color density test process. In the functional testing process, dot-generating devices of at least one of the at least one non-impact print head and in particular at least one of the at least two non-impact print heads are preferably checked for their function by means of the data of this test print image acquired by the sensor device and / or the at least one sensor, and are further preferred determined by the functional test process at least one function measurement result.

In an alternative or additional development, the method and / or the test print image is preferably characterized in that the test print image has at least two, in particular at least three different areas and that a first area of these different areas is a position check area, the representation of which in particular in the Lageprüfungsvorgang for Testing the relative position of the at least one partial image generated by the at least one non-impact printhead with respect to at least one reference, in particular at least one reference point and / or for checking the relative position of the at least two partial images generated by the at least two non-impact printheads relative to one another and / or at least one reference, in particular at least one reference point and / or for checking the relative position of the at least two non-impact print heads is evaluated to each other. In an alternative or additional development, the method and / or the test print image is preferably characterized in that one of the first region, in particular second region of at least three areas is a Farbdichteprüfungsbereich whose presentation evaluated to compare the respective color densities, especially in the Farbdichteprüfungsvorgang is and / or that a different from the first area, in particular third area of these at least three areas is a functional inspection area, the representation of the functional test of the point-generating devices is evaluated in particular in the functional testing process.

In an alternative or additional development, the method and / or the test print image is preferably characterized in that the test print image has at least one position check area and that the position check area for at least one and / or at least two and / or for each of the at least one non-impact print head or the at least two non-impact printing heads have at least one positional test form and that each positional test form has at least two position indication elements arranged at a predetermined distance from one another. In an alternative or additional development, the method and / or the test print image is preferably characterized in that the at least two position indicator elements each extend in at least two different directions, which are preferably oriented orthogonally to one another. More preferably, one of these directions is the transverse direction A and / or one of the at least two directions is the longitudinal direction T , In an alternative or additional development, the method and / or the test printing image is preferably characterized in that the at least two positional test forms each have at least two lines which extend in different directions and which more preferably intersect and / or touch each other.

In an alternative or additional development, the method and / or the test print image is preferably characterized in that the test print image has at least one color density test area and / or that the color density test area for at least one and / or at least two and / or for each of the at least one Non Impact printhead each having at least one unit area, which is assigned a predetermined target color density and / or that the proof image has at least one Farbdichteprüfungsbereich and the Farbdichteprüfungsbereich for at least one and / or for at least two and / or for each of the at least two Non Impact printheads respectively has at least one unit area, which is assigned a predetermined target color density. In an alternative or additional development, the method and / or the test print image is preferably characterized in that the test print image has at least one color density test area and the color density test area for at least one and / or at least two and / or for each of the at least one non-impact print head each having at least two unit surfaces, which are assigned to predetermined and / or mutually different target color densities and / or that the Farbdichteprüfungsbereich for at least two and / or for each of the at least two non-impact print heads each having at least two unit surfaces, which predetermined and / or mutually different target color densities are assigned.

In an alternative or additional development, the method and / or the test print image is preferably characterized in that the test print image has at least one functional test area and in that the functional test area has a multiplicity of functional test elements which are in the form of a test matrix of test lines and Test columns are arranged on the at least one substrate, and / or that the at least one non-impact print head or the at least two non-impact print heads each having a plurality of point-generating devices in the form of a respective generator matrix of generator rows and generator columns at the respective one or at least two non-impact print heads are arranged, and / or that for a plurality of functional test elements within the test matrix that in the direction of the test lines pairwise adjacent functional test elements from such dot-forming devices of a respective non-impact print head originate in the direction of Producer lines are arranged adjacent pairs in the respective non-impact print head and / or that applies for a plurality of functional test elements within the test matrix, that in the direction of the test columns in pairs adjacent functional test elements of point-generating devices each come from the same non-impact print head, which are arranged in pairs in the direction of the generator columns in the respective non-impact print head.

In an alternative or additional development, the method and / or the test print image is preferably characterized in that the functional test elements are formed as respective lines and / or formed as respective straight lines and / or formed as aligned in the transport direction of the at least one substrate arranged lines are and / or have each been generated and / or have been generated by means of a single respective point-generating device.

In an alternative or additional development, the method and / or the test print image is preferably characterized in that the at least one proof print image printed by means of the at least one non-impact print head and / or by means of the at least two non-impact print heads by means of at least one optical sensor and / or is detected by at least one line scan camera and / or that the at least one sensor device is part of the printing press.

In an alternative or additional refinement, the method and / or the test print image is preferably characterized in that at least one function measurement result is determined by the function test procedure and at least one cleaning process is carried out as a function of the at least one function measurement result, for example a nozzle cleaning and / or Depending on the at least one function measurement result at least one data assignment is changed, for example by at least one other nozzle is controlled as actually provided and / or by one or more nozzles are controlled differently than actually provided. In an alternative or additional refinement, the method and / or the test print image is preferably characterized in that at least one position measurement result is determined by the position checking process and at least one change of a layer of at least one print head is made, for example an alignment, as a function of the at least one position measurement result a printhead in the transverse direction and / or pivoting of a Non Impact printhead about at least one pivot axis. In an alternative or additional development, the method and / or the test print image is preferably characterized in that at least one color density measurement result is determined by the color density test process and at least one setting of at least one non-impact print head and / or one print head element is changed depending on the at least one color density measurement result is, for example, a voltage value and / or a curve of a voltage that is used to generate drops and / or points. In an alternative or additional refinement, the method and / or the test print image is preferably characterized in that at least one data set is changed as a function of the at least one color density measurement result, for example by rastering under changed boundary conditions and / or by changing the original image data or raster data become.

In an alternative or additional refinement, the method and / or the test print image is preferably characterized in that at least one position measurement result is determined by the position checking process and that the at least one position measurement result is aligned with one in particular at least one transverse to a transport direction of the at least one substrate Transversely related relative position of the at least two print heads to each other and / or a relative position of the at least one print head to at least one reference, in particular at least one reference point and / or relative position of the at least two print heads to at least one reference, in particular closed at least one reference point becomes.

In an alternative or additional development, the method and / or the test print image is preferably distinguished by the fact that among the plurality of functional test elements within the test matrix, a set of functional test elements within the test matrix is understood to be at least 50% and / or at least 75% and / or at least 85% and / or at least 95% of the functional test elements within the test matrix.

In an alternative or additional development, the method and / or the test print image is preferably characterized in that at least one proof print image is produced on at least one substrate in at least one test printing operation by means of at least one non-impact print head and / or by means of at least two non-impact print heads. The respective particular at least one non-impact print head preferably has a multiplicity of point-generating devices which are arranged in the form of a respective generator matrix of generator rows and generator columns on the at least one non-impact print head. In an alternative or additional development, the method and / or the test print image is preferably characterized in that the at least one test print image has at least one functional test area and further preferred that for creating the functional test area on the at least one substrate by means of the point-generating devices of the at least one non-impact Printhead a plurality of functional test elements is generated, which are arranged in the form of a test matrix of test lines and test columns on the at least one substrate. In an alternative or additional development, the method and / or the test print image is preferably characterized in that for a plurality of functional test elements within the test matrix, pairwise adjacent functional test elements originate in the direction of the test lines from dot-generating devices of a respective same non-impact print head, the in the direction of the generator rows in the respective one of the at least one non-impact printhead, in particular the respective non-impact printhead, the at least two non-impact printheads are arranged in pairs adjacent and / or that for a plurality of functional test elements within the test matrix that in pairs in the direction of the test columns adjacent Funktionsprüfelemente of point generating devices of a respective non-impact print head originating in the direction of the generator columns in the respective non-impact print head, for example, the respective non-impact print head of z At least two Non Impact printheads are arranged in pairs adjacent to each other.

In an alternative or additional development, the method and / or the test print image is preferably characterized in that the functional test elements are formed as respective lines and / or formed as respective straight lines and / or formed as aligned in the transport direction of the at least one substrate arranged lines are and / or have each been generated and / or have been generated by means of a single respective point-generating device.

In an alternative or additional development, the method and / or the test print image is preferably characterized in that the at least one proof print image printed by means of the at least one non-impact print head is detected by means of a sensor device and at least one function test process is carried out in which by means of The sensor device detected data of this at least one Prüfdruckbilds point generating devices of the at least one non-impact print head are checked for their function

In an alternative or additional development, the method and / or the test print image is preferably characterized in that the printed product has at least one substrate and at least one test printed image arranged on the at least one substrate and / or that a longitudinal direction is a direction along an edge of the substrate and / or in that a transverse direction is a direction orthogonal to the longitudinal direction and / or that both the longitudinal direction and the transverse direction are oriented parallel to at least one main surface of the substrate bearing the test print image and / or the at least one test print image has at least one functional test region. In an alternative or additional development, the method and / or the test print image is preferably characterized in that the functional test area has a plurality of functional test elements which are arranged in the form of a test matrix of test lines and test columns on the at least one substrate and / or that for a A plurality of functional test elements within the test matrix is that functional test elements that are next-neighbor pairs in the transverse direction are not closest neighbors to absolute distances within the test matrix.

In an alternative or additional refinement, the method and / or the test print image is preferably characterized in that, for the plurality of functional test elements within the test matrix, it is valid for the transverse direction between those functional test elements which are neighbors within a same test line with respect to the transverse direction In absolute terms, there are a number of functional test elements which corresponds to the number of test lines of the test matrix reduced by 1 and / or for each of these plurality of functional test elements, three functional test elements each are arranged between pairs of functional test elements in the transverse direction, the functional test elements of these Pairs are arranged in a respective same test column and at the same time in adjacent test lines.

In an alternative or additional development, the method and / or the test print image is preferably characterized in that the test print image has at least one position check area comprising at least one Lageprüfform and that each Lageprüfform has at least two arranged in a predetermined distance from each other Lagehinweiselemente and / or that the Prüfdruckbild has at least one Farbdichteprüfungsbereich having at least one unit area with a predetermined target color density and / or at least two unit surfaces, which are assigned to each other different target color densities.

Such a proof image can be created and checked in a print shop, for example, once a day before the start of production and / or during commissioning and / or after maintenance. Corresponding results can automatically lead to changes in settings on the printing machine, to cleaning and / or maintenance operations on the printing press and / or to corresponding messages on the printing machine or a remotely located display device.

Embodiments of the invention are illustrated in the drawings and will be described in more detail below.

• 1 eine schematische Darstellung eines Bogenanlegeraggregats;
• 2a ein erster Abschnitt einer schematische Darstellung einer beispielhaften Bearbeitungsmaschinen mehreren als Flexobeschichtungsmodule ausgebildeten Modulen und alternativem Bogenanlegeraggregat;
• 2b ein zweiter Abschnitt der schematische Darstellung der beispielhaften Bearbeitungsmaschinen gemäß 2a;
• 2c ein dritter Abschnitt der schematische Darstellung der beispielhaften Bearbeitungsmaschinen gemäß 2a;
• 3 eine schematische Darstellung eines Konditionierungsaggregats;
• 4 eine schematische Darstellung eines Anlageaggregats;
• 5a eine schematische Darstellung eines als Flexobeschichtungsaggregat ausgebildeten, von oben beschichtenden Beschichtungsaggregats mit einlaufendem Transportmittel und auslaufendem Transportmittel;
• 5b eine schematische Darstellung eines als Flexobeschichtungsaggregat ausgebildeten, von unten beschichtenden Beschichtungsaggregats mit einlaufendem Transportmittel und auslaufendem Transportmittel;
• 6a eine schematische Darstellung eines als Non Impact Beschichtungsaggregat ausgebildeten, von oben beschichtenden Beschichtungsaggregats;
• 6b eine schematische Darstellung eines als Modul ausgebildeten Non Impact Beschichtungsaggregats mit vier von Druckkopfbaugruppen belegten Aufnahmeeinrichtungen;
• 6c eine schematische Darstellung einer beispielhaften Bearbeitungsmaschine mit einem Transportmittel aufweist, auf das Druckköpre und Trocknungsvorrichtungen ausgerichtet angeordnet sind;
• 7 eine schematische Darstellung eines Trocknungsaggregats;
• 8a eine schematische Darstellung eines als Saugband ausgebildeten Saugtransportmittels;
• 8b eine schematische Darstellung eines als Rollensaugsystem ausgebildeten Saugtransportmittels;
• 9 eine schematische Darstellung eines Transportaggregats;
• 10 eine schematische Darstellung eines Formgebungsaggregats;
• 11 eine schematische Darstellung eines Auslageaggregats;
• 12a eine schematische Darstellung einer beispielhaften Bearbeitungsmaschinen mit vier Druckstellen;
• 12b eine schematische Darstellung einer beispielhaften Bearbeitungsmaschinen mit vier Druckstellen, Grundierungsmodul und Lackierungsmodul;
• 12c eine schematische Darstellung einer beispielhaften Bearbeitungsmaschinen mit acht Druckstellen, Grundierungsmodul und Lackierungsmodul;
• 12d eine schematische Darstellung einer beispielhaften Bearbeitungsmaschine mit einem Transportmittel, auf das Druckköpfe und Trocknungsvorrichtungen ausgerichtet angeordnet sind;
• 13 eine schematische Darstellung von primären und sekundären Beschleunigungsmitteln mit eigenen Antrieben;
• 14a eine schematische Darstellung von primären und sekundären Beschleunigungsmitteln, wobei mehrere primäre Antriebe angeordnet sind;
• 14b eine schematische Darstellung von primären und sekundären Beschleunigungsmitteln, wobei mehrere unterschiedliche Abstandshalter angeordnet sind;
• 15 eine schematische Darstellung von primären und sekundären Beschleunigungsmitteln, wobei eine Zusatzeinrichtung zum Detektieren von fehlerhaft transportierten und/oder fehlerhaft beschaffenen Bogen zum Aussortieren von Bogen und/oder zum Festhalten und/oder zum Zurückdrängen von Bogen angeordnet ist;
• 16a eine schematische Darstellung von primären und sekundären Beschleunigungsmitteln, wobei als sekundäres Beschleunigungsmittel ein einen Transportspalt bildendes Paar von Transportbändern angeordnet ist;
• 16b eine schematische Darstellung von primären und sekundären Beschleunigungsmitteln, wobei als primäre Beschleunigungsmittel zumindest ein Transportband und/oder zumindest ein als Saugband ausgebildetes Transportmittel angeordnet ist;
• 16c eine schematische Darstellung von primären und sekundären Beschleunigungsmitteln, die jeweils als zumindest ein Transportband und/oder zumindest ein als Saugband ausgebildetes Transportmittel ausgebildet sind;
• 17a eine schematische Darstellung eines Transportmittels mit Transportband und Komprimierungseinrichtung, wobei ein Komprimierungskörper in einer Durchgangslage angeordnet ist;
• 17b eine schematische Darstellung gemäß 17a, wobei ein Komprimierungskörper in einer Komprimierungslage angeordnet ist;
• 18 eine schematische Darstellung eines Bogenanlegeraggregats in Querrichtung;
• 19 eine schematische perspektivische Darstellung eines Bogenanlegeraggregat gemäß 18;
• 20a eine schematische perspektivische Darstellung eines Bogenanlegeraggregat gemäß 18 von oben;
• 20b eine schematische perspektivische Darstellung eines Bogenanlegeraggregat gemäß 20a von oben mit bezüglich der Querrichtung verlagerten Transportbändern;
• 21 eine schematische perspektivische Darstellung eines zumindest ein primäres Beschleunigungsmittel aufweisenden Ausschnitts einer Substratzufuhreinrichtung;
• 22 eine schematische perspektivische Darstellung eines mehrere primäre Beschleunigungsmittel und Antriebe aufweisenden Ausschnitts einer Substratzufu hreinrichtung;
• 23 eine schematische Darstellung eines Prüfdruckbilds;
• 24 eine schematische Darstellung einer Lageprüfform;
• 25 eine schematische Darstellung einer Erzeugermatrix mit punkterzeugenden Eirichtungen;
• 26 eine schematische Darstellung eines Funktionsprüfungsbereichs mit Funktionsprüfelementen sowie einer zum besseren Verständnis darüber angeordneten Reihe, die die Reihenfolge dieser Funktionsprüfelemente bezüglich der Querrichtung verdeutlichen soll;
• 27 Eine schematische Darstellung einer beispielhaften Bahnbearbeitungsmaschine mit Non Impact Druckköpfen.

Show it:

• 1 a schematic representation of a sheet feeder unit;
• 2a a first section of a schematic representation of an exemplary processing machines multiple modules designed as flexo coating modules and alternative sheet feeder unit;
• 2 B a second section of the schematic representation of the exemplary processing machines according to 2a ;
• 2c a third section of the schematic representation of the exemplary processing machines according to 2a ;
• 3 a schematic representation of a conditioning unit;
• 4 a schematic representation of a plant unit;
• 5a a schematic representation of a designed as a flexo coating aggregate, coated from above coating unit with incoming transport and leaking transport;
• 5b a schematic representation of a designed as a flexo coating unit, coated from below coating unit with incoming transport and leaking transport;
• 6a a schematic representation of a non-impact coating unit, coated from above coating unit;
• 6b a schematic representation of a trained as a module Non Impact coating unit with four occupied by printhead assemblies recording devices;
• 6c a schematic representation of an exemplary processing machine having a transport, are arranged aligned on the Druckköpre and drying devices;
• 7 a schematic representation of a drying unit;
• 8a a schematic representation of a suction conveyor designed as a suction conveyor;
• 8b a schematic representation of a trained as Rollenensaugsystem suction transport;
• 9 a schematic representation of a transport unit;
• 10 a schematic representation of a forming unit;
• 11 a schematic representation of a delivery unit;
• 12a a schematic representation of an exemplary processing machines with four pressure points;
• 12b a schematic representation of an exemplary processing machines with four pressure points, primer and paint module;
• 12c a schematic representation of an exemplary processing machines with eight pressure points, primer and paint module;
• 12d a schematic representation of an exemplary processing machine with a transport, are arranged aligned with the printheads and drying devices;
• 13 a schematic representation of primary and secondary accelerators with their own drives;
• 14a a schematic representation of primary and secondary acceleration means, wherein a plurality of primary drives are arranged;
• 14b a schematic representation of primary and secondary acceleration means, wherein a plurality of different spacers are arranged;
• 15 a schematic representation of primary and secondary acceleration means, wherein an auxiliary device for detecting erroneously transported and / or faulty sheet arranged for sorting out sheets and / or for holding and / or pushing back of sheet;
• 16a a schematic representation of primary and secondary acceleration means, being arranged as a secondary acceleration means, a transport gap forming a pair of conveyor belts;
• 16b a schematic representation of primary and secondary acceleration means, being arranged as a primary acceleration means at least one conveyor belt and / or at least one formed as a suction conveyor means;
• 16c a schematic representation of primary and secondary acceleration means, which are each formed as at least one conveyor belt and / or at least one designed as a suction conveyor transport;
• 17a a schematic representation of a transport means with conveyor belt and compression means, wherein a compression body is arranged in a passage layer;
• 17b a schematic representation according to 17a wherein a compression body is disposed in a compression layer;
• 18 a schematic representation of a sheet feeder unit in the transverse direction;
• 19 a schematic perspective view of a sheet feeder unit according to 18 ;
• 20a a schematic perspective view of a sheet feeder unit according to 18 from above;
• 20b a schematic perspective view of a sheet feeder unit according to 20a from above with transversely displaced conveyor belts;
• 21 a schematic perspective view of a at least one primary accelerating means having section of a Substratatzufuhreinrichtung;
• 22 a schematic perspective view of a plurality of primary acceleration means and drives having section of a Substratatzufu hreirichtung;
• 23 a schematic representation of a Prüfdruckbilds;
• 24 a schematic representation of a Lageprüfform;
• 25 a schematic representation of a generator matrix with point generating Eirichtungen;
• 26 a schematic representation of a functional test area with functional test elements as well as a better arranged for better understanding row, which should clarify the order of these Funktionsprüfelemente with respect to the transverse direction;
• 27 A schematic representation of an exemplary web-processing machine with non-impact printheads.

The term of a coating agent or printing fluid in the foregoing and hereinafter inks and inks, but also primers, paints and pasty materials are summarized. Preference is given to pressure-fluid materials passing through a processing machine 01 , especially printing press 01 , or at least one coating unit 400 ; 600 ; 800 the processing machine 01 , in particular at least one printing unit 600 the printing press 01 , on a substrate 02 , in particular a substrate 02 , be transferred and / or transferable, and preferably in finely structured form and / or not only over a large area a preferably visible and / or perceptible by sensory and / or machine detectable texture on the substrate 02 , in particular printing material 02 , justify. Inks and printing inks are preferably solutions or dispersions of at least one colorant in at least one solvent. Suitable solvents include, for example, water and / or organic solvents. Alternatively or additionally, the pressure fluid may be formed as under UV light crosslinking pressure fluid. Inks are relatively low viscosity printing fluids and inks are relatively high viscosity printing fluids. Inks preferably have no binder or relatively little binder, while printing inks preferably contain a relatively large amount of binder and more preferably further auxiliaries. Colorants may be pigments and / or dyes, pigments being insoluble in the application medium, while dyes are soluble in the application medium.

For the sake of simplicity, the term "printing ink" in the sense of a liquid or at least free-flowing dyeing fluid to be printed in the printing press should be understood in the preceding and following - which does not only refer to the colloquial rather with the expression "Ink" associated higher viscosity dyeing fluid for use in rotary printing machines, but in addition to these High-viscosity dyeing fluids in particular also low-viscosity dyeing fluids such as "inks", especially inkjet inks, but also powdered dyeing fluids such. As toner includes. Thus, in the foregoing and hereinafter especially colorless paints are meant when talking of printing fluids and / or inks and / or printing inks. Preference is given in the following and in particular also means for a pretreatment (so-called priming or precoating) of the printing substrate 02 meant when talking of printing fluids and / or inks and / or inks. As an alternative to the term of the pressurized fluid, the term coating agent is to be understood as synonymous.

A processing machine 01 is preferred as a printing press 01 educated. The processing machine 01 is preferred as a sheet processing machine 01 trained, so as a processing machine 01 for a processing of arcuate substrate 02 or bow 02 , in particular sheet-shaped substrate 02 , The processing machine 01 is more preferred than corrugated board processing machine 01 trained, so as a processing machine 01 for a processing of arcuate substrate 02 or bow 02 made of corrugated cardboard, in particular sheet-shaped printing material 02 made of corrugated cardboard. Further preferred is the processing machine 01 as a sheetfed press 01 formed, in particular as Wellpappbogendruckmaschine 01 So, as a printing press 01 for coating and / or printing on a sheet-shaped substrate 02 or bow 02 made of corrugated cardboard, in particular sheet-shaped printing material 02 made of corrugated cardboard. For example, the printing press 01 as a non-impact printing press 01 and / or as a printing press operating according to a compression-molding method 01 educated. The printing press is preferred 01 as a non impact printing machine 01 , in particular inkjet printing machine 01 and / or as a flexographic printing machine 01 educated. The printing machine has, for example, at least one flexographic coating unit 400 ; 600 ; 800 on. Alternatively or additionally, the coating machine 01 preferably at least one non-impact coating unit 400 ; 600 ; 800 , in particular jet coating unit 400 ; 600 ; 800 or inkjet coating unit 400 ; 600 ; 800 on.

As far as in the foregoing and in the following features based on an execution as a sheet processing machine 01 are described, these also apply to a general processing machine 01 , especially for a processing machine 01 suitable for processing at least web-like substrate 02 is formed, so a roll processing machine 01 and / or web-processing machine 01 So, as a processing machine 01 for a processing of web-shaped substrate 02 or at least one material web 02 , in particular web-shaped substrate 02 regardless of whether or not it comes from a role, at least insofar as it does not lead to any contradictions. As far as in the preceding and in the following of Bogen 02 the same applies, also for general substrate, in particular arch or web-shaped substrate, at least as far as there are no contradictions. A transport path for a transport of substrate is preferred 02 , in particular printing material 02 and / or bow 02 intended. The one for the transport of printing material 02 provided transport path is in particular that area of space, the substrate 02 in the case of his presence, if appropriate, at least temporarily occupies and / or occupy.

Unless explicitly differentiated, the term arcuate substrate is used here 02 , in particular a printing material 02 , especially of the bow 02 basically every flat and in-section substrate 02 , so also tabular or plate-shaped substrates present 02 , So also panels or plates, includes his. The thus defined arcuate substrate 02 or the bow 02 is for example made of paper or cardboard, ie as a paper or cardboard sheet, or by bow 02 , Panels or plates made of plastic, cardboard, glass or metal. More preferably, the substrate is 02 around corrugated cardboard 02 , in particular corrugated board sheets 02 , Under a thickness of a bow 02 is preferably a dimension orthogonal to a largest area of the arc 02 to understand. This largest area is also called the main area. The thickness of the bow 02 is for example at least 0.1 mm, more preferably at least 0.3 mm and even more preferably at least 0.5 mm. Especially with corrugated arch 02 are also significantly larger thicknesses usual, for example at least 4 mm or 10 mm and more. Wellpappbogen 02 are relatively stable and therefore not flexible. Corresponding adjustments of the processing machine 01 therefore facilitate the processing of sheets 02 big thickness.

The processing machine 01 preferably has several aggregates 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 on. Under an aggregate 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 In this case, it is preferable in each case to understand a group of devices which functionally cooperate, in particular a preferably closed-loop machining process for sheets 02 to carry out. For example, at least two and preferably at least three and more preferably all of the aggregates 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 as modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 trained or at least one each assigned to such. Under a module 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 is in particular a respective unit 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or a structure of several aggregates 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 to understand that preferably at least one means of transport 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 and / or at least one own controllable and / or controllable drive M100 ; M200 ; M201 ; M300 ; M400 ; M401 ; M500 ; M550 ; M600 ; M601 ; M700 ; M800 ; M801 ; M900 ; M1000 and / or at least one transfer means 03 for bow 02 and / or at least one without deviation or with a deviation of at most 5 cm, preferably at most 1 cm and more preferably at most 2 mm on one for several modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 same first standard height beginning and / or ending section of a substrate for transport 02 , in particular printing material 02 and / or bow 02 provided transport path and / or as a self-standing functional module 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 and / or in each case formed and / or individually assembled machine unit or functional assembly is formed.

Under its own controllable and / or controllable drive M100 ; M200 ; M201 ; M300 ; M400 ; M401 ; M500 ; M550 ; M600 ; M601 ; M700 ; M800 ; M801 ; M900 ; M1000 an aggregate or module is in particular a drive M100 ; M200 ; M201 ; M300 ; M400 ; M401 ; M500 ; M550 ; M600 ; M601 ; M700 ; M800 ; M801 ; M900 ; M1000 to understand, which serves to drive movements of components of this unit or module and / or serves to transport a substrate to be processed 02 , in particular printing material 02 and / or bow 02 by effecting this particular aggregate or module and / or by at least one area of action of this particular aggregate or module and / or serving to at least one for a contact to be processed substrate 02 , in particular printing material 02 and / or bow 02 intended component of the respective unit or module to drive directly or indirectly. The drives M100 ; M200 ; M201 ; M300 ; M400 ; M401 ; M500 ; M550 ; M600 ; M601 ; M700 ; M800 ; M801 ; M900 ; M1000 the aggregates 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 and / or modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 the processing machine 01 are preferred as motors M100 ; M200 ; M201 ; M300 ; M400 ; M401 ; M500 ; M550 ; M600 ; M601 ; M700 ; M800 ; M801 ; M900 ; M1000 , in particular electric motors M100 ; M200 ; M201 ; M300 ; M400 ; M401 ; M500 ; M550 ; M600 ; M601 ; M700 ; M800 ; M801 ; M900 ; M1000 formed, more preferably as position-controlled electric motors M100 ; M200 ; M201 ; M300 ; M400 ; M401 ; M500 ; M550 ; M600 ; M601 ; M700 ; M800 ; M801 ; M900 ; M1000 ,

Preferably, each unit has 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or module 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 at least one drive control and / or at least one drive controller or drive control, which the respective at least one drive M100 ; M200 ; M201 ; M300 ; M400 ; M401 ; M500 ; M550 ; M600 ; M601 ; M700 ; M800 ; M801 ; M900 ; M1000 of the respective aggregate 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or module 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 assigned. The drive controls and / or drive controllers or drive controls of the individual units 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 are preferably individually and independently operable. Further preferred are the drive controls and / or drive controllers or drive controls of the individual units 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 circuit-technically interconnected and / or linkable such that a coordinated control and / or regulation of the drives M100 ; M200 ; M201 ; M300 ; M400 ; M401 ; M500 ; M550 ; M600 ; M601 ; M700 ; M800 ; M801 ; M900 ; M1000 several or all aggregates 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 and / or in particular modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 the processing machine 01 is and / or can be made.

The coordinated control and / or regulation of the drives M100 ; M200 ; M201 ; M300 ; M400 ; M401 ; M500 ; M550 ; M600 ; M601 ; M700 ; M800 ; M801 ; M900 ; M1000 several or all aggregates 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 and / or in particular modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 the processing machine 01 is preferably by means of a machine control of the processing machine 01 feasible and / or monitorable and / or is preferred by a machine control of the processing machine 01 made and / or monitored. The coordinated control and / or regulation of the drives M100 ; M200 ; M201 ; M300 ; M400 ; M401 ; M500 ; M550 ; M600 ; M601 ; M700 ; M800 ; M801 ; M900 ; M1000 several or all aggregates 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 and / or in particular modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 the processing machine 01 is preferably feasible using at least one BUS system and / or monitored and / or is preferably carried out using at least one bus system and / or monitored, so it is preferred using at least one BUS system. In particular, the drive controls of the respective own drives are preferably connected to one another via at least one BUS system.

The individual aggregates 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 and / or in particular modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 the processing machine 01 are therefore at least with respect to their drives M100 ; M200 ; M201 ; M300 ; M400 ; M401 ; M500 ; M550 ; M600 ; M601 ; M700 ; M800 ; M801 ; M900 ; M1000 preferably operated in an electronically coordinated manner and / or operated, in particular by means of at least one electronic lead axle. For this purpose, an electronic master axis is preferably specified, for example by a higher-level machine control of the machine tool 01 , In particular, the processing machine is preferably characterized in that at least the drive control deseines primary drive M101 and the drive control of a secondary drive M101 and the drive control of the drive M600 ; M900 of the processing module 600 ; 900 can be operated and / or operated in a coordinated manner and / or can be operated and / or operated in a coordinated manner by means of at least one electronic master axis. The higher-level machine control system uses, for example, components of a specific controller and / or a specific controller of a specific unit for generating the electronic master axis 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or module 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 back. Several or more preferably all aggregates are preferred 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 and / or modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 designed so that it is considered a leading aggregate 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 and / or as a leading module 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 can be used, the other aggregates 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 and / or modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 during operation of the processing machine 01 follow and / or succeed.

Regardless of the specific functional training of the respective aggregate 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or module 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 has this particular aggregate 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or module 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 preferably at least one transfer means 03 which preferably serves to transport a substrate to be processed 02 , in particular printing material 02 and / or the bow 02 between this particular aggregate 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or module 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 on the one hand and at least one other aggregate 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 and / or at least one other module 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 on the other hand to support or carry out.

Unless otherwise described, the aggregates stand out 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 the processing machine 01 preferably in each case characterized in that by the respective unit 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or module 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 fixed section of for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path is at least substantially flat and more preferably completely flat. Under a substantially flat section of the substrate for transport 02 , in particular printing material 02 and / or bow 02 provided transport path is to be understood a section having a minimum radius of curvature which is at least 2 meters, more preferably at least 5 meters and even more preferably at least 10 meters and even more preferably at least 50 meters. A completely flat section has an infinitely large radius of curvature and is therefore also substantially flat and thus also has a minimum radius of curvature which is at least 2 meters. Unless otherwise described, the aggregates stand out 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 the processing machine 01 preferably in each case characterized in that by the respective unit 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or module 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 fixed section of for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path at least substantially horizontally and more preferably exclusively horizontally. This transport path preferably extends in the transport direction T , A substantially horizontally extending for the transport of substrate 02 , in particular printing material 02 and / or bow 02 Provided transport means in particular that the intended transport path in the entire area of the respective unit 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or module 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 one or more and / or exclusively directions which deviates at most by 30 °, preferably by at most 15 ° and more preferably by at most 5 ° from at least one horizontal direction. The direction of the transport path is in particular that direction in the bow 02 be transported at the point at which the direction is measured. The for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path preferably begins at a point of removal of the bow 02 from a feeder pile 104 ,

The processing machine 01 preferably has at least one as Substratatzufuhreinrichtung 100 trained, also sheet feeder 100 called aggregate 100 , in particular sheet feeder unit 100 on, the further preferred as a module 100 , in particular as sheet feeder module 100 is trained.

The processing machine 01 preferably has at least one as a conditioning device 200 ; 550 trained aggregate 200 ; 550 , in particular conditioning aggregate 200 ; 550 on, the further preferred as a module 200 ; 550 , in particular as a conditioning module 200 ; 550 is trained. Such a conditioning device 200 ; 550 is for example as a preparation device 200 or as a post-treatment device 550 educated. The processing machine 01 preferably has at least one as a preparation device 200 trained aggregate 200 , in particular preparation aggregate 200 on, the further preferred as a module 200 , in particular as a preparation module 200 is formed and a conditioning device 200 represents. The processing machine 01 preferably has at least one as after-treatment device 550 trained aggregate 550 , in particular aftertreatment unit 550 on, the further preferred as a module 550 , in particular as a post-treatment module 550 is formed and a conditioning device 550 represents.

The processing machine 01 preferably has at least one as investment facility 300 trained aggregate 300 , in particular plant unit 300 on, the further preferred as a module 300 , in particular as an investment module 300 is trained. The at least one investment facility 300 is alternatively as part of the Substratatzufuhreinrichtung 100 educated.

The processing machine 01 preferably has at least one as a coating device 400 ; 600 ; 800 trained, also coating unit 400 ; 600 ; 800 called aggregate 400 ; 600 ; 800 on, the further preferred as a module 400 ; 600 ; 800 , in particular coating module 400 ; 600 ; 800 is trained. The at least one coating unit 400 ; 600 ; 800 is arranged and / or constructed depending on the function and / or coating method. The at least one coating unit 400 ; 600 ; 800 is preferably used, at least one respective coating agent over the entire surface and / or partial area on the substrate to be processed 02 , in particular the substrate 02 and / or the bows 02 apply. An example of a coating unit 400 ; 600 ; 800 is a primer aggregate 400 in particular applying a primer to the substrate to be processed 02 , in particular the substrate 02 and / or the bows 02 serves. Another example of a coating unit 400 ; 600 ; 800 is a printing unit 600 , in particular an application of printing ink and / or ink on sheets 02 serves. Another example of a coating unit 400 ; 600 ; 800 is a paint job 800 in particular, applying paint to the substrate to be processed 02 , in particular the substrate 02 and / or the bows 02 serves.

In particular, irrespective of the function of the coating agent which can be applied therewith, it is possible to dispense coating units 400 ; 600 ; 800 preferably differ with regard to their coating method. An example of a coating unit 400 ; 600 ; 800 is a mold-based coating unit 400 ; 600 ; 800 , which in particular has at least one fixed and preferably exchangeable printing form. Mold-based coating units 400 ; 600 ; 800 work preferably according to a planographic printing process, in particular offset planographic printing process and / or after a gravure printing process and / or after a high-pressure process, particularly preferably according to a flexographic printing process. The coating unit 400 ; 600 ; 800 is then, for example, a Flexobeschichtungsaggregat 400 ; 600 ; 800 , in particular flexo coating module 400 ; 600 ; 800 , Another example of a coating unit 400 ; 600 ; 800 is a pressure-formless coating unit 400 ; 600 ; 800 or non-impact coating unit 400 ; 600 ; 800 , which works in particular without fixed printing form. Compression-free coating units 400 ; 600 ; 800 or non-impact coating units 400 ; 600 ; 800 operate, for example, according to an ionographic method and / or a magnetographic method and / or a thermographic method and / or electrophotography and / or laser printing and / or in particular preferably according to an inkjet printing method or inkjet printing method. The coating unit 400 ; 600 ; 800 is then, for example, an inkjet coating unit 400 ; 600 ; 800 , in particular inkjet coating module 400 ; 600 ; 800 ,

The processing machine 01 preferably has at least one as a primer 400 trained, also primer work 400 called aggregate 400 , in particular primer aggregate 400 on, the further preferred as a module 400 , in particular as a primer module 400 is trained. The at least one primer module 400 is in particular a special form of a processing module 600 ,

The processing machine 01 preferably has at least one as a drying device 500 trained aggregate 500 , in particular drying unit 500 on, the further preferred as a module 500 , in particular as a drying module 500 is trained. Alternatively or additionally, for example, at least one drying device 506 Component of at least one preferred as a module 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 trained aggregate 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 , The at least one drying module 500 is in particular a special form of a processing module 500 ,

The processing machine 01 preferably has at least one as a printing unit 600 trained aggregate 600 on, the further preferred as a module 600 , in particular as a printing module 600 is trained. The at least one printing module 600 is in particular a special form of a processing module 600 ,

The processing machine 01 preferably has at least one as a transport device 700 or means of transport 700 trained aggregate 700 , in particular transport unit 700 on, the further preferred as a module 700 , in particular as a transport module 700 is trained. The processing machine 01 has transport facilities 700 for example, or alternatively as components of other aggregates 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 and / or modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 on.

The processing machine 01 preferably has at least one as painting device 800 trained, also coating plant 800 called aggregate 800 , in particular painting aggregate 800 on, the further preferred as a module 800 , especially as a paint module 800 is trained. The at least one primer module 800 is in particular a special form of a processing module 800 ,

The processing machine 01 preferably has at least one as a shaping device 900 and / or punching device 900 trained aggregate 900 , in particular shaping aggregate 900 and / or punching unit 900 on, the further preferred as a module 900 , in particular as a shaping module 900 and / or punching module 900 is trained. The at least one shaping module 900 and / or punching module 900 is in particular a special form of a processing module 900 ,

The processing machine 01 preferably has at least one as substrate delivery device 1000 trained, also sheet delivery 1000 called aggregate 1000 , in particular display unit 1000 on, the further preferred as a module 1000 , in particular as a display module 1000 is trained.

The processing machine 01 has, for example, at least one unit designed as a further processing device, in particular a further processing unit, which is further preferably designed as a module, in particular as a further processing module.

The particular for a transport of bows 02 intended transport direction T is a direction T which is preferably at least substantially and more preferably fully horizontally oriented and / or preferably from a first aggregate 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 the processing machine 01 to a last aggregate 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 the processing machine 01 points, in particular of a sheet feeder unit 100 or a Substratzufuhreinrichtung 100 on the one hand to a delivery unit 1000 or a substrate delivery device 1000 on the other hand, and / or which preferably points in a direction in which the arches 02 is transported apart from vertical movements or vertical components of movements, in particular from a first contact with one of the Substratatzufuhreinrichtung 100 downstream aggregate 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 the processing machine 01 or first contact with the processing machine 01 until a last contact with the processing machine 01 , Regardless of whether the investment facility 300 a separate aggregate 300 or module 300 is or is part of the substrate supply device 100 is, is the direction of transport T prefers that direction T in which a horizontal component points a direction taken by the abutment 300 to the substrate delivery device 1000 is oriented.

A working width of the processing machine 01 and / or the at least one coating unit 400 ; 600 ; 800 is preferably a dimension which is preferably orthogonal to the intended transport path of the arc 02 by the at least one coating unit 400 ; 600 ; 800 extends, more preferably in a transverse direction A , The transverse direction A is preferably a horizontal direction A , The transverse direction A is orthogonal to the intended direction of transport T the arc 02 and / or orthogonal to the intended transport path of the bow 02 by the at least one coating unit 400 ; 600 ; 800 oriented. The working width of the processing machine 01 preferably corresponds to a maximum width, which is a bow 02 may still have to work with the machine 01 to be processed, so in particular a maximum with the printing press 01 workable sheet width. Under the Width of a bow 02 is in particular its dimension in the transverse direction A to understand. This is preferred regardless of whether this width of the bow 02 is greater or less than an orthogonal horizontal dimension of the arc 02 that further prefers the length of this arch 02 represents. The working width of the processing machine 01 preferably corresponds to the working width of the at least one coating unit 400 ; 600 ; 800 , in particular printing unit 600 , The transverse direction A is preferably parallel to an axis of rotation of at least part of a means of transport 411 ; 417 ; 611 ; 617 ; 811 ; 817 a coating unit 400 ; 600 ; 800 oriented. The working width of the sheet processing machine 01 is preferably at least 100 cm, more preferably at least 150 cm, even more preferably at least 160 cm, even more preferably at least 200 cm and even more preferably at least 250 cm.

The processing machine 01 preferably has transport means at one or more locations 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 on, preferably as a suction transport 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 are formed, in particular as a suction belt 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 and / or as a Saugkastenband 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 and / or as a roller suction system 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 and / or as a suction roller 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 , Such suction transport 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 preferably serve to substrate to be processed 02 , in particular printing material 02 and / or bow 02 controlled to move forward. In this case, a relative negative pressure is preferably used to the substrate to be processed 02 , in particular the substrate 02 and / or the bows 02 against at least one transport surface 718 to pull and / or to push and is preferably a transport movement of the substrate to be processed 02 , in particular of the printing substrate 02 and / or the bow 02 by a corresponding, in particular, circumferential movement of the at least one transport surface 718 generated.

Under a suction transport 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 Therefore, it is preferable to understand a device which has at least one movable transport surface 718 having, in particular, as a counter-pressure surface 718 serves and, for example, at least partially at least in the transport direction T is movable. Furthermore, the suction transport means 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 at least one vacuum chamber 719 on, by means of a suction line 721 with at least one vacuum source 733 connected is. The vacuum source 733 For example, has a fan 733 on. The at least one vacuum chamber 719 has at least one suction opening 722 on, the suction of the substrate to be processed 02 , in particular of the printing substrate 02 and / or the bow 02 serves. For example, the transport surface 718 one or more suction openings 723 on. The intake openings 723 serve preferably to a negative pressure of the suction port 722 the vacuum chamber 719 up to the transport area 718 to convey further, in particular without pressure losses or with very low pressure losses. Alternatively or additionally, the suction opening acts 722 so on the bow 02 that these against the transport surface 718 is sucked without the transport surface 718 suction 723 would have. For example, at least one deflection means 724 arranged, directly or indirectly for a circumferential movement of the at least one transport surface 718 provides. This is preferably at least one deflection means 724 and / or the transport surface 718 itself driven and / or driven, in particular for a movement of the bow 02 to care.

A first embodiment of a suction transport 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 is a suction belt 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 , Under a suction belt 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 is a device to understand the at least one flexible conveyor belt 718 ; 726 has, as a transport surface 718 serves. The at least one conveyor belt 718 ; 726 is preferred by as pulleys 724 and / or guide rollers 724 trained deflecting means 724 deflected and / or is preferably self-contained, so that an endless circulation is possible. The at least one conveyor belt 718 ; 726 preferably has a plurality of suction openings 723 on. Alternatively or additionally, several conveyor belts 718 ; 726 with respect to the transverse direction A spaced side by side, regardless of whether these conveyor belts 718 ; 726 suction 723 respectively. Regarding the transverse direction A areas lying between the conveyor belts then preferably serve as suction openings 723 ,

A second embodiment of a Saugtransportmittels 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 is a suction box tape 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 , Under a suction box tape 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 is a device to understand that a plurality of suction boxes 718 ; 727 each having one as a transport surface 718 serving outer surface 718 respectively. The suction boxes 718 ; 727 in this case preferably each have at least one suction chamber 728 on.

A third embodiment of a Saugtransportmittels 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 is a roller suction system 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 , Under a roller suction system 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 is to understand a device in which the at least one transport surface 718 from at least parts of lateral surfaces 718 a variety of transport wheels 724 and / or transport rollers 724 is formed. The transport wheels 724 and / or transport rollers 724 thus form each closed and rotating parts of the transport surface 718 , The roller suction system 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 preferably has a plurality of suction openings 722 on. These suction openings 722 are preferably at least between adjacent transport rollers 724 and / or transport rollers 724 arranged.

For example, at least one mask is 734 arranged, which preferably has a limitation of the vacuum chamber 719 represents. The mask 734 preferably has the plurality of suction openings 722 on. By a circumferential movement of the transport rollers 724 and / or transport rollers 724 then results in a forward movement of the parts of the transport surface 718 , where bow 02 exactly in the safe area on the transport surface 718 in which they hold the suction opening 722 are opposite.

A fourth embodiment of a Saugtransportmittels 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 is at least a suction roller 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 , Under a suction roller 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 is a role to understand their lateral surface as a transport surface 718 serves and a variety of suction ports 723 has and in its interior at least one vacuum chamber 719 having, for example by means of a suction line 721 with at least one vacuum source 733 connected is.

Preferably, at least one cleaning device is arranged, which is a cleaning of the respective transport surface 718 the respective Saugtransportmittels 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 serves. By way of example, this cleaning device is designed as a suction device and / or blowing device and / or as a stripping device and / or preferably serves to remove pieces of paper and / or dust. The cleaning device is, for example, on a for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path facing away from the suction conveyor 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 and / or on the respective transport surface 718 arranged aligned.

Regardless of the embodiment of the respective Saugtransportmittels 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 are at least two arrangements of the respective Saugtransportmittels described below 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 possible.

In a first arrangement is one of the respective Saugtransportmittel 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 Specified section of for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path below the particular movable transport surface 718 , in particular as counter-pressure surface 718 serves and, for example, at least partially at least in the transport direction T is movable. For example, the respective suction transport means 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 then as upper suction transport 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 formed, whose suction openings 722 or suction openings 723 at least during its connection to the at least one vacuum chamber 719 preferably at least also or only pointing downwards and / or its suction effect is preferably at least also or only directed upwards. The bows 02 are then from the Saugtransportmittel 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 transported hanging.

In a second arrangement is one of the respective suction transport means 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 Specified section of for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path above the particular movable transport surface 718 , in particular as counter-pressure surface 718 serves and, for example, at least partially at least in the transport direction T is movable. For example, the respective suction transport means 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 then as a lower suction transport 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 formed, whose suction openings 722 or suction openings 723 at least during its connection to the at least one vacuum chamber 719 preferably at least also or only pointing upwards and / or its suction effect is preferably also directed at least or only downwards. The bows 02 are then from the Saugtransportmittel 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 transported horizontally.

In an alternative or additional development, the preferred is as a sheet-fed press 01 trained processing machine 01 preferably characterized in that along the transport section of the at least one conveyor belt 718 ; 726 at least one coating site 409 ; 609 ; 809 at least one coating unit 400 ; 600 ; 800 the sheetfed press 01 is arranged. For a particularly high print quality is possible because a particularly secure position of the bow 02 even with small bows 02 and / or large gaps between sheets 02 and / or a first sheet 02 and / or a last bow 02 is reachable. Further preferred are along the transport section of the at least one conveyor belt 718 ; 726 at least two, even more preferably at least three and even more preferably at least four coating sites 409 ; 609 ; 809 at least one coating unit 400 ; 600 ; 800 the sheetfed press 01 arranged. Then optimized printing can be performed with respect to register and / or register and / or color register. For example, along the transport section of the at least one conveyor belt 718 ; 726 at least one drying device 500 and / or at least one drying device 506 the sheetfed press 01 arranged.

As described, the particular has as a sheet-fed press 01 trained processing machine 01 prefers the at least one conveyor belt 718 ; 726 which is further preferred with at least one transport section of its circulation path parallel to the transport direction T along a portion of the substrate for transport 02 , in particular printing material 02 and / or bow 02 extending transport path extends. It is preferred with respect to the transverse direction A just exactly one conveyor belt 718 ; 726 arranged. In transport direction T seen several conveyor belts can be arranged one behind the other and different areas of the transport of substrate 02 , in particular printing material 02 and / or bow 02 form provided transport path. The at least one conveyor belt 718 ; 726 is not necessarily, but preferred as a conveyor belt 718 ; 726 one as a suction belt 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 trained suction transport 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 the sheetfed press 01 formed, in particular this at least one suction transport 111 ; 117 ; 119 ; 136 ; 211 ; 311 ; 411 ; 417 ; 511 ; 561 ; 611 ; 617 ; 711 ; 811 ; 817 ; 911 ; 1011 the at least one conveyor belt 718 ; 726 having. Preferably, this has at least one conveyor belt 718 ; 726 as described a plurality of suction ports 723 on. As described, the preferred is as a sheet-fed press 01 trained processing machine 01 preferably characterized in that along the transport section of the at least one conveyor belt 718 ; 726 at least one coating site 409 ; 609 ; 809 at least one coating unit 400 ; 600 ; 800 the sheetfed press 01 is arranged. Further preferred are along the transport section of the at least one conveyor belt 718 ; 726 at least two, even more preferably at least three and even more preferably at least four coating sites 409 ; 609 ; 809 at least one coating unit 400 ; 600 ; 800 the sheetfed press 01 arranged. For example, along the transport section of the at least one conveyor belt 718 ; 726 at least one drying device 500 and / or at least one drying device 506 the sheetfed press 01 arranged.

In an alternative or additional development, the preferred is as a sheet-fed press 01 trained processing machine 01 preferably characterized in that the sheet-fed printing machine 01 at least one non-impact coating unit 400 ; 600 ; 800 trained coating unit 400 ; 600 ; 800 has and the sheet-fed press 01 at least one conveyor belt 718 ; 726. having, with at least one transport section of its circulation path parallel to a transport direction T along a portion of a for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path and along the transport section of the at least one conveyor belt 718 ; 726 at least one in particular by at least one print head 416 ; 616 ; 816 fixed coating site 409 ; 609 ; 809 at least one coating unit 400 ; 600 ; 800 the sheetfed press 01 is arranged. The at least one coating unit 400 ; 600 ; 800 thus preferably has at least one print head 416 ; 616 ; 816 on. Preferably, the at least one print head 416 ; 616 ; 816 with at least a first frame 427 ; 627 ; 827 the at least one coating unit 400 ; 600 ; 800 connected, more preferably with at least one side wall 428 . 628 . 828 of at least a first frame 427 ; 627 ; 827 the at least one coating unit 400 ; 600 ; 800 and even more preferably with at least two sidewalls 428 . 628 . 828 the at least one first frame 427 ; 627 ; 827 the at least one coating unit 400 ; 600 ; 800 , This compound is for example direct, but preferably indirect. For example, the at least one printhead 416 ; 616 ; 816 via at least one positioning device 426 ; 626 ; 826 and / or at least one other component with the at least one first frame 427 ; 627 ; 827 connected arranged.

The first frame 427 ; 627 ; 827 is preferred the frame 427 ; 627 ; 827 of the coating unit 400 ; 600 ; 800 or coating module 400 ; 600 ; 800 , The first frame 427 ; 627 ; 827 preferably has at least two, in particular with respect to the transverse direction A spaced side walls 428 ; 628 ; 828 on. More preferably, the at least one printhead 416 ; 616 ; 816 on the transverse direction A covered between the at least two side walls 428 ; 628 ; 828 of the first frame 427 ; 627 ; 827 arranged.

The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that along the for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path before the at least one primer module 400 and / or before the at least one non-impact print module 600 at least one as substrate supply device 100 trained module 100 is arranged. The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that along the for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path before the at least one primer module 400 and / or before the at least one non-impact print module 600 at least one cleaning device 201 for substrate 02 , in particular printing material 02 and / or bow 02 is arranged.

In the following, different embodiments and / or design possibilities of the at least one substrate supply device 100 described. Different combinations of individual configurations are possible. The substrate supply device 100 is preferably independent of other aggregates 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 trained, as far as no contradictions arise. For example, stacks 104 manually and / or by means of an automated system of the substrate supply device 100 supplied, in particular in the form of preferably on carrier units 113 arranged stacks 104 , Such carrier units 113 are for example pallets 113 , stack 104 as such, of the substrate supply device 100 be supplied or were, for example, as a feeder pile 104 designated. The carrier units 113 or pallets 113 preferably have correspondingly oriented grooves, for example, for an intervention of stack carriers, in particular to bow 02 and / or stacks 104 from the carrier units 113 or pallets 113 to solve.

The at least one substrate supply device 100 is used preferably to bow 02 a pile 104 or partial stack 106 to singulate and more preferably singulated one or more subsequent aggregates 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 supply. The at least one substrate supply device 100 has, for example, at least one stack turning device 101 or sheet turning device on. The pile turning device 101 serves preferably to at least a plurality of sheets 02 having stack 104 or partial stack 106 to turn as a whole. A turning of the bows 02 For example, it makes sense if two opposing main surfaces of the bow 02 differ from each other and a subsequent processing should take place on a particular of these major surfaces. This is the case regardless of whether the bow 02 individually turned or whether the pile 104 as a whole is turned or whether partial pile 106 be turned. For example, this is true when the bow 02 already before joining them to the stack 104 have been edited and / or if the bow 02 have distinguishable main surfaces. Such distinguishable main surfaces arise, for example, due to the production of corrugated cardboard sheets 02 ,

A pile retention area 102 is an area 102 , especially room area 102 in which at least during operation of the processing machine 01 at least temporarily that stack 104 is arranged for the subsequent processing of his bow 02 is split. The pile retention area 102 In this case, it preferably encompasses the entire spatial area that is necessary for arranging such a stack 104 is provided, in particular regardless of whether the stack 104 Filling out less space would be possible, for example because its bow 02 already partially isolated or have a smaller than a maximum possible format. This pile 104 is preferably the feeder pile 104 , The at least one pile turning device 101 is with respect to an intended transport path of the bow 02 for example, the pile retention area 102 upstream. Alternatively or additionally, at least one stack turning device 101 with regard to the intended transport path of the bow 02 the stack holding area 102 downstream. Then the pile turning device 101 preferably as a partial stack turning device 101 educated. For example, a partial stack separator 103 arranged, which serves a particular upper part of stack 106 from that in the stack holding area 102 arranged stacks 104 separate.

The substrate supply device 100 indicates regardless of whether a pile turning device 101 or a partial stack turning device 101 is arranged or not preferred at least one separating device 109 or sheet singulator 109 on. Optionally, there are several separating devices 109 arranged, in particular with respect to the transport direction T spaced and / or in a row.

The at least one separating device 109 or sheet singulator 109 isolated the bows 02 of the pile 104 or partial stack 106 preferably at least partially. The at least one separating device 109 or sheet singulator 109 isolated the bows 02 of the pile 104 or partial stack 106 in at least one embodiment from below and in at least one other embodiment from above.

A partial or complete separation of the bows 02 of the pile 104 or partial stack 106 From below, in a first embodiment, a sheet separating device takes place 109 for example, by the stack 104 or partial stack 106 on at least one lower translation element 111 , in particular a lower transport 111 lying in particular continuously, for example in the transport direction T is transported and thereby at least partially against an obstacle 112 that runs just a lower portion of the stack 104 or partial stack 106 can happen, for example, only a sheet 02 or two sheets 02 or a few bows 02 , The height of the obstacle 112 is preferred to the thickness of the bow 02 and / or adapted to a desired type of singulation. As a height-adjustable obstacle 112 becomes, for example, a weir 112 used, preferably as a plate 112 is trained. For example, this will be the entire stack 104 sporadically or incompletely isolated, so scaly, especially if no Teilstapelabtrenner 103 is arranged. However, the stack is preferred 104 by means of the partial stack separator 103 successively in partial stacks 106 split, which are then turned or transported unfashionably and then sporadically or incompletely isolated, so be geschuppt.

The lower translation element 111 is for example as a suction transport 111 , in particular as a suction belt 111 and / or Saugkastenband 111 and / or roller suction system 111 educated. Preferably comes as a lower translation element 111 in this case, however, at least a relatively simple conveyor belt 111 used, which has no suction device. At this point is an exact location of the bow 02 preferably still not necessary, since this exact position preferably only in a later subsequent treatment by means of at least one further separating device 109 and / or by means of an investment device 300 will be produced. The at least one investment facility 300 is part of the substrate supply device 100 or trained independently.

A singling of the bow 02 of the pile 104 or partial stack 106 or in particular a storage stack or plant stack from below takes place in a second embodiment of a sheet separating device 109 for example, by the stack 104 or partial stack 106 or storage stacks or asset stacks in a storage device 134 is stored and at least one in particular primary accelerator 136 to preferably controlled and / or regulated selected times with a respective lowest bow 02 of the pile 104 or partial stack 106 or storage stack or plant stack is brought into contact and / or controlled and / or regulated on this lowest sheet 02 acts. In the foregoing and in the following, there is talk of a storage stack formed as an investment stack, if the separation from below by means of this sheet separation device 109 is described. This is independent of whether previously another, for example, partial separation from below or from above has already taken place, or this system stack was pretreated differently or as a whole during its first supply to the substrate supply device 100 directly into the storage device 134 was introduced.

In an alternative or additional development, the preferred is as a sheet-fed press 01 trained processing machine 01 preferably characterized in that a through the at least one primary accelerating agent 136 designated respective portion of the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path has a minimum radius of curvature which is at least 2 meters and / or in the entire range of the respective primary accelerating means 136 has a direction which is at most 30 ° from at least one horizontal direction and / or from the transport direction T differs.

The preferred as a sheet-fed press 01 trained processing machine 01 and in particular the substrate supply device 100 preferably has at least one storage device 134 for at least one memory stack of sheets 02 on. The storage device 134 is preferred relative to that for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path to the stack holding area 102 arranged. For example, two memory stacks are provided, one of which is designed as an investment stack and one as a buffer stack. By means of the substrate feed device, preference is given 100 from a first pile 104 , for example, as feeder pile 104 is formed, native arch 02 the storage device 134 and in particular the at least one memory stack, in particular fed from above. Preferably, the at least one storage device 134 the at least one separating device acting from below 109 on, which is adapted to a respective lowest bow 02 a storage stack and in particular a plant stack to remove individually.

The storage device 134 preferably has at least one front stop 137 on, preferably as a front wall 137 is formed and / or as an anterior 127 serves. Alternatively or additionally, a separate front brand 127 arranged.

The storage device 134 preferably has at least one side stop 139 on, preferably as a side wall 139 is trained. Further preferred are with respect to the transverse direction A on both sides of the storage device 134 side stops 139 arranged. Alternatively or additionally, at least one separate page mark 128 arranged. The storage device 134 preferably has at least one backgauge 141 on, preferably as a back wall 141 is trained. The at least one backstop 141 is with respect to the transport direction T arranged in front of the at least one memory stack.

The separating device 109 preferably has at least one in particular primary accelerating agent 136 on, in particular for accelerating a respective lowermost sheet 02 the at least one storage stack or plant stack, more preferably in the transport direction T , The at least one primary accelerator 136 is preferably arranged below the at least one storage stack, more preferably below the at least one investment stack, and even more preferably also further below the at least one buffer stack. The at least one primary accelerator 136 is for example as at least one transport role 136 and / or as at least one conveyor belt 136 and / or as at least one suction transport means 136 , in particular suction belt 136 and / or Saugkastenband 136 and / or roller suction system 136 and / or suction pad 136 and / or suction roller 136 formed and / or preferably has at least one conveyor belt 718 ; 726 on. The above in the preceding and hereinafter described on suction transport means preferably applies accordingly. For example, there are several primary accelerators 136 arranged, in particular in the form of several transport rollers 136 and / or several conveyor belts 136 ; 718 ; 726 and / or a plurality of suction transport means 136 , For example, there are several primary accelerators 136 with respect to the transport direction T arranged one behind the other. Alternatively or additionally, this has at least one primary acceleration agent 136 at least two, more preferably at least three, even more preferably at least five and even more preferably at least seven with respect to the transverse direction A from each other by intermediate spaces separate transport surfaces 718 and in particular conveyor belts 718 ; 726 on. It is preferred that the at least two, preferably at least three, still more preferably at least five and even more preferably at least seven with respect to the transverse direction A from each other through spaces separated transport surfaces 718 and / or conveyor belts 718 ; 726 the at least one primary accelerator 136 by means of a common primary drive M101 are drivable.

At least one spacer is preferred 144 ; 144.1 ; 144.2 arranged. The at least one spacer 144 ; 144.1 ; 144.2 is preferably used, the at least one primary accelerator 136 at least temporarily and / or controlled and / or regulated by any bow 02 to be able to keep away. For example, there is a bow 02 or several sheets 02 or a pile of bows 02 at least temporarily on the at least one spacer 144 ; 144.1 ; 144.2 on. The at least one primary accelerator 136 and the at least one spacer 144 ; 144.1 ; 144.2 are preferably relative to each other at least with respect to the vertical direction V movably arranged, in particular by vertical mobility of the at least one spacer 144 ; 144.1 ; 144.2 and / or by vertical mobility of the at least one primary accelerating means 136 ,

In a holding position is the respective bottom sheet 02 of the investment pile on the spacer 144 ; 144.1 ; 144.2 on without the primary accelerators 136 to touch. Will then the at least one spacer 144 ; 144.1 ; 144.2 lowered and / or the at least one primary acceleration means 136 lifted, comes the respective lowest bow 02 of the asset stack with the corresponding at least one primary accelerator 136 in contact. By suitably driving the at least one primary accelerator 136 will this bow 02 in the transport direction T moved forward.

The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that a plurality of spacers 144.1 ; 144.2 independent of each other at least with respect to the vertical direction V are movably arranged, for example, at least a first spacer 144.1 and at least a second spacer 144.2 , (An example of this is in 14b to see.)

The at least one primary accelerator 136 is preferably used alone or more preferably in cooperation with at least one further, in particular secondary, accelerating agent 119 always exactly one sheet 02 , which is already preferred with respect to the transport direction T and / or the transverse direction A was aimed to accelerate. Preferred is along a for a transport of bow 02 provided transport path after the at least one primary acceleration means 136 at least one secondary accelerator 119 is arranged. This acceleration takes place for example from a temporary standstill and / or to a processing speed and / or coating speed and / or printing speed, with which at least one sheet 02 at this and / or a later date by at least one other aggregate 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 or module 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 is transported and processed there.

Preference is given to the at least one primary accelerating agent 136 with respect to the transport direction T at least one outgoing means of transport 119 the substrate supply device 100 downstream. This is, for example, as at least one transport roller 119 or at least a pair of transport rollers 119 or as at least one suction transport means 119 educated. For example, this is at least one outgoing means of transport 119 also an accelerator 119 , in particular the at least one secondary accelerating agent 119 , This is preferably at least one secondary accelerating agent 119 as a suction transport 119 formed and / or has the at least one secondary acceleration means 119 at least one conveyor belt 718 ; 726 on. For example, this has at least one secondary accelerator 119 at least two, preferably at least three, more preferably at least five and even more preferably at least seven with respect to the transverse direction A from each other by intermediate spaces separate transport surfaces 718 and in particular conveyor belts 718 ; 726 on. It is preferred that the at least two, preferably at least three, still more preferably at least five and even more preferably at least seven with respect to the transverse direction A from each other through spaces separated transport surfaces 718 and / or conveyor belts 718 ; 726 the at least one secondary accelerator 119 by means of a common secondary drive M102 are drivable.

In an alternative or additional development, the preferred is as a sheet-fed press 01 trained processing machine 01 preferably characterized in that a through the at least one secondary accelerating agent 119 designated respective portion of the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path has a minimum radius of curvature which is at least 2 meters and / or in the entire range of the respective primary accelerating means 119 has a direction which is at most 30 ° from at least one horizontal direction and / or from the transport direction T differs.

The at least one front stop 137 and / or the at least one front mark 127 preferably serves to align the bow 02 of the investment pile. For example, the at least one front stop 137 and / or the at least one front mark 127 at least temporarily arranged so that they at least on the second arc 02 from the bottom of the investment pile influences and / or out of contact with the bottom sheet 02 of the investment pile stands. Alignment is then for example by the on the bottom sheet 02 lying arch 02 by transporting the lowest bow 02 against the at least one front stop 137 and / or the at least one front mark 127 is pressed and aligned before he himself with the at least one in particular primary acceleration means 136 comes in contact, which then preferably still stands still.

It is preferred that the at least one front stop 137 in his in the vertical direction V arranged position is arranged changeable. Preferably, the at least one front stop 137 and / or the at least one front mark 127 adjustable in height to accommodate different thicknesses of bow 02 to be adapted. Preferably, the sheet feeder unit 100 at least one front stop 137 on that along the for transporting substrate 02 , in particular printing material 02 and / or bow 02 provided transport path between the at least one primary acceleration means 136 on the one hand and the at least one secondary acceleration means 119 on the other hand is arranged. For example, if the Substratatzufuhreinrichtung 100 at least one front-end mark 127 and / or at least one front stop 137 has, which is the investment facility 300 preferably part of the substrate supply device 100 and more preferably part of the singulator 109 ,

An adaptation to different widths of sheets to be processed is preferred 02 possible. Below the width of an arch 02 is in particular its dimension in the transverse direction A to understand. For example, the preferred is as a sheet-fed press 01 trained sheet processing machine 01 characterized in that the sheet feeder module 100 at least one as a suction belt 119 ; 136 ; 311 trained suction transport 119 ; 136 ; 311 and this at least one suction belt 119 ; 136 ; 311 at least three with respect to a transverse direction A spaced side by side conveyor belts 119 ; 136 ; 718 ; 726 and more preferably at least one displacement means 158 ; 159 is arranged by means of at least one of the at least three conveyor belts 119 ; 136 ; 718 ; 726 in and / or against the transverse direction A is laterally displaceable. This is preferably at least one primary accelerating agent 136 as a suction belt 119 ; 136 ; 311 formed with these properties and / or that is at least a secondary accelerating agent 119 as a suction belt 119 ; 136 ; 311 formed with these properties. The at least one side stop and / or the at least one side mark 128 is preferably given by the fact that the side stops 139 , especially sidewalls 139 , with respect to the transverse direction A movable and in particular to a width of the bow 02 adapted to be arranged. This allows the bow 02 at her by removal of the lowest bow 02 conditional and preferably downward movement on the side walls 139 slide along and placed in an aligned position and / or held in this.

Preference is given to areas of accelerators 119 ; 136 and / or conveyor belts 119 ; 136 ; 718 ; 726 that is outside the width of the currently processed sheet 02 lie, covered by at least one protective cover. This at least one protective cover is formed, for example, as at least one telescopic plate. Alternatively, at least one active, in particular driven by a drive movement of the arc 02 against at least one side stop 139 provided, for example, at a substantially and / or at least with respect to the transport direction T resting bow 02 , A lateral alignment takes place, for example, before and / or during and / or after the acceleration of the bow 02 with respect to the transport direction T , Alternatively or in addition to mechanical front stops 137 and / or side stops 139 corresponding position sensors are arranged, which with a correspondingly precise drive the respective arc 02 move and / or pause in the respective direction and / or move superimposed during its transport movement to align it.

In an alternative or additional development, the preferred is as a sheet-fed press 01 trained processing machine 01 preferably characterized in that at least one sheet sensor 164 the substrate supply device 100 for detecting a respective leading edge and / or a respective trailing edge of respective sheets 02 arranged aligned to the intended transport.

In an alternative or additional development, the preferred is as a sheet-fed press 01 trained processing machine 01 preferably characterized in that the at least one secondary accelerating agent 119 as a suction transport 119 is formed and only below the substrate for transport 02 , in particular printing material 02 and / or bow 02 provided transport path is arranged and / or that the at least one primary acceleration means 136 as a suction transport 136 is formed and only below the substrate for transport 02 , in particular printing material 02 and / or bow 02 provided transport path is arranged and / or that the at least one primary acceleration means 136 below one for storing a stack of sheets 02 intended storage area 134 is arranged and / or that the at least one primary acceleration means 136 in particular as a whole by means of at least one as a vertical drive M104 designated drive M104 at least with respect to a vertical direction V is movably arranged, in particular relative to the primary drive M101 ; M103 , This vertical drive is preferred M104 as an engine M104 , in particular electric motor M104 and more preferably position-controlled electric motor M104 trained and / or is a drive control of this vertical drive M104 directly or indirectly connected to the machine control and / or connected via the BUS system with the machine control and / or with other drive controls, for example that of the drive of the primary accelerator 136 and / or that of driving the secondary accelerator 119 and / or that of the own drive of the processing module 400 ; 600 ; 800 ; 900 ,

An adaptation to different lengths of sheets to be processed is preferred 02 possible. Below a length of a bow 02 is in particular its dimension in the transport direction T and / or its horizontal, orthogonal to the transverse direction A to understand oriented dimensions. The adaptation preferably takes place in that the at least one front stop 137 and / or more preferably the at least one backgauge 141 with respect to the transport direction T is movable and / or moved and in particular on the length of the bow 02 is customizable and / or arranged.

Alternatively or additionally, the substrate supply device is characterized 100 characterized in that the Substratzufufhrehreinrichtung 100 at least one with respect to the transport direction T after the storage device 134 arranged transport 119 having in its in the transport direction T formed effective length is formed changeable.

The at least one buffer stack serves, in particular, for a continuous supply of arc 02 to secure. In particular corrugated cardboard sheet 02 have relatively large thicknesses, ie dimensions in the vertical direction V on. This will pile up 104 of corrugated cardboard sheet 02 processed particularly quickly by separation. For an uninterrupted supply of sheets 02 to the processing machine 01 is therefore a buffer of arcs 02 advantageous, which can be at least partially processed while the feeder pile 104 exchanged or renewed.

Preference is given to bows 02 the storage device 134 fed from above. Further preferred are these bows 02 the storage device 134 completely isolated or at least partially isolated. The bows are preferred 02 the storage device 134 fed by first a feeder pile 104 be removed.

This separation before feeding into the storage device 134 takes place, for example, as already described from below, in particular by means of a lower transport 111 lying on the bow 02 as a stack 104 or preferably as a partial stack 106 at least partially against the obstacle 112 and thereby depending on the setting of the obstacle 112 sporadically or incompletely isolated, so be scalped.

An alternative at least partial separation of the bow 02 in particular as a feeder pile 104 trained piles 104 or a partial stack 106 From above, it is preferable to use each time a sheet is taken 02 a major part of the pile 104 with respect to the transport direction T at least substantially unchanged and only if necessary continuously or incrementally raised. The substrate supply device preferably has 100 at least one from above on bow 02 of the pile 104 acting and / or capable of acting extraction device 114 on. By means of at least one removal device 114 is preferably a respective top sheet 02 of the pile 104 individually detectable and / or further transportable. The at least one withdrawal device 114 has, for example, at least one preferred as a lifting element 116 and / or holding element 116 trained handling element 116 on, preferably as at least one lifting sucker 116 and / or as at least one separating sucker 116 and / or as at least one transport suction 116 is trained.

For example, this is at least one handling element 116 , in particular lifting element 116 and / or holding element 116 on the at least one upper translation element 117 arranged and movable together with this, in particular in and against the vertical direction V and / or in and against the transport direction T , The removal device 114 is then in this regard, for example, as a well-known sheet separator 114 built up. By means of such a sheet separator 114 becomes a topmost bow 02 recorded, in particular sucked, then preferably at least slightly raised and at least in the intended direction of transport T moved until it comes into an area of influence of another device that continues its transport.

In one embodiment, this is at least one lifting element 116 movable so far that a bow held by him 02 with the at least one upper translation element 117 in contact device, in particular with its transport surface 718 or counter-pressure surface 718 , and of the at least one upper translational element 117 at least in the transport direction T is transportable, while still the at least one lifting element 116 At least also ensures that the bow 02 against the at least one upper transport element 117 is pulled.

Regardless of further embodiments of the at least one Substratzufufhreinrichtung 100 this preferably has at least one outgoing means of transport 119 on, which is further preferred as a suction transport 119 and / or as at least one transport roller 119 or at least one pair of transport rollers forming a transport nip 119 and / or as at least one pair of conveyor belts forming a transport nip 119 is trained. The outgoing means of transport 119 serves, for example, to be processed substrate 02 , in particular printing material 02 and / or bow 02 from the substrate supply device 100 dissipate, in particular to an output 121 the substrate supply device 100 out. For example, at least one in particular with the outgoing means of transport 119 cooperating pressure roller 122 and / or pressure roller 122 arranged.

The substrate supply device 100 In particular, independently of the separation from above and / or from below, preferably has at least one own drive M100 or engine M100 , in particular electric motor M100 or position-controlled electric motor M100 on, which further preferably at least one means of transport 111 ; 117 ; 119 the substrate supply device 100 driving and / or driving is arranged. In particular, if at least one accelerator 119 ; 136 is arranged, the Substratatzufuhreinrichtung has 100 preferably at least one first further drive M101 ; M103 or engine M101 ; M103 , in particular electric motor M101 ; M103 or position-controlled electric motor M101 ; M103 further preferably at least one accelerating agent 119 ; 136 the substrate supply device 100 driving and / or driving is arranged. The at least one first further drive M101 ; M103 becomes also primary drive M101 ; M103 or primary acceleration drive M101 ; M103 the substrate supply device 100 called. For example, the substrate supply device 100 preferably at least a second further own drive M102 or engine M102 , in particular electric motor M102 or position-controlled electric motor M102 on, which further preferably at least one outgoing means of transport 119 and / or at least one after the at least one in particular primary acceleration means 136 on bow 02 acting and / or capable of acting transport 119 or secondary accelerator 119 the substrate supply device 100 driving and / or driving is arranged. At least the first further drive is preferred M101 ; M103 and / or at least the second further drive M102 independent of other drives M100 ; M101 ; M102 ; M103 the Substratzufuhreinrichtung drivable.

In an alternative or additional development, the preferred is as a sheet-fed press 01 trained sheet processing machine 01 preferably characterized in that it has at least one aggregate 100 ; 300 has, at least one as a suction belt 119 ; 136 ; 311 trained suction transport 119 ; 136 ; 311 for transporting bows 02 in a transport direction T having. Alternatively or additionally, this has at least one suction belt 119 ; 136 ; 311 at least three with respect to a transverse direction A spaced side by side conveyor belts 119 ; 136 ; 718 ; 726 on, wherein at least one displacement means 158 ; 159 is arranged by means of at least one of the at least three conveyor belts 119 ; 136 ; 718 ; 726 in and / or against the transverse direction A is laterally displaceable, in particular adjustable laterally displaceable and / or relative to at least one particular stationary frame 162 this at least one aggregate 100 ; 300 , The at least three juxtaposed conveyor belts 119 ; 136 ; 718 ; 726 are therefore preferred not only with respect to the transverse direction A but arranged by a respective one of these at least three conveyor belts 119 ; 136 ; 718 ; 726 starting in and / or against the transverse direction A at least one other of the at least three conveyor belts is seen 119 ; 136 ; 718 ; 726 arranged.

Due to the displaceability of at least one conveyor belt 119 ; 136 ; 718 ; 726 becomes an adaptation to a width and / or a position of sheets to be processed 02 allows. Are several conveyor belts 119 ; 136 ; 718 ; 726 arranged side by side, so arise depending on the width of the bow 02 and location of conveyor belts 119 ; 136 ; 718 ; 726 different situations. Ideally, they are in the transverse direction A related ends of the bow 02 each on a conveyor belt 119 ; 136 ; 718 ; 726 on. However, because, for example, with respect to the transverse direction A between conveyor belts 119 ; 136 ; 718 ; 726 each intermediate spaces and in particular suction openings 722 are arranged, there are various hazards. For one thing, one on the transverse direction A related end of a respective arc 02 for example, over a suction opening 722 lie and then from the negative pressure at least partially into the suction port 722 to be pulled. This would possibly lead to a bending of the respective bow 02 which in turn give rise to problems and / or inaccuracies in transportation and / or further processing of the sheet 02 can lead. Furthermore, there is a risk that a bow 02 whose on the transverse direction A Covered end only to a very limited extent on a conveyor belt 119 ; 136 ; 718 ; 726 is, for example, two millimeters or less, with this end in a suction port 722 is pulled, thereby laterally in contact with the conveyor belt 119 ; 136 ; 718 ; 726 device and thereby with respect to the transverse direction A is moved.

Due to the displaceability of at least one conveyor belt 119 ; 136 ; 718 ; 726 Such situations can be avoided or at least mitigated, for example by at least one conveyor belt 119 ; 136 ; 718 ; 726 or preferably more or more preferably all juxtaposed conveyor belts 119 ; 136 ; 718 ; 726 with respect to the transverse direction A be shifted and thereby in the area of the transverse direction A related ends of the bow 02 advantageous conditions are created.

In an alternative or additional development, the preferred is as a sheet-fed press 01 trained sheet processing machine 01 preferably characterized in that the at least one unit 100 ; 300 at least one especially during operation of the sheet processing machine 01 fixedly arranged side stop 139 and / or at least one especially during operation of the sheet processing machine 01 fixedly arranged side mark 128 for aligning bows 02 with respect to the transverse direction A having. This at least one side stop 139 and / or these at least one page mark 128 is preferred in his or her to the transverse direction A adjustable position adjustable and / or is preferably used for aligning sheets 02 with respect to the transverse direction A , Therefore, he or she is particularly preferred during operation of the sheet processing machine 01 stationary. Preferably, the at least one is especially during operation of the sheet processing machine 01 fixedly arranged side stop 139 for aligning bows 02 with respect to the transverse direction A in his on the transverse direction A related position regardless of the on the transverse direction A related location of at least three conveyor belts 119 ; 136 ; 718 ; 726 adjustable and / or is the at least one in particular during operation of the sheet processing machine 01 fixedly arranged side mark 128 for aligning bows 02 with respect to the transverse direction A in their on the transverse direction A related position regardless of the on the transverse direction A related position of the at least three conveyor belts 119 ; 136 ; 718 ; 726 adjustable. For example, this has at least one aggregate 100 ; 300 at least two as described executed side stops 139 and / or at least two side marks executed as described 128 for aligning bows 02 with respect to the transverse direction A on. In particular, the at least one side stop 139 and / or the at least one side marker 128 preferred relative to a frame 162 of the at least one aggregate 100 ; 300 arranged movable and / or adjustable, which is further preferably arranged stationary. The at least three juxtaposed conveyor belts 119 ; 136 ; 718 ; 726 are preferably at least partially in the transverse direction A next to the at least one side stop 139 and / or the at least one side marker 128 arranged. That at least one aggregate 100 ; 300 is preferred as at least one sheet feeder unit 100 and / or as at least one investment aggregate 300 educated. Alternatively, this is at least one aggregate 100 ; 300 as a conditioning aggregate 200 ; 550 and / or as a coating unit 400 ; 600 ; 800 and / or as a transport unit 700 and / or as a shaping device 900 and / or as a substrate delivery device 1000 educated.

In an alternative or additional development, the preferred is as a sheet-fed press 01 trained sheet processing machine 01 and / or the substrate supply device 100 preferably characterized in that the at least one unit 100 ; 300 at least one with respect to the transverse direction A movable transport assembly 136 ; 161 ; 163 ; 718 ; 726 and that these at least one transport assembly 136 ; 161 ; 163 ; 718 ; 726 at least one of the at least three conveyor belts 119 ; 136 ; 718 ; 726 and at least two of these at least one of the at least three conveyor belts 119 ; 136 ; 718 ; 726 associated deflection 163 and at least one support frame 161 which preferably together with respect to the transverse direction A are arranged movable and that these at least one transport assembly 136 ; 161 ; 163 ; 718 ; 726 by means of the at least one displacement means 158 ; 159 in and / or against the transverse direction A is arranged displaceably. More preferably, this transport assembly 136 ; 161 ; 163 ; 718 ; 726 several and even more preferred all conveyor belts 119 ; 136 ; 718 ; 726 the at least one suction belt 119 ; 136 ; 311 this aggregate 100 ; 300 on. The at least one means of displacement 158 preferably has at least one manual drive 159 and / or at least one electric drive 159 and / or at least one pneumatic drive 159 and / or at least one hydraulic drive 159 on. As a manual drive 159 For example, at least one handwheel is provided.

In an alternative or additional development, the preferred is as a sheet-fed press 01 trained sheet processing machine 01 preferably characterized in that from the amount of the at least one suction belt 119 ; 136 ; 311 at least one, for example, the at least one first suction belt 119 ; 136 ; 311 , as a primary accelerator 136 the separating device 109 of the at least one aggregate 100 ; 300 is formed and / or that at least one, more preferably at least one other or further suction belt 119 ; 136 ; 311 from the amount of at least one suction belt 119 ; 136 ; 311 as a secondary accelerator 119 a separating device 109 of the at least one aggregate 100 ; 300 is trained.

In an alternative or additional development, the at least one substrate supply device is characterized 100 preferably characterized in that at least one primary accelerating agent 136 below one for storing a stack of sheets 02 a substrate 02 intended storage area 134 the substrate supply device 100 is arranged and / or that more preferably at least two and more preferably at least four and / or at least six primary acceleration means 136 with respect to a transverse direction A next to each other and below one for storing a stack of sheets 02 a substrate 02 intended storage area 134 the substrate supply device 100 are arranged. The at least one substrate supply device is preferably characterized 100 alternatively or additionally by the fact that the Substratatzufuhreinrichtung 100 at least one especially stationary frame 162 and at least one by means of a vertical drive M104 relative to the at least one frame 162 at least with respect to a vertical direction V movable lifting frame 166 ; 173 ; 174 having. The at least one primary accelerator 136 is preferably at least partially and more preferably completely of the at least one lifting frame 166 ; 173 ; 174 worn arranged.

If one with respect to the transverse direction A movable support frame 161 is arranged, then the at least one lifting frame 166 ; 173 ; 174 preferably together with the at least one support frame 161 with respect to the transverse direction A movably arranged and / or with respect to the vertical direction V relative to the at least one support frame 161 movably arranged. The at least one lifting frame 166 ; 173 ; 174 has, for example, at least two side plates 173 and at least one, more preferably at least two Hubtraversen 174 on, which further prefers between the side plates 173 extend.

By means of the at least one lifting frame 166 ; 173 ; 174 is preferably a displacement movement of at least one transport surface 718 the at least one primary accelerator 136 be effected, whose direction of movement has at least one vertical component and more preferably extends exclusively vertically. By this displacement movement, this is preferably at least one transport surface 718 at least movable between an upper end position and a lower end position and / or is moved accordingly.

For example, as the at least one accelerator 136 at least one conveyor belt 136 arranged. At least two primary accelerating agents are preferred 136 arranged and / or are several such conveyor belts 136 with respect to the transverse direction A arranged side by side. For example, at least one with suction openings 722 provided cover plate 193 arranged, more preferably between at least two primary acceleration means 136 , The at least one cover plate 193 is in particular a cover plate 193 at least one corresponding vacuum chamber 719 , The at least one cover plate is preferably together with the at least one lifting frame 166 ; 173 ; 174 movably arranged. The negative pressure causes bow 02 then against the cover plate 193 and / or against the conveyor belts 136 pulled and can be accelerated. Preferably, assemblies are arranged, which further preferably each at least one holding framework 194 and / or at least one vacuum chamber 719 and / or at least one cover plate 193 and / or at least one and more preferably at least two and even more preferably at least four deflection means 163 and / or at least one shaft section 171 and / or at least one sliding guide 188 and / or at least one compensation eccentric 189 and / or at least one and further preferably in each case at least two conveyor belts 136 respectively. These assemblies are preferably each on the at least one lifting frame 166 ; 173 ; 174 attached and / or together with the at least one lifting frame 166 ; 173 ; 174 movably arranged and / or at least partially as part of the at least one lifting frame 166 ; 173 ; 174 educated. These assemblies are preferably interconnected by their shaft sections 171 in particular via at least partially apparent couplings 172 in particular to a common wave 169 are connected.

In an alternative or additional development, the at least one substrate supply device is characterized 100 preferably characterized in that at least one height adjustment 167 ; 176 ; 177 ; 178 ; 179 is arranged, by means of the at least one upper end position of the means of at least one vertical drive M104 effect at least vertical movement path of the at least one primary acceleration means 136 independent of the at least one vertical drive M104 as one of at least three different end positions is adjustable and / or continuously adjustable. The end positions are independent of the vertical drive M104 adjustable.

The at least one height adjustment means 167 ; 176 ; 177 ; 178 ; 179 For example, has at least one Höheneinstellexzenter 176 and / or at least one Höheneinstellwelle 177 and / or at least one height adjustment lever 178 and / or at least one deflection means 179 on.

In an alternative or additional development, the at least one substrate supply device is characterized 100 preferably characterized in that the at least two primary acceleration means 136 in each case at least one individual height compensation means 186 to the individual Adaptation of a particular at least the vertical direction V Relative relative position of the respective transport surface 718 of the respective primary accelerating agent 136 on the one hand and the at least one lifting frame 166 ; 173 ; 174 assigned on the other. This applies in particular independently of the preferred at least in the vertical direction V Relative relative position respective transport surfaces 718 another of the at least two primary accelerators 136 on the one hand and the at least one lifting frame 166 ; 173 ; 174 on the other hand. Then results preferably a substrate supply 100 , wherein at least two primary acceleration means 136 with respect to a transverse direction A next to each other and below one for storing a stack of sheets 02 a substrate 02 intended storage area 134 the substrate supply device 100 are arranged and wherein the Substratzufufhrehreinrichtung 100 at least one especially stationary frame 162 and at least one by means of a vertical drive M104 relative to the at least one frame 162 at least with respect to a vertical direction V movable lifting frame 166 ; 173 ; 174 and wherein the at least two primary acceleration means 136 preferably at least partially and more preferably completely from the at least one lifting frame 166 ; 173 ; 174 worn and preferably at least partially and more preferably completely at the same time together with each other and with the at least one lifting frame 166 ; 173 ; 174 in the vertical direction V are movably arranged and wherein the at least two primary acceleration means 136 in each case at least one individual height compensation means 186 for individual adaptation of a particular at least in the vertical direction V Relative relative position of the respective transport surface 718 of the respective primary accelerating agent 136 on the one hand and the at least one lifting frame 166 ; 173 ; 174 on the other hand, in particular independently of the preferred at least in the vertical direction V Relative relative position respective transport surfaces 718 another of the at least two primary accelerators 136 on the one hand and the at least one lifting frame 166 ; 173 ; 174 assigned on the other.

In an alternative or additional development, the at least one substrate supply device is characterized 100 preferably characterized in that the at least two primary acceleration means 136 as conveyor belts 136 and / or as a suction transport 136 and / or as suction belts 136 are formed and / or that as the at least one individual height compensation means 186 at least one a respective conveyor belt 136 and / or suction belt 136 in its position holding sliding guide 188 and / or at least one a respective conveyor belt 136 and / or suction belt 136 holding in its position deflection 163 arranged and in particular at least in the vertical direction V relative position relative to the at least one lifting frame 166 ; 173 ; 174 is customizable.

In an alternative or additional development, the at least one substrate supply device is characterized 100 preferably characterized in that each of the at least two primary accelerating agents 136 at least one body of revolution 163 ; 187 each having an at least two primary acceleration means 136 common wave 169 is driven. The common wave 169 preferably has at least two shaft sections 171 on, with respect to a transverse direction A are arranged one behind the other. Preferred are with respect to the transverse direction A directly adjacent shaft sections 171 the common wave 169 in each case via an at least removable and / or at least partially revealable coupling 172 connected arranged.

The respective rotational body is preferred 163 ; 187 , each of which has at least two primary acceleration means 136 common wave 169 is driven, as a deflection 163 formed, in particular as a deflection 163 a respective conveyor belt 136 and / or suction bands 136 ,

In an alternative or additional development, the at least one substrate supply device is characterized 100 preferably characterized in that the at least one primary acceleration drive M101 ; M103 rigid relative to the frame 162 and / or relative to that of the lifting frame 166 ; 173 ; 174 different support frame 161 is arranged and / or at least over at least one propeller shaft 91 and / or via at least one torque transmission means 192 with the common wave 169 connected is. Such a torque transmission means 192 is for example as a belt 192 and / or as a chain 192 and / or as a gear 192 educated.

For example, the bow 02 from the substrate supply device 100 directly to an investment facility 300 supplied, for example, also part of the Substratzufufhrehreinrichtung 100 can be. Alternatively, the bows 02 initially at least one preparation facility 200 fed.

For example, at least one preparation device 200 on the intended transport path based on a Substratzufufhreinrichtung 100 and / or at least one coating unit 400 ; 600 ; 800 arranged. The at least one preparation device 200 preferably has at least one Einwirkeinrichtung 201 on.

The at least one Einwirkeinrichtung 201 is for example as calender 201 and / or as moistening device 201 and / or as a discharge device 201 and / or as an inerting device 201 and / or as a cleaning device 201 and / or as a deburring device 201 and / or as an inspection device 201 educated. A cleaning device 201 is for example as a suction device 201 and / or as a blowing device 201 and / or as a stripping device 201 formed and / or is preferably used for removal of pieces of paper and / or dust. An inspection facility 201 has, for example, at least one and preferably several, in particular at least two, in particular optical sensors, which are designed for example as a camera and / or in particular in the transverse direction A are preferably arranged mechanically movable. By means of such sensors can be, for example, an alignment of incoming sheet 02 especially for further processing. Alternatively or additionally, these sensors serve to detect and / or check the dimensions of the sheets 02 For example, for comparison with order data.

The preparation device 200 preferably has at least one means of transport 211 on, which is further preferred as a suction transport 211 is trained. The above in the preceding and hereinafter described on suction transport means preferably applies accordingly. The preparation device 200 preferably has at least one own drive M200 or engine M200 , in particular electric motor M200 or position-controlled electric motor M200 on, the further preferred that at least one means of transport 211 driving and / or driving is arranged. For example, the preparing means 200 at least one pressure roller 202 or pressure roller 202 on, by means of the bow 02 against the at least one means of transport 211 can be acted upon with a force.

The one by the preparation device 200 fixed section of for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path is preferably substantially flat and more preferably completely flat and is preferably formed substantially and more preferably exclusively horizontally extending.

Preferably, the preferred is as an aggregate 200 and / or module 200 trained preparation facility 200 alternatively or additionally characterized in that by the preparation device 200 fixed section of for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path on an entrance level of the preparation device 200 begins and / or at an initial level of the preparatory device 200 ends. Preferably, the preparation device is characterized 200 characterized in that this input height of the preparation device 200 deviates from the first standard height by at most 5 cm, more preferably at most 1 cm and even more preferably by at most 2 mm and / or that the initial height of the preparation device 200 deviates from the first standard height by at most 5 cm, more preferably at most 1 cm and even more preferably by at most 2 mm and / or that the respective entrance height of the preparation device 200 from the initial height of the preparation device 200 differs by at most 5 cm, more preferably at most 1 cm and even more preferably by at most 2 mm.

Preferably, in particular as a sheet-fed press 01 trained processing machine 01 alternatively or additionally, characterized in that at least one and in particular at least one further of the at least two modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 at least one drying device 500 or drying device 506 having. The drying device 500 and / or drying device 506 preferably has at least one energy delivery device 501 ; 502 ; 503 on. This drying device 500 or drying device 506 preferably has at least one as a hot air source 502 trained energy delivery device 501 ; 502 ; 503 on. For example, at least one is an infrared radiation source 501 trained energy delivery device 501 arranged. Alternatively or additionally, at least one is as a hot air source 502 trained energy delivery device 502 arranged. Alternatively or additionally, at least one is used as a UV radiation source 503 trained energy delivery device 503 arranged. Alternatively or additionally, at least one energy emitting device designed as an electron beam source is arranged. Preferably, in particular as a sheet-fed press 01 trained processing machine 01 alternatively or additionally characterized in that as at least another of the at least two modules 400 ; 600 ; 800 at least one coating module 400 ; 800 is arranged, as a primer module 400 and / or as a paint module 800 is formed and the own drying device 500 or drying device 506 having.

For example, the particular is characterized as a sheet-fed press 01 trained processing machine 01 alternatively or additionally characterized in that as the at least one further module 400 at least one as a primer module 400 trained coating module 400 is arranged, which has its own drying device 500 or drying device 506 and this drying device 500 or drying device 506 at least one as a hot air source 502 trained energy delivery device 501 ; 502 ; 503 and / or that as the at least one further module 800 at least one as a paint module 800 trained coating module 800 is arranged, which has its own drying device 500 or drying device 506 and this drying device 500 or drying device 506 at least one as a hot air source 502 trained energy delivery device 501 ; 502 ; 503 having.

An area of action of the drying device 500 or drying device 506 the at least one further of the at least two modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 , For example, the primer module 400 is with respect to the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path preferred for a job site 418 the at least one further of the at least two modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 , For example, the primer module 400 arranged. One for the transport of the bow 02 through an area of action of the drying device 500 or drying device 506 the at least one further of the at least two modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 , For example, the primer module 400 provided means of transport 417 , in particular suction transport means 417 , is preferably by means of a drive M400 ; M401 ; M600 ; M601 ; M800 ; M801 the at least one further of the at least two modules 100 ; 200 ; 300 ; 400 ; 500 ; 550 ; 600 ; 700 ; 800 ; 900 ; 1000 , For example, the primer module 400 drivable.

The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that the sheet-fed printing machine 01 several as printing modules 600 trained aggregates 600 each having at least its own drive M600 respectively. The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that the at least one pressure module 600 as a coating agent from above applying pressure module 600 is trained. The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that the at least one pressure module 600 as Non Impact Coating Unit 600 and / or as an ink jet printing unit 600 is trained.

The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that a drive control of the primary drive M101 ; M103 from a drive control of the secondary drive M102 is different and more preferred that a drive control of the drive M600 of the print module 600 from the drive control of the primary drive M101 ; M103 and the drive control of the secondary drive M102 is different. The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that a drive control of the primary drive M101 ; M103 and one of them different drive control of the secondary drive M102 and one of them different drive control of the drive M600 of the print module 600 with a machine control of the sheet-fed printing machine 01 connected by circuitry.

The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that as the at least one primary accelerating agent 136 several subsets of primary accelerators 136 are arranged, which are at least temporarily operable from subset to subset different bow speeds and / or the respective at least one only this respective subset of accelerating means 136 associated respective primary drive M101 ; M103 respectively. Each subset can be a primary accelerator 136 or more primary accelerators 136 respectively. (Examples are in 14a and 16b to see.)

The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that at least one additional device 147 for detecting erroneously transported and / or faulty sheets 02 and / or at least one additional device 147 for sorting out bows 02 and / or at least one additional device 147 for holding and / or pushing back bows 02 is arranged. (This is exemplary in 15 shown.) If the option 147 as an additional device 147 for detecting erroneously transported and / or faulty sheets 02 is formed, it serves, for example, to detect double sheets and / or bow 02 to determine which have protruding components.

An additional device 147 for sorting out bows 02 has, for example, a suction device and / or a transfer switch. For example, such an accessory 147 for sorting out at least one compression means 148 ; 149 on, by means of the bow 02 are compressible in particular with respect to their height and / or is as a compression device 147 educated. This can cause corresponding damage to printheads 416 ; 616 ; 816 be avoided, even if initially protruding components of the bow 02 were present. The corresponding bow 02 Although they are destroyed, for example, but can preferably be sorted out by means of the transport switch.

In an alternative or additional development, the preferred is as a sheet-fed press 01 trained sheet processing machine 01 preferably characterized in that along the for the transport of sheets 02 provided transport path at least one in particular as a supernatant sensor 153 trained sensor 153 for detecting at least a spatial extent of sheets 02 is arranged. The at least one overhang sensor 153 is designed, for example, as an optical sensor and / or as a light barrier and / or as an ultrasonic sensor and / or as a capacitive sensor and / or as an inductive sensor and / or as a magnetic sensor. The at least one overhang sensor 153 preferably detects a height of the horizontally transported under him bow 02 , If a part of the bow 02 , in particular a part of the front end of the arch 02 too far up, this is due to the at least one overhang sensor 153 detected. As described, in particular in multilayer sheets 02 like corrugated arch 02 Be present at cutting edges protruding areas, for example, because of cut-off splices and as a result soft individual layers. The sheet processing machine 01 preferably has at least one non-impact coating unit 400 ; 600 ; 800 and / or at least one printhead 416 ; 616 ; 816 or inkjet printhead 416 ; 616 ; 816 on. Preference is therefore given alternatively or additionally to a compression device 147 arranged, in particular as a compression device 147 trained additional equipment 147 , This compression device 147 is for example in the range of a coating unit 400 ; 600 ; 800 arranged to avoid being between the compression device 147 and the printheads 416 ; 616 ; 816 Areas are where the bow 02 is negatively changed in its form.

It is particularly preferred along the for the transport of sheets 02 provided transport path for a detection range of this at least one projection sensor 153 at least one compression device 147 arranged, which further preferably at least a first Kompressionkörper 148 and at least a second compression body 149 and even more preferably at least one force element 151 having.

An additional device 147 for holding and / or pushing back bows 02 has, for example, a suction device and / or a pushing means. Such a suction device holds, for example, a corresponding arc 02 thereby preventing it from being transported further and causing damage. Such a pushing device is designed, for example, as a roller and / or roller and / or brush and arranged in a rotating and / or rotatable manner. The direction of rotation is chosen so that one of the thrust device, for example, mediated by friction force against the transport direction of the arc 02 and / or is oriented counter to its intended transport path. For example, the processing machine 01 stopped when a faulty transported bow 02 detected and / or by means of the additional device 147 for holding and / or pushing back bows 02 was held and / or pushed back.

At least one investment device is preferred 300 on the intended transport path based on a Substratzufufhreinrichtung 100 and / or at least one coating unit 400 ; 600 ; 800 arranged. The at least one investment facility 300 preferably serves a precise alignment of sheets 02 , In this way, it can be ensured that subsequent processing of the sheet 02 as exact as possible relative to the bow 02 and thus relative to before on the bow 02 carried out processing. The bows 02 are preferred depending on the training and / or operation of Substratatzufuhreinrichtung 100 for example, scaled or isolated the investment facility 300 fed. Preferably leave the bow 02 the investment facility 300 completely isolated.

The investment facility 300 preferably has at least one alignment device 301 on. The alignment device 301 has, for example, at least one in particular drivable and / or driven alignment roller 302 and / or alignment roller 302 on, which is rotatable, for example, about a horizontal axis of rotation and which is pivotable about a pivot axis, which is oriented in particular parallel to a vertical direction. Alternatively or additionally, the alignment roller 302 and / or alignment roller 302 for example, partially or as a whole in the transverse direction A designed to be movable, in particular to bow 02 in the transverse direction A to be able to move and to move back again. For example, the investment device 300 at least one pressure roller or pressure roller, by means of the arc 02 against this alignment roller 302 and / or alignment roller 302 can be acted upon with a force. For example, this can be done by pivoting the alignment roller 302 and / or alignment roller 302 and / or a movement of the registration roller 302 and / or alignment roller 302 in the transverse direction A a position of the respective bow 02 to be influenced. The alignment device 301 alternatively or additionally, for example, has a plurality of drivable and / or driven alignment rollers 302 and / or alignment rollers 302 on, for example, in the transverse direction A offset from one another. In particular by different driving these alignment rollers 302 and / or alignment rollers 302 can be bow 02 pivot about an axis, for example, parallel to a vertical direction and / or to one of the major surfaces of at least one arc 02 oriented orthogonal direction. By such pivotable and / or with respect to the transverse direction A movable alignment rollers 302 and / or alignment rollers 302 is for example an investment facility 300 feasible without contact between bow 02 on the one hand and front stamps 127 and / or page marks on the other hand.

The alignment device 301 has alternatively or additionally, for example, at least one stop, which also as a mark 127 referred to as. For example, the alignment device 301 at least one front-end mark 127 and / or at least one page mark.

The at least one investment facility 300 has, for example, at least one inspection device 303 on. This at least one inspection device 303 For example, serves a position of the respective bow 02 capture. The inspection device 303 has, for example, at least one and preferably several, in particular optical sensors.

The investment facility 300 preferably has at least one means of transport 311 on, which is further preferred as a suction transport 311 is trained. The above in the preceding and hereinafter described on suction transport means preferably applies accordingly. The investment facility 300 preferably has at least one own drive M300 or engine 300 , in particular electric motor M300 or position-controlled electric motor M300 on, the next prefers at least one means of transport 311 driving and / or driving is arranged.

In the following, details of a coating unit 400 ; 600 ; 800 made, the example as a primer 400 is trained. Insofar as this does not lead to contradictions, what has been described is analogous to other embodiments of the coating unit 400 ; 600 ; 800 to transfer, in particular to printing units 600 and paint aggregates 800 ,

As described, for example, at least one is used as the primer 400 or primer aggregate 400 trained coating unit 400 arranged. The at least one priming aggregate 400 is preferably used, a coating agent formed as a primer on the substrate to be processed 02 , in particular the substrate 02 and / or the bows 02 apply. This happens, for example, depending on the processing order by a full-surface application or by a partial application. For example, the primer facilitates subsequent processing of the sheets 02 , For example, an application of at least one further coating agent, which is in particular designed as an ink and / or at least one further coating agent, which is in particular designed as ink and / or at least one further coating agent, which is in particular designed as a lacquer.

In the following, details of a coating unit 400 ; 600 ; 800 made that as a flexo coating aggregate 400 ; 600 ; 800 is trained. Insofar as this does not lead to contradictions, what has been described is analogous to other embodiments of the coating unit 400 ; 600 ; 800 transferable. This flexo coating unit 400 ; 600 ; 800 is exemplary as a primer aggregate 400 shown. The illustration is analogous to printing units 600 and paint aggregates 800 provided that there are no contradictions.

The flexo coating unit 400 ; 600 ; 800 preferably has at least one coating agent supply 401 ; 601 ; 801 on, in particular primer stock 401 and / or color supply 601 or ink supply 601 and or 800 a paint stock 801 , The flexo coating unit 400 ; 600 ; 800 preferably has at least one application cylinder 402 ; 602 ; 802 which serves to apply coating agent to the substrate to be processed 02 , in particular the substrate 02 and / or bow 02 apply and in particular for contact with substrate 02 , in particular printing material 02 and / or bow 02 is provided. The order cylinder 402 ; 602; 802 is for example as a forme cylinder 402 ; 602 ; 802 educated. On the form cylinder 402 ; 602 ; 802 At least one detachable elevator in the form of at least one removable coating mold is preferably arranged and / or arranged. This elevator serves to determine in which areas coating agent is to be transferred and optionally in which not. The respective elevator is preferably by means of at least one corresponding holding device, in particular clamping device and / or clamping device on a lateral surface of the applicator cylinder 402 ; 602; 802 can be arranged and / or arranged and preferably fixable and / or fixed.

In particular, the forme cylinder 402 ; 602 ; 802 and / or to supply the coating form with coating agent is preferably at least one supply roll 403 ; 603 ; 803 arranged, more preferably as an anilox roller 403 ; 603 ; 803 is formed and / or has a cup structure on its lateral surface and preferably with the forme cylinder 402 ; 602 ; 802 is in contact and / or can be brought into contact. Alternatively, between supply roller 403 ; 603 ; 803 and order cylinder 402 ; 602 ; 802 also be arranged at least one further transfer roller for coating agent. With the supply roller 403 ; 603 ; 803 is preferably at least one buffer 404 ; 604 ; 804 for coating compositions in contact and / or in operative connection. This is preferably as a chambered doctor blade 404 ; 604 ; 804 educated. With the particular as an anilox roller 403 ; 603 ; 803 trained supply roller 403 ; 603 ; 803 So is preferably at least one chambered doctor blade 404 ; 604 ; 804 in contact and / or in operative connection. The preferred as a chambered doctor blade 404 ; 604 ; 804 trained caches 404 ; 604 ; 804 is preferably via at least one supply line 406 ; 606 ; 806 and more preferably also via at least one derivative 407 ; 607 ; 807 with the at least one coating agent supply 401 ; 601 ; 801 in connection.

At least one counterpressure agent is preferred 408 ; 608 ; 808 arranged as an abutment for applying the coating agent to the substrate to be processed 02 , in particular the substrate 02 and / or the bows 02 serves. The at least one counterpressure 408 ; 608 ; 808 is for example as an impression cylinder 408 ; 608 ; 808 educated. Alternatively, this is at least one counterpressure 408 ; 608 ; 808 formed as a counter-pressure belt. The for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path preferably extends between the forme cylinder 402 ; 602 ; 802 on the one hand and the counterpressure 408 ; 608 ; 808 , in particular impression cylinder 408 ; 608 ; 808 on the other hand. form cylinder 402 ; 602 ; 802 on the one hand and counterpressure 408 ; 608 ; 808 on the other hand form preferred together at least one coating site 409 ; 609 ; 809 ,

The coating unit 400 ; 600 ; 800 is, for example, as a coatable from above and / or coated from above coating unit 400 ; 600 ; 800 or, for example, alternatively as a coating unit which can be coated from below and / or coated from below 400 ; 600 ; 800 educated.

The coating unit 400 ; 600 ; 800 preferably has at least one incoming transport 411 ; 611 ; 811 on. The at least one incoming means of transport 411 ; 611 ; 811 is preferred as a suction transport 411 ; 611 ; 811 designed, in particular as a suction belt 411 ; 611 ; 811 and / or as a Saugkastenband 411 ; 611 ; 811 and / or as a roller suction system 411 ; 611 ; 811 , The above in the preceding and hereinafter described on suction transport means preferably applies accordingly.

The at least one outgoing means of transport 417 ; 617 ; 817 is preferred as a suction transport 417 ; 617 ; 817 designed, in particular as a suction belt 417 ; 617 ; 817 and / or as a Saugkastenband 417 ; 617 ; 817 and / or as a roller suction system 417 ; 617 ; 817 , The above in the preceding and hereinafter described on suction transport means preferably applies accordingly.

As flexo coating aggregates 400 ; 600 ; 800 trained coating units 400 ; 600 ; 800 For example, each have exactly one coating point 409 ; 609 ; 809 on. For applying a plurality of different coating agents, it is preferred to use a plurality of flexographic coating units 400 ; 600 ; 800 , in particular flexographic printing units 600 arranged.

For example, this has at least one as Flexobeschichtungsaggregat 400 ; 600 ; 800 trained coating unit 400 ; 600 ; 800 in each case at least one separate, in particular integrated, drying device assigned to it 500 or drying device 506 on. This is for example on the at least one outgoing means of transport 417 ; 617 ; 817 this particular as a flexo coating aggregate 400 ; 600 ; 800 trained coating aggregate 400 ; 600 ; 800 arranged aligned.

In the following, details of a coating unit 400 ; 600 ; 800 made that as a non impact coating aggregate 400 ; 600 ; 800 , in particular non-impact coating module 400 ; 600 ; 800 , so for example as a jet coating unit 400 ; 600 ; 800 , in particular inkjet coating unit 400 ; 600 ; 800 and / or jet coating module 400 ; 600 ; 800 , in particular inkjet coating module 400 ; 600 ; 800 is trained. Insofar as this does not lead to contradictions, what has been described is analogous to other embodiments of the coating unit 400 ; 600 ; 800 transferable, in particular to other Non Impact printing aggregate 600 , The jet coating unit 400 ; 600 ; 800 preferably has at least one print head 416 ; 616 ; 816 on. The at least one print head 416 ; 616 ; 816 is for example as an inkjet printhead 416 ; 616 ; 816 educated.

The jet coating unit 400 ; 600 ; 800 is the example of a jet pressure unit 600 , in particular inkjet printing unit 600 and / or jet pressure module 600 described. But the same applies analogously to a jet primer 400 , in particular jet primer module 400 , and / or a jet painting unit 800 , in particular jet painting module 800 ,

The at least one jet coating unit 400 ; 600 ; 800 , in particular inkjet printing unit 600 , the processing machine 01 again preferably has at least one coating site 409 ; 609 ; 809 , in particular pressure point 609 , on. Under a coating site 409 ; 609 ; 809 , in particular pressure point 609 , is also in the case of a non-impact coating unit 400 ; 600 ; 800 a preferred complete range to understand in the contact between a respective same coating agent, in particular ink, on the one hand and a respective arc 02 on the other hand is produced or can be produced.

The at least one coating unit 400 ; 600 ; 800 , in particular printing unit 600 , preferably has several coating sites 409 ; 609 ; 809 , in particular pressure points 609 to each of which a respective coating agent is assigned, for example, at least four coating sites 409 ; 609 ; 809 , in particular pressure points 609 , preferably at least five coating sites 409 ; 609 ; 809 , in particular pressure points 609 , more preferably at least six coating sites 409 ; 609 ; 809 , in particular pressure points 609 and even more preferably at least seven coating sites 409 ; 609 ; 809 , in particular pressure points 609 ,

Especially in Non Impact coating units 400 ; 600 ; 800 , in particular in jet coating units 400 ; 600 ; 800 such as inkjet printing units 600 For example, water-based coating agents and / or wax-based coating compositions and / or UV-curing coating compositions are used. Optionally arranged dryer units 500 are preferably formed matched to the corresponding coating agent, have For example, energy sources in the form of infrared radiation sources and / or UV radiation sources and / or hot air sources and / or electron beam sources.

Each coating site 409 ; 609 ; 809 , in particular pressure point 609 , preferably has at least one job 418 ; 618 ; 818 on. Every job 418 ; 618 ; 818 is preferably at least one image-forming device 416 ; 616 ; 816 assigned, in particular at least one print head 416 ; 616 ; 816 and more preferably at least one print head row. Every job 418 ; 618 ; 818 preferably extends in the transverse direction A , more preferably over the entire working width of the processing machine 01 , In the case of an inkjet printing machine 01 is the at least one imaging device 416 ; 616 ; 816 preferred as at least one print head 416 ; 616 ; 816 , in particular inkjet printhead 416 ; 616 ; 816 educated. The at least one coating unit 400 ; 600 ; 800 preferably has at least two printheads 416 ; 616 ; 816 on. For example, this is characterized by at least one coating unit 400 ; 600 ; 800 characterized in that the at least two printheads 416 ; 616 ; 816 as printheads designed for non-impact printing 416 ; 616 ; 816 are formed and further preferably characterized in that the at least two print heads 416 ; 616 ; 816 as inkjet printheads 416 ; 616 ; 816 are formed. Imaging facilities 416 ; 616 ; 816 such as printheads 416 ; 616 ; 816 usually have a limited dimension, especially in the transverse direction A , This results in a limited area of the bow 02 on top of a respective printhead 416 ; 616 ; 816 Coating can be applied. Therefore, usually several image-forming devices 416 ; 616 ; 816 or printheads 416 ; 616 ; 816 in the transverse direction A arranged one behind the other. Such with respect to the transverse direction A consecutively arranged printheads 416 ; 616 ; 816 are referred to as Druckkopfreihe. There are broken printhead rows and continuous printhead rows. In the special case of extending over the entire working width printhead 416 ; 616 ; 816 this should also be considered as Druckkopfreihe, especially as a continuous Druckkopfreihe.

For example, at least one coating agent has several application sites 418 ; 618 ; 818 assigned, for example in the form that two continuous rows or two double rows of printheads 416 ; 616 ; 816 to eject or eject an identical coating agent.

A coating unit 400 ; 600 ; 800 For example, it includes only one coating site 409 ; 609 ; 809 , in particular pressure point 609 For example, for a color, for example, the color black. This preferably has at least one coating unit 400 ; 600 ; 800 but as described several coating sites 409 ; 609 ; 809 , in particular pressure points 609 , on. The coating sites 409 ; 609 ; 809 , in particular pressure points 609 , may be spatially connected directly to each other or be spaced apart, for example, separated by color. Under the term of a coating site 409 ; 609 ; 809 , in particular pressure point 609 , should also fall a section that -. B. without interruption by another color - several successive jobs 418 ; 618 ; 818 having the same color.

For example, the jet coating aggregate 400 ; 600 ; 800 at least one counterpressure 408 ; 608 ; 808 but which preferably does not serve the substrate to be processed 02 , in particular the substrate 02 and / or the bows 02 to pinch, but only to hold in their position. At least one such counterpressure 408 ; 608 ; 808 is for example as a counter-pressure belt 408 ; 608 ; 808 and / or as a means of transport 411 ; 417 ; 611 ; 617 ; 811 ; 817 , in particular suction transport means 411 ; 417 ; 611 ; 617 ; 811 ; 817 educated. Particularly preferred is the jet coating unit 400 ; 600 ; 800 in the transport direction T seen only one means of transport 411 ; 417 ; 611 ; 617 ; 811 ; 817 on, which is further preferred as a suction transport 411 ; 417 ; 611 ; 617 ; 811 ; 817 is formed and at the same time as incoming transport 411 ; 611 ; 811 and / or as a counterpressure 408 ; 608 ; 808 and / or as outgoing means of transport 417 ; 617 ; 817 is trained.

The sheet-fed printing machine is preferably characterized 01 alternatively or additionally by at least one printhead assembly 424 ; 624 ; 824 at least one in the transverse direction A in particular over an entire working width of the at least one non-impact coating unit 400 ; 600 ; 800 or non-impact coating module 400 ; 600 ; 800 extending row of printheads 416 ; 616 ; 816 having. The sheet-fed printing machine is preferably characterized 01 alternatively or additionally, characterized in that the at least one printhead assembly 424 ; 624 ; 824 at least two in the transverse direction A in particular over an entire working width of the at least one non-impact coating unit 400 ; 600 ; 800 or non-impact coating module 400 ; 600 ; 800 extending rows of printheads 416 ; 616 ; 816 and that Einwirkbereiche these at least two rows of printheads 416 ; 616 ; 816 concerning the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path are arranged one behind the other.

The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that a total of at least four and more preferably exactly four in the transverse direction A extending rows of printheads 416 ; 616 ; 816 are arranged and that Einwirkbereiche these at least four rows of printheads 416 ; 616 ; 816 concerning the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path are arranged one behind the other. The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that a total of at least eight, and more preferably exactly eight in a transverse direction A extending rows of printheads 416 ; 616 ; 816 are arranged and that Einwirkbereiche these at least eight rows of printheads 416 ; 616 ; 816 concerning the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path are arranged one behind the other. The sheet-fed printing machine is preferably characterized 01 alternatively or additionally, characterized in that at least one of the non-impact coating modules 600 as a print module 600 is formed and / or as an inkjet coating module 600 is formed and / or at least one inkjet printhead 416 ; 616 ; 816 having.

Under a printhead assembly 424 ; 624 ; 824 is preferably at least one assembly 424 ; 624 ; 824 to understand the at least one printhead 416 ; 616 ; 816 and preferably multiple printheads 416 ; 616 ; 816 and preferably has at least one support body, on which the at least one print head 416 ; 616 ; 816 is attached directly or indirectly and relative to the at least one print head 416 ; 616 ; 816 is arranged unmoved in a normal printing operation. A relative movement takes place, for example, for adjustment purposes and / or for assembly purposes.

At least one printhead is preferred 416 ; 616 ; 816 with at least one positioning device 426 ; 626 ; 826 connected and / or connectable. This is preferably at least one print head 416 ; 616 ; 816 by means of the at least one positioning device 426 ; 626 ; 826 relative to a frame 427 ; 627 ; 827 the at least one non-impact coating unit 400 ; 600 ; 800 or non-impact coating module 400 ; 600 ; 800 movably arranged, in particular at least with respect to a vertical direction V and / or at least 0.5 cm, more preferably at least 2 cm, and even more preferably at least 10 cm, and even more preferably at least 25 cm movably arranged.

Preferably, the processing machine is characterized 01 , in particular sheet-fed printing machine 01 alternatively or additionally by at least one printhead assembly 424 ; 624 ; 824 at least one positioning device 426 ; 626 ; 826 comprising, by means of at least all the printheads 416 ; 616 ; 816 this particular printhead assembly 424 ; 624 ; 824 especially in common relative to a frame 427 ; 627 ; 827 the at least one non-impact coating unit 400 ; 600 ; 800 or non-impact coating module 400 ; 600 ; 800 are movably arranged.

In one embodiment, the at least one positioning device 426 ; 626 ; 826 at least one positioning guide and more preferably a plurality of positioning guides and even more preferably one positioning guide per movable printhead assembly 424 ; 624 ; 824 on.

In particular, independent of an array of printhead assemblies 424 ; 624 ; 824 is preferably at least one cleaning device 419 ; 619 ; 819 for cleaning printheads 416 ; 616 ; 816 and / or nozzle surfaces of printheads 416 ; 616 ; 816 arranged and / or at least one printhead 416 ; 616 ; 816 and / or at least one nozzle surface of the at least one print head 416 ; 616 ; 816 assignable and / or assigned. The at least one cleaning device 419 ; 619 ; 819 is preferably arranged to be movable along at least one provision path between at least one parking position and at least one insertion position, in particular by means of at least one feed device.

Regardless of the formation of the coating unit 400 ; 600 ; 800 as a flexo coating unit 400 ; 600 ; 800 and / or jet coating aggregate 400 ; 600 ; 800 has the coating unit 400 ; 600 ; 800 preferably at least one own drive M400 ; M401 ; M600 ; M601 ; M800 ; M801 or engine M400 ; M401 ; M600 ; M601 ; M800 ; M801 on, which is preferably designed as a particular position-controlled electric motor.

It is preferred for at least one coating device 400 ; 600 ; 800 and more preferably in immediate connection to at least one coating unit 400 ; 600 ; 800 at least one drying device 500 and / or drying device 506 arranged.

The at least one drying device 500 For example, has at least one frame 508 on. The at least one drying device 500 has, for example, at least one means of transport 511 on, which is further preferred as a suction transport 511 is trained. The above in the preceding and hereinafter described on suction transport means preferably applies accordingly. The drying device 500 preferably has at least one own drive M500 or engine M500 , in particular electric motor M500 or position-controlled electric motor M500 on, the further preferred that at least one means of transport 511 driving and / or driving is arranged. Alternatively or in addition to at least one separate drying device 500 has, for example, at least one coating unit 400 ; 600 ; 800 or a plurality of coating units 400 ; 600 ; 800 or any coating unit 400 ; 600 ; 800 in each case at least one separate, in particular integrated, drying device assigned to it 500 or drying device 506 on.

For example, the sheet-fed press stands out 01 characterized in that at least one after-drying device 507 is arranged, which at least partially at least for the transport of substrate 02 , in particular printing material 02 and / or bow 02 having provided transport path arranged aligned air outlet opening. The at least one after-drying device 507 is preferably used to reuse heat contained in previously used for drying sheets of air.

The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that along the for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path before the at least one preferably as a printing module 600 trained non impact coating module 600 ; 800 at least one primer module 400 the sheetfed press 01 is arranged. The at least one primer module 400 is for example as a flexo coating module 400 or preferably as a non-impact coating module 400 educated.

The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that along the for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path in particular after a job 418 of the at least one primer module 400 and / or after the at least one primer module 400 and / or at least one job site 618 the at least one non-impact coating module 600 and / or before the at least one non-impact coating module 600 and / or before each as a print module 600 trained non impact coating module 600 at least one drying device 506 is arranged, in particular for the transport of substrate 02 , in particular printing material 02 and / or bow 02 arranged transport path is arranged aligned.

For example, this has at least one pressure module 600 then preferably at least one means of transport 611 on, which is further preferred as a suction transport 611 and / or suction belt 611 and / or Saugkastenband 611 and / or roller suction system 611 is trained. This at least one means of transport 611 then preferably extends along the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path under the at least one first job 618 of the print module 600 through and under at least one of these at least one job site 618 downstream drying device 506 of the print module 600 through and more preferably under any further, in particular downstream application point 618 of the print module 600 and more preferably under each further, in particular downstream, drying device 506 and / or energy delivery device 501 ; 502 ; 504 of the print module 600 regardless of whether this drying device 506 and / or energy delivery device 501 ; 502 ; 504 of the print module 600 between job offices 618 of the print module 600 is arranged or after a last job 618 of the print module 600 , Preferably, along the transport path exactly one such described transport 611 arranged and are with respect to the transverse direction A several such means of transport 611 next to each other or more preferably also just such a means of transport 611 arranged. This particular means of transport 611 So preferably extends under all jobs 618 of the print module 600 and among all between job sites 618 of the print module 600 arranged drying device 506 of the print module 600 and more preferably among all after all job sites 618 of the print module 600 arranged drying device 506 of the print module 600 , (By way of example, such a pressure module is in 6c shown.)

The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that along the for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path to the at least one non-impact coating module 400 ; 600 at least one painting module 800 the sheetfed press 01 is arranged. The at least one painting module 800 is for example as a flexo coating module 800 or preferably as a non-impact coating module 800 educated. The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that along the for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path to a job site 618 the at least one as a non-impact printing module 600 trained non impact coating module 600 and before the at least one painting module 800 at least one drying device 506 in particular to the transport of substrate 02 , in particular printing material 02 and / or bow 02 arranged transport path is arranged aligned.

The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that along the for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path to a job site 818 of the at least one painting module 800 at least one drying device 506 in particular to the transport of substrate 02 , in particular printing material 02 and / or bow 02 arranged transport path is arranged aligned.

Preferably, at least one device for intermediate drying is arranged for a multicolor printing.

The at least one drying device 500 or drying device 506 has, for example, at least one cooling device 551 and / or at least one inspection device 551 and / or at least one rewet device 551 on. Alternatively, this is a separate aftertreatment unit 550 arranged. At least one inspection device is preferred 551 in at least one coating device 400 ; 600 ; 800 or in at least one coating unit 400 ; 600 ; 800 and / or coating module 400 ; 600 ; 800 arranged, in particular in at least one printing device 600 or in at least one printing aggregate 600 and / or pressure module 600 , more preferably as part of the coating device 400 ; 600 ; 800 and / or the coating unit 400 ; 600 ; 800 and / or coating module 400 ; 600 ; 800 and / or the printing device 600 and / or the printing unit 600 and / or pressure module 600 , Schematically and by way of example, this is for example in 12d shown.

For example, at least one aftertreatment device 550 arranged, in particular with respect to the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path preferably after at least one coating device 400 ; 600 ; 800 and / or after at least one drying device 500 and / or after at least one drying device 506 , The preferably arranged at least one aftertreatment device 550 preferably has at least one Einwirkeinrichtung 551 on. This at least one Einwirkeinrichtung 551 is for example as moistening device 551 , in particular rewet device 551 and / or as a cooling device 551 and / or as a discharge device 551 and / or as an inerting device 551 and / or as a cleaning device 551 and / or as a deburring device 551 and / or as an inspection device 551 educated. A cleaning device 551 is for example as a suction device 551 and / or blowing device 551 and / or as a stripping device 551 educated.

An inspection facility 551 has, for example, at least one and / or several, in particular at least two, in particular optical sensors 553 on, for example, is or are designed as a camera. This at least one sensor 553 is for example in the transverse direction A preferably arranged mechanically movable. By means of at least one such sensor 553 For example, it is a printed area of a respective substrate 02 , especially bow 02 detectable, for example, an entire printed area of the respective substrate 02 , especially bow 02 , in particular for checking a print quality. By means of at least one such sensor 553 or such sensors 553 For example, register marks can be detected. By means of this at least one sensor is preferred 553 on the substrate 02 , especially the bow 02 arranged register marks detected, which further preferably before by means of at least one and in particular more of the coating units 400 ; 600 ; 800 on the substrate 02 , in particular the respective bow 02 were applied. The register marks may also be partially or completely outside the processing machine 01 or coating machine 01 on the substrate 02 , especially the bows 02 be applied. In particular for assessing the function of the processing machine 01 However, the register marks are at least partially and more preferably completely within the processing machine 01 generated. The sensor 553 or the sensors 553 For example, it will be or will be a dimension of the substrate 02 for example, the bow 02 and / or adjusted to a position dependent on the processing, in particular the print image, in particular with respect to the transverse direction A , Then, for every print job, the register mark does not have to be in the same place on the sheets 02 to be printed. After detecting the register marks, the resulting location information is preferably evaluated. Further preferably, information about this is derived from this evaluation, such as at least one setting variable of the processing machine 01 to change. This at least one setting variable is, for example, a position of at least one application cylinder relative to a circumferential direction 402 ; 602 ; 802 , in particular relative to other application cylinders 402 ; 602 ; 802 , and / or one on the transverse direction A related position of at least one application cylinder 402 ; 602 ; 802 , in particular relative to other application cylinders 402 ; 602 ; 802 and / or an inclined position of a coating form, in particular relative to the transverse direction A and / or a control and / or location of at least one print head 416 ; 616 ; 816 , Thus, a circumferential register and / or capture and / or set a page register and / or a diagonal register.

The Einwirkeinrichtung 551 is, for example, within another aggregate 100 ; 200 ; 300 ; 400 ; 500 ; 600 ; 700 ; 800 ; 900 ; 1000 or module 100 ; 200 ; 300 ; 400 ; 500 ; 600 ; 700 ; 800 ; 900 ; 1000 arranged, in particular aligned on the intended transport path and / or acting and / or influence able. For example, this is another aggregate 600 or module 600 the printing unit 600 or print module 600 or coating unit 600 or coating module 600 or non-impact coating unit 600 or non-impact coating module 600 , Preferably, the inspection device 551 at least one CCD sensor 553 and / or at least one CMOS sensor 553 on. The inspection device is preferred 551 and in particular the at least one sensor 553 the inspection facility 551 on the means of transport 611 , in particular the suction belt 611 of the coating module 600 , in particular non-impact coating module 600 and / or the conveyor belt 718 ; 724 of the suction belt 611 of the coating module 600 , in particular non-impact coating module 600 arranged aligned. The inspection device is preferred 551 and in particular the at least one sensor 553 the inspection facility 551 on a part of the means of transport 611 , in particular suction bands 611 , in particular the conveyor belt 718 ; 724 of the suction belt 611 of the Non Impact coating module 600 and / or a portion of the substrate for transport 02 provided transport path arranged aligned with respect to the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path to the at least one after-drying device 507 and / or their on the at least one and preferably exactly one in particular as a suction belt 611 trained transport 611 of the non-impact printing module 600 aligned arranged air outlet opening is arranged. Alternatively or additionally, the at least one aftertreatment device 550 however, for example, as a stand-alone unit 550 and more preferably module 550 educated.

At least one and more preferably exactly one sensor device is preferred 553 or print image sensor device 553 arranged, by means of which in particular a print quality is verifiable, with the printing press 01 can be generated. The at least one sensor device 553 is for example with the described at least one inspection device 553 identical or at least partially agrees with the at least one inspection device 553 match. Preferably, a detection range of the at least one sensor device extends 553 over an entire working width of the printing press 01 and / or is the at least one sensor device 553 with respect to the transverse direction A fixedly arranged. The at least one sensor device 553 preferably has at least one sensor 553 and more preferably, exactly one sensor 553 on. The at least one sensor 553 has, for example, a detection area which is defined by a plurality of sensor elements, for example pixels. For example, the at least one sensor 553 as at least one, and more preferably as a straight line camera 553 educated.

Preferred is a method for operating a printing press 01 , in particular a quality control method, wherein by means of at least one non-impact print head 416 ; 616 ; 816 and preferably at least two non-impact print heads 416 ; 616 ; 816 the printing press 01 in particular in at least one test printing process at least one proofing image 566 on at least one substrate 02 is generated and wherein the means of the at least one non-impact print head 416 ; 616 ; 816 or at least two Non Impact printheads 416 ; 616 ; 816 printed at least one proof image 566 by means of a sensor device 553 is detected, in particular by means of at least one particular optical sensor 553 the sensor device 553 , The at least one or at least two Non Impact printheads 416 ; 616 ; 816 are preferably inkjet printheads 416 ; 616 ; 816 and / or preferably each have a plurality of dot-generating devices 583 , especially nozzles 583 on. For example, every Non Impact printhead features 416 ; 616 ; 816 several printhead elements, which in turn each multiple point-generating devices 583 respectively. For example, such printhead elements are each equipped with an individual power supply. The sensor device 553 is preferably a sensor device of the printing press 01 , The at least one test print image 566 is preferably generated on the basis of a predefined test template. This test template is preferably a standardized test template, which is repeated and at different times as a test print image 566 is generated to settings of the printing press 01 to check and / or optimize. For example, the test template from which the proofing image is generated, permanently in at least one memory of the printing press 01 deposited, in particular independent of image data of other print jobs. Alternatively, the test print image 566 at least a part of a printed image of a print job, which is prepared accordingly and / or analyzed in order to derive appropriate information from it.

In an alternative or additional development, the method is preferably characterized in that at least one attitude checking operation is performed and / or that preferably exactly one attitude checking operation per print head 416 ; 616 ; 816 and / or per Druckkopfreihe or preferably exactly one Lageprüfungsvorgang per coating unit 400 ; 600 ; 800 or exactly one situation verification procedure per quality control procedure is performed. In the at least one position checking process, it is preferred to use by means of the sensor device 553 and / or at least one sensor 553 recorded data this at least one proof image 566 a relative location of at least one of the at least one non-impact printhead 416 ; 616 ; 816 generated partial image to at least one reference, in particular at least one reference point checks and / or a relative position of at least two of the at least two printheads 416 ; 616 ; 816 generated partial images 569 to each other and / or a relative position of these at least two partial images 569 checked for at least one reference, in particular at least one reference point. Preferably, one of these at least two partial images is preferred 569 each one of these at least two printheads 416 ; 616 ; 816 generated. The relative position checked in the position checking operation is preferably at least one transverse to a transport direction T of the at least one substrate 02 aligned transverse direction A relative position. Alternatively or additionally, at least one and preferably each of the at least one non-impact print head is in the at least one position verification process 416 ; 616 ; 816 or the at least two non-impact print heads 416 ; 616 ; 816 generated partial image 569 on an inclined position with respect to at least the transverse direction A and / or the transport direction T checked out. Preference is given to measurement results of the at least one attitude test process on a particular at least transversely to the transport direction T of the at least one substrate 02 aligned transverse direction A relative position of the at least one non-impact print head 416 ; 616 ; 816 closed to at least one reference, in particular at least one reference point and / or to a relative position of the at least two print heads 416 ; 616 ; 816 to each other and / or a relative position of the at least two printheads 416 ; 616 ; 816 closed to at least one reference, in particular at least one reference point. Alternatively or additionally, in the position checking process, a relative position of the at least two print heads 416 ; 616 ; 816 to each other and / or a relative position of the at least two printheads 416 ; 616 ; 816 checked for at least one reference, in particular at least one reference point, this relative position in particular one at least transversely to the transport direction T of the at least one substrate 02 aligned transverse direction A relative position is relative. Preferably, at least one attitude measurement result is determined by the attitude checking process.

In an alternative or additional development, the method is preferably characterized in that at least one color density test process is performed and / or that preferably exactly one color density test process per non-impact print head 416 ; 616 ; 816 and / or per Druckkopfreihe or preferably exactly one Farbdichteprüfungsvorgang per coating unit 400 ; 600 ; 800 or exactly one color density test procedure per quality control procedure is performed. Preference is given in the color density testing process by means of the sensor device 553 and / or at least one sensor 553 recorded data this at least one proof image 566 at least one at a first place 567 in particular the test print image 566 measured first color density on the one hand and at least one other color density on the other hand be compared. The at least one further color density is preferably at least one desired color density and / or at least one at a position orthogonal to a transport direction T oriented transverse direction A from the first place 567 spaced second place 568 in particular the test print image 566 measured second color density. Here, pixels come in the first place 567 preferably from at least one other dot-generating device 583 , in particular of at least one other nozzle 583 , as pixels in the second place 568 and / or pixels come in the first place 567 preferably from at least one other printhead element and / or at least one other non-impact printhead 416 ; 616 ; 816 , as pixels in the second place 568 , At least one color density measurement result is preferably determined by the color density test process. The at least one desired color density is preferably predetermined in advance.

In an alternative or additional development, the method is preferably characterized in that at least one functional test procedure is performed and / or that preferably exactly one functional test procedure per non-impact printhead 416 ; 616 ; 816 and / or per Druckkopfreihe or preferably exactly one functional test operation per coating unit 400 ; 600 ; 800 or exactly one functional verification procedure per quality control procedure is performed. Preference is given in the functional test procedure by means of the sensor device 553 and / or at least one sensor 553 recorded data this at least one proof image 566 point generating facilities 583 , especially nozzles 583 at least one, and more preferably, more, and more preferably, each of the at least one non-impact printhead 416 ; 616 ; 816 checked for their function. Further preferred in the functional testing process are those of the sensor device 553 and / or at least one sensor 553 recorded data this at least one proof image 566 point generating facilities 583 , especially nozzles 583 at least one and more preferably more, and even more preferably each the at least two Non Impact printheads 416 ; 616 ; 816 checked for their function. It is preferred in the at least one functional verification process for each dot generating device 583 , in particular each nozzle 583 a functional check made, in particular in the way that it is checked whether a respective point has been generated and more preferably in which size. Preferably, at least one function measurement result is determined by the functional test procedure.

In an alternative or additional development, the method is preferably characterized in that, in addition to the at least one position check operation, at least one color density check operation and / or at least one function check operation is performed. Further, this is at least one at least one Lageprüfungsvorgang additional Farbdichteprüfungsvorgang and / or this at least one Lageprüfungsvorgang additional at least one functional test process also based on the particular same by the same sensor device 553 recorded proof print image 566 carried out. In this way, only one measurement must be made and the measured result can be analyzed several times in different ways to produce a very good overall print image, with the combination of individual improvements can achieve an even better print quality.

In an alternative or additional development, the method is preferably distinguished by the fact that, depending on a result of the position checking operation, in particular as a function of the attitude measurement result, at least one change of a setting and / or a control of the printing press 01 is performed, for example, manually and preferably automated, in particular in the form of a scheme and / or by means of at least one computing device of the printing press 01 and / or by means of a machine control of the printing press 01 , This change is preferred by means of a component of the printing press 01 performed. For example, at least one Non Impact printhead 416 ; 616 ; 816 adapted in its position, especially in the case where it is determined that its position relative to a reference or relative to at least a second non-impact print head 416 ; 616 ; 816 is not aligned correctly. Preferably, thereafter, a further pressure of a test print image 566 to check the result of the change. In an alternative or additional development, the method is therefore preferably characterized in that, depending on the at least one attitude measurement result, at least one change in a position of at least one non-impact printhead 416 ; 616 ; 816 is made, in particular at least an alignment of the corresponding printhead 416 ; 616 ; 816 with respect to the transverse direction A and / or at least pivoting the corresponding printhead 416 ; 616 ; 816 around at least one pivot axis. The at least one pivot axis is preferably orthogonal to the transverse direction A and orthogonal to the transport direction T oriented.

In an alternative or additional development, the method is preferably characterized in that, depending on a result of the color density test process, in particular as a function of the color density measurement result, at least one change in setting and / or control of the printing press 01 is performed, for example, manually and preferably automated, in particular in the form of a scheme and / or by means of at least one computing device of the printing press 01 and / or by means of a machine control of the printing press 01 , These Change is preferred by means of a component of the printing machine 01 performed. For example, in the case where it is determined that a printhead 416 ; 616 ; 816 or a printhead element produces a higher or lower color density than desired, the power supply responsible for the drop generation adapted, for example, by a voltage is increased, with which one or preferably a plurality of piezoelectric elements are supplied. In an alternative or additional development, the method is therefore preferably characterized in that, depending on the at least one color density measurement result, at least one adjustment of at least one non-impact print head 416 ; 616 ; 816 and / or at least one print head element is changed, in particular at least one voltage on at least one non-impact print head 416 ; 616 ; 816 , In an alternative or additional development, the method is preferably distinguished by the fact that, depending on the at least one color density measurement result, at least one data set is changed as a function of the test print image. For example, it can already be ensured when creating raster data and / or control data that the differing settings of the corresponding non-impact printhead 416 ; 616 ; 816 be compensated.

In an alternative or additional development, the method is preferably characterized in that, depending on a result of the functional test procedure, in particular as a function of the functional measurement result, at least one change to a setting and / or a control of the printing press 01 is performed, for example, manually and preferably automated, in particular in the form of a scheme and / or by means of at least one computing device of the printing press 01 and / or by means of a machine control of the printing press 01 , This change is preferred by means of a component of the printing press 01 performed. For example, in the case where it is determined that a pixel has not been generated, a corresponding dot-generating device 583 , in particular a corresponding nozzle 583 cleaned. For the sake of simplicity, at least the entire corresponding print head is preferred 416 ; 616 ; 816 cleaned. In an alternative or additional development, the method is therefore preferably characterized in that at least one cleaning process is carried out as a function of the at least one functional measurement result, in particular at least one nozzle cleaning process. In an alternative or additional development, the method is preferably characterized in that at least one data assignment is changed as a function of the at least one function measurement result. For example, then another nozzle 583 controlled to produce a corresponding pixel. These are for example more nozzles 583 arranged than would normally be used.

In an alternative or additional development, the method is preferably characterized in that the at least one position checking process is automated and / or by means of at least one computing device of the printing press 01 and / or by means of a machine control of the printing press 01 is carried out. In an alternative or additional development, the method is preferably characterized in that the at least one color density test process is automated and / or by means of at least one computing device of the printing press 01 and / or by means of a machine control of the printing press 01 is carried out. In an alternative or additional development, the method is preferably characterized in that the at least one functional test process is automated and / or by means of at least one computing device of the printing press 01 and / or by means of a machine control of the printing press 01 is carried out.

In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that the test print image 566 at least two different areas 562 ; 563 ; 564 and more preferably at least three different regions 562 ; 563 ; 564 having. For example, a particular first area 562 this at least two and preferably at least three areas 562 ; 563 ; 564 a situation check area 562 whose representation, in particular in the attitude checking process for checking the relative position of the at least one of the at least one non-impact print head 416 ; 616 ; 816 generated partial image 569 for at least one reference, in particular at least one reference point and / or for checking the relative position of the at least two of the at least two non-impact printheads 416 ; 616 ; 816 generated fields 569 to each other and / or to at least one reference, in particular at least one reference point and / or to check the relative position of the at least two print heads 416 ; 616 ; 816 is evaluated to each other. For example, one is from the first area 562 different, in particular second area 563 this at least two and preferably at least three areas 562 ; 563 ; 564 a color density inspection area 563 whose representation is evaluated to compare the respective color densities, in particular in the color density test process. For example, one is from the first area 562 different, especially third area 564 this at least two and preferably at least three areas 562 ; 563 ; 564 a functional testing area 564 , its representation for the functional test of the point-generating devices 583 is evaluated in particular in the functional test process.

In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that the test print image 566 at least one situation check area 562 having. The situation check area 562 preferably has at least one and / or at least two and / or for each of the at least one or at least two non-impact print heads 416 ; 616 ; 816 at least one Lageprüfform 569 on. Preferably, each Lageprüfform 569 at least two arranged in a predetermined distance from each other Lagehinweiselemente 582 on. Preferably, a relative desired position of the Lagehinweiselemente 582 a respective Lageprüfform 569 known in advance. Further preferred is the relative actual position of the Lagehinweiselemente 582 a respective Lageprüfform 569 tested and compared in particular with the relative target position. Preferred is a relative desired position of Lagehinweiselementen 582 different Lageprüfformen 569 known in advance. Further preferred is the relative actual position of the Lagehinweiselemente 582 different Lageprüfformen 569 tested and compared in particular with the relative target position. Preferably, the at least two Lagehinweiselemente extend 582 each in at least two different directions, which are further preferably oriented orthogonal to each other. For example, one of these directions is the transverse direction A , For example, one of these directions is the transport direction T of the at least one substrate 02 ,

For example have the at least two Lageprüfformen 569 in each case at least two lines, which are in these different directions A . T extend and further preferably cut and / or touch each other. Respective intersections and / or points of contact then preferably provide the position indication elements 582 For example, the at least two Lageprüfformen 569 in each case at least two lines, which are preferably in the transverse direction A extend and at least two lines, preferably in the transport direction T extend. For example, the at least two Lageprüfformen 569 each at least three lines, which preferably in the transverse direction A extend and at least five lines, preferably in the transport direction T extend. This then preferably results in at least fifteen Lagehinweiselemente 582 per Lageprüfform 569 ,

In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that the test print image 566 at least one color density inspection area 563 having. In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that the color density test area 562 for at least one and / or for at least two and / or for each of the at least one non-impact printhead 416 ; 616 ; 816 each at least one unit area 571 having associated therewith a predetermined target color density and / or that the color density inspection area 562 for at least one and / or for at least two and / or for each of the at least two non-impact printheads 416 ; 616 ; 816 each at least one unit area 571 having associated with it a predetermined target color density. In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that the color density test area 562 for at least one and / or for at least two and / or for each of the at least one non-impact printhead 416 ; 616 ; 816 in each case at least two unit surfaces 571 has, which are assigned to each other different target color densities and in particular in the transport direction T of the at least one substrate 02 arranged one behind the other and / or that the Farbdichteprüfungsbereich 562 for at least one and / or for at least two and / or for each of the at least two non-impact printheads 416 ; 616 ; 816 in each case at least two unit surfaces 571 has, which are assigned to each other different target color densities and in particular in the transport direction T of the at least one substrate 02 arranged one behind the other. The particularly different color densities are preferably achieved by a particular different number of color dots per area and / or by in particular different sized ink drops and / or by a particular particular area coverage.

Preferably, the color density inspection area 562 for at least one and / or for at least two and / or for each of the at least one printhead 416 ; 616 ; 816 , in particular for at least one and / or for at least two and / or for each of the at least two non-impact printheads 416 ; 616 ; 816 in each case at least four unit surfaces 571 on, which are assigned to each other different target color densities and in particular in the transport direction T of the at least one substrate 02 arranged one behind the other. In an exemplary embodiment, the non-impact printheads 416 ; 616 ; 816 in each case a plurality of print head elements, which in turn each have a plurality of dot-generating devices 583 respectively. Then, each printhead element is preferably at least one, and more preferably in each case at least two and even more preferably at least four unit surfaces 571 assigned to which predetermined and / or in particular mutually different target color densities are assigned and in particular in the transport direction T of the at least one substrate 02 arranged one behind the other. Furthermore, preference is then also ever non-impact print head 416 ; 6516 ; 816 several unit surfaces 571 in the transverse direction A arranged side by side to assess the different printhead elements separately.

In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that the test print image 566 at least one functional testing area 564 having. The functional check area 564 preferably has a plurality of functional test elements 572 in the form of a test matrix of test lines 576 and test columns 577 on the at least one substrate 02 are arranged. Such functional test elements 572 are for example as respective lines 572 formed, in particular as straight lines 572 and / or as in the transport direction T of the at least one substrate 02 aligned lines 572 and / or as lines 572 , each by means of a single respective point-generating device 583 , in particular by means of a single nozzle 583 be generated and / or were. These lines 572 therefore preferably extend in the transport direction T of the respective at least one substrate 02 , The functional check area can have additional elements 584 have, for example, separating elements 584 that serve the functional test elements 572 to distinguish better from each other. Such other elements 584 or separating elements 584 are for example as lines 584 formed, extending in the transverse direction A extend and preferably in the transport direction T adjacent functional test elements 572 delimit each other. The at least one and especially the at least two Non Impact printheads 416 ; 616 ; 816 each preferably have a plurality of point generating devices 583 in the form of a respective producer matrix 578 from producer lines 579 and producer columns 581 at the respective one of the at least two Non Impact printheads 416 ; 616 ; 816 are arranged. Each producer matrix 578 is preferably a nozzle matrix 578 , Each producer line 579 is preferably a nozzle line 579 , Each producer column 581 is preferably a nozzle column 581 ,

The method and / or the Prüfdruckbild 566 is characterized in an alternative or additional development preferably characterized in that for a particular first plurality of functional test elements 572 within the test matrix 574 that applies in the direction of the test lines 576 in pairs, in particular, directly adjacent functional test elements 572 from point-generating facilities 583 each one the same Non Impact printhead 416 ; 616 ; 816 come in the direction of the producer lines 579 in the respective non-impact print head 416 ; 616 ; 816 , especially in the respective non-impact print head 416 ; 616 ; 816 the at least two Non Impact printheads 416 ; 616 ; 816 in particular are arranged directly adjacent in pairs and that for a particular second plurality of functional test elements 572 within the test matrix 574 that applies in the direction of the test columns 577 in pairs, in particular, directly adjacent functional test elements 572 from point-generating facilities 583 a respective same printhead 416 ; 616 ; 816 come in the direction of the producer's crevices 581 in the respective non-impact print head 416 ; 616 ; 816 in particular in the respective one of the at least two non-impact print heads 416 ; 616 ; 816 in pairs, in particular, are arranged directly adjacent. Among the particular first plurality of functional test elements 572 within the test matrix 574 is preferably a set of functional test elements 572 within the test matrix 574 at least 50%, more preferably at least 75%, even more preferably at least 85%, even more preferably at least 95% and even more preferably all of the functional test elements 572 within the test matrix 574 includes. Among the particular second plurality of functional test elements 572 within the test matrix 574 is preferably a set of functional test elements 572 within the test matrix 574 at least 50%, more preferably at least 75%, even more preferably at least 85%, even more preferably at least 95% and even more preferably all of the functional test elements 572 within the test matrix 574 includes. For example, the first plurality of functional test elements 572 with the second plurality of functional test elements 572 identical.

For example, neither the producer rows 579 still the producer columns 581 parallel to the transverse direction A or the transport direction T oriented arranged. For example, the test lines 576 parallel to the transverse direction A oriented arranged. For example, the test columns 577 oriented in a direction oriented at an angle to the transport direction T of the substrate 02 which is greater than 0 ° and which is less than 45 °, more preferably less than 20 °, even more preferably less than 10 °, even more preferably less than 5 ° and even more preferably less than 2 °. This direction results, for example, from the length of the functional test elements 572 parallel to the transport direction A and the distance between two adjacent, within a same producer column 581 arranged point generating facilities 583 ,

The test matrix 574 preferably has at least three test lines 576 on. The test matrix 574 more preferably has at least 5 test lines 576 , even more preferably at least 10 test lines 576 and even more preferably at least 20 test lines 576 on. For example, the test matrix 574 at least 32 test lines 576 on. The test matrix 574 far preferably at least 10 test columns 577 on. The test matrix 574 more preferably has at least 20 test columns 577 and even more preferably at least 40 test columns 577 on. For example, the test matrix 574 at least 64 test columns 577 on. The producer matrix 578 a respective printhead 416 ; 616 ; 816 preferably has at least three producer rows 579 on. The producer matrix 578 a respective Non Impact printhead 416 ; 616 ; 816 more preferably has at least 5 generator rows 579 , even more preferably at least 10 producer rows 579 and even more preferably at least 20 producer rows 579 on. For example, the producer matrix 578 a respective Non Impact printhead 416 ; 616 ; 816 at least 32 producer lines 579 on. The producer matrix 578 a respective Non Impact printhead 416 ; 616 ; 816 preferably at least 10 generator columns 581 on. The producer matrix 578 a respective Non Impact printhead 416 ; 616 ; 816 more preferably has at least 20 generator columns 581 and even more preferably at least 40 generator columns 581 on. For example, the producer matrix 578 a respective printhead 416 ; 616 ; 816 at least 64 generating columns 581 on. Preferably, the test matrix 574 the same number of test lines 576 on, like the generator matrix 578 producers lines 579 having. Preferably, the test matrix 574 just as many test columns 577 on, like the generator matrix 578 producers column 581 having.

The at least one non impact print head 416 ; 616 ; 816 preferably has a plurality of dot-generating devices 583 having in the form of a respective generator matrix 578 from producer lines 579 and producer columns 581 on the at least one non-impact printhead 416 ; 616 ; 816 are arranged. Score-generating facilities 583 are for example nozzles 583 , in particular those for ejecting ink.

In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that at least one test printing operation by means of at least one non-impact print head 416 ; 616 ; 816 at least one test print image 566 on at least one substrate 02 is produced.

The at least one test print image 566 preferably has at least one functional testing area 564 on. In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that for the creation of the functional test area 564 on the at least one substrate 02 by means of the point-generating devices 583 of the at least one non-impact printhead 416 ; 616 ; 816 a variety of functional test elements 572 generated in the form of a test matrix 574 from test lines 576 and test columns 577 on the at least one substrate 02 are arranged. In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that for a plurality of functional test elements 572 within the test matrix 574 that applies in the direction of the test lines 576 pairs of adjacent functional test elements 572 from point-generating facilities 583 each one the same Non Impact printhead 416 ; 616 ; 816 come in the direction of the producer lines 579 in the respective one of the at least one non-impact print head 416 ; 616 ; 816 in particular in the respective one of the at least two non-impact print heads 416 ; 616 ; 816 arranged in pairs adjacent. In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that for a plurality of functional test elements 572 within the test matrix 574 that applies in the direction of the test columns 577 pairs of adjacent functional test elements 572 from point-generating facilities 583 each one the same Non Impact printhead 416 ; 616 ; 816 come in the direction of the producer's crevices 581 in the respective non-impact print head 416 ; 616 ; 816 in particular in the respective one of the at least two non-impact print heads 416 ; 616 ; 816 arranged in pairs adjacent.

Among this plurality of functional test elements 572 within the test matrix 574 Again, a set of functional test elements is preferred 572 within the test matrix 574 at least 50%, more preferably at least 75%, even more preferably at least 85%, even more preferably at least 95% and even more preferably all of the functional test elements 572 within the test matrix 574 includes.

In this way, the functional testing area provides 564 an optionally distorted image of the array of dot-forming devices 583 In particular, it is then particularly easy for the human observer to identify any errors that may be detectable in the test print image 566 on errors of the printing process and / or the printing press 01 close. Would all nozzles instead 583 simply at the same time function test elements 572 generate or would be the functional test elements 572 arranged in a different way, so would a faulty functional inspection area 564 just difficult to help to make statements about the nature of a mistake. If, for example, functional test elements 572 Can not be printed in the form of a contiguous area, may point to a corresponding contiguous soiled area of the Non Impact printhead 416 ; 616 ; 816 getting closed. For a different arrangement of functional test elements 572 In the case of a dirty area, a distribution of defects in the test matrix would result 574 that would not necessarily be coherent. Other errors can be easily recognized. Thus it can be concluded from the failure of an entire column to a missing contact in a data connection, which can be made for example by cleaning an electrical connection. Such an error from a disordered number of missing functional test elements 572 It's much harder to close. Even with a lack or a shifted arrangement of only one Funktionsprüfelements 572 is immediately recognizable, at which point this is. Then you can react with appropriate measures. If a whole Non Impact printhead 416 ; 616 ; 816 or a printhead element of a non-impact printhead 416 ; 616 ; 816 fails, there are also easily detectable errors in the functional test area 564 because then entire areas of functional test elements 572 absence.

The particular resulting print product preferably has at least one substrate 02 and at least one on the at least one substrate 02 arranged test print image 566 on. In this case, a longitudinal direction is preferred T a direction T along an edge of the substrate 02 and preferably with the transport direction T identical. The transverse direction A is one to the longitudinal direction T orthogonal direction A , Both the longitudinal direction are preferred T as well as the transverse direction A in each case parallel to at least one the Prüfdruckbild 566 main bearing surface of the substrate 02 oriented. As described, this has at least one proof print image 566 preferably at least one functional testing area 564 on. In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that the functional test area 564 a variety of functional test elements 572 having, in the form of a test matrix 574 from test lines 576 and test columns 577 on the at least one substrate 02 are arranged, further preferred for a plurality of functional test elements 572 within the test matrix 574 applies that functional test elements 572 pointing to the transverse direction A in pairs are nearest neighbors, to absolute distances within the test matrix 574 are not nearest neighbors. This is also in the exemplary illustration in 26 recognizable. In this way, the arrangement of the point generating devices 583 , especially nozzles 583 the corresponding printhead 416 ; 616 ; 816 readjusted. Such is exemplary in 25 shown. By arranging a plurality of each other in the transverse direction A staggered producer lines 579 can be the resolution of the printhead 416 ; 616 ; 816 towards a single producer line 579 increase. In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that for this plurality of functional test elements 572 within the test matrix 574 that applies to the transverse direction A related between such functional test elements 572 with respect to the transverse direction A pairwise neighbors within a same test line 576 are, in absolute terms, a number of functional test elements 572 is the number of test lines reduced by 1 one 576 the test matrix 574 equivalent.

In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that for this plurality of functional test elements 572 that applies to the transverse direction A each three functional test elements 572 between pairs of functional test elements 572 are arranged, wherein the functional test elements 572 these pairs in a respective same check column 577 and at the same time in adjacent test lines 576 are arranged. This arises, for example, from this, as the point-generating devices 583 within the generator matrix 578 are arranged and in particular from the geometric relationships such as the angle, the generator columns 581 and / or producer lines 579 and / or the transverse direction A include each other. At a low on the transport direction T related skew of the generator columns 581 overlap less generator columns 581 as in a large tilt.

In addition, for example, the producer lines 579 are grouped into, for example, four groups and that those dot-generating entities 583 for one on the transverse direction A related continuous sequence of points, arranged in order, for example, in a first group, then in a third group, then in a second group and then in a fourth group and then again in the first group, and so on. The number of groups is also referred to here as a grouping factor. In this case, the grouping factor is four.

In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that for this plurality of functional test elements 572 that applies to the transverse direction A each received a number of Funktionsprüfelementen 572 between pairs of functional test elements 572 are arranged, wherein the functional test elements 572 these pairs in a respective same check column 577 and at the same time in adjacent test lines 576 are arranged and this number corresponds to a reduced by 1 one grouping factor.

In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that the test print image 566 at least one situation check area 562 having at least one Lageprüfform 569 and that each Lageprüfform 569 at least two arranged in a predetermined distance from each other Lagehinweiselemente 582 and / or that the proofing image 566 at least one color density inspection area 563 comprising at least two unit surfaces 571 has, which are assigned to each other different target color densities.

In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that the functional test elements 572 as respective lines 572 are formed and / or as respective straight lines 572 are formed and / or as in the transport direction T of the at least one substrate 02 aligned lines 572 are formed and / or in each case by means of a single respective dot-generating device 583 be generated and / or were.

In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 preferably characterized in that the functional test elements 572 be examined with respect to their shape and conclusions on a the dots and / or drops generating profile of a voltage of a respective component of the respective non-impact print head 416 ; 616 ; 816 be closed and, if necessary, appropriate adjustments made.

In an alternative or additional development, the method and / or the Prüfdruckbild is characterized 566 Preferably characterized in that by means of at least one non-impact print head 416 ; 616 ; 816 printed at least one proof image 566 by means of a sensor device 553 and in particular at least one in particular optical sensor 553 for example, the printing press 01 is detected and that at least one functional test operation is performed, in which by means of the sensor device 553 and in particular the at least one sensor 553 recorded data this at least one proof image 566 point generating facilities 583 of the at least one non-impact printhead 416 ; 616 ; 816 be checked for their function.

The aftertreatment device 550 preferably has at least one means of transport 561 on, which is further preferred as a suction transport 561 is trained. The above in the preceding and hereinafter described on suction transport means preferably applies accordingly. The aftertreatment device 550 preferably has at least one own drive M550 or engine 550 , in particular electric motor M550 or position-controlled electric motor M550 on, the further preferred that at least one means of transport 561 driving and / or driving is arranged. For example, the aftertreatment device 550 at least one pressure roller 552 or pressure roller 552 on, by means of the bow 02 against the at least one means of transport 561 can be acted upon with a force.

For example, if the at least one coating device 400 ; 600 ; 800 and / or another aggregate 100 ; 200 ; 300 ; 500 ; 550 ; 900 ; 1000 does not itself have sufficient transport options and / or for bridging distances is preferably at least one independent transport device 700 arranged, for example, as a transport unit 700 or as a transport module 700 is trained. The at least one transport device 700 For example, has at least one frame 744 on. The at least one transport device 700 preferably has at least one means of transport 711 on, which is further preferred as a suction transport 711 is trained. The above in the preceding and hereinafter described on suction transport means preferably applies accordingly. The transport device 700 preferably has at least one own drive M700 or engine M700 , in particular electric motor M700 or position-controlled electric motor M700 on, the further preferred that at least one means of transport 711 driving and / or driving is arranged.

As described, at least one painting device is preferred 800 , in particular at least one coating unit 800 arranged, for example, in addition to at least one primer 400 and / or at least one printing unit 600 , The preferably arranged at least one painting device 800 is a coating device 800 , The coating units 400 ; 600 ; 800 in the foregoing and in the following applies to the at least one painting device 800 corresponding. The as painting device 800 trained coating device 800 is preferably a drying device 500 downstream, which is further preferably designed as described above.

At least one shaping device is preferred 900 arranged, in particular after at least one coating device 400 ; 600 ; 800 and / or at least one drying device 500 , and / or after at least one substrate supply device 100 , The preferably arranged at least one shaping device 900 preferably has at least one shaping agent 901 , in particular at least one shaping cylinder 901 on. The at least one shaping agent 901 is for example as a punching agent 901 , in particular punching cylinder 901 educated. The at least one shaping device 900 is preferred as a rotary die 900 educated. By punching, parts of the bow can 02 For example, benefit, at least in part, from other parts of the sheet 02 For example, connection surfaces are separated, for example, cut and / or cut off. Alternatively or additionally, this is at least one shaping agent 901 for example, as a rill 901 , in particular scored cylinder 901 educated. By creasing predetermined bending points can be generated, for example, to produce folding cartons. Alternatively or additionally, this is at least one shaping agent 901 for example as a perforating agent 901 , in particular perforating cylinder 901 educated. By perforating intended for later transection areas of the bow 02 be generated. Alternatively or additionally, this is at least one shaping agent 901 for example, as breakout agent 901 , in particular breakout cylinder 901 educated. By breaking out a separation of preferably already partially separated areas of the arc 02 supported, for example, to empty punched holes and / or to benefit from the bow 02 break out, especially from their respective composite in preferably printed sheet. At least one disposal device is preferred 903 arranged for the removal of incurred in a punching and / or breaking waste material. Alternatively or additionally, the at least one shaping device 900 preferably at least one as lamination device 901 trained molding agent 901 on. Alternatively or additionally, the at least one shaping device 900 preferably at least one flatbed punching device 901 trained molding agent 901 on.

Preferably, the at least one shaping device 900 at least one counterpressure 902 , in particular at least one impression cylinder 902 on. This is at least preferred a shaping agent 901 and that at least one counterpressure 902 at least partially arranged one above the other. In a first embodiment of the at least one shaping device 900 this is at least a shaping agent 901 at least partially above the particular for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path and / or over the at least one counter-pressure means 902 arranged. In a second embodiment of the at least one shaping device 900 this is at least a shaping agent 901 at least partially below that in particular for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path and / or under the at least one counter-pressure means 902 arranged.

For example, this is at least one shaping agent 901 designed to be at least partially interchangeable, in particular to allow different order of the products from order to order. An example of this are exchangeable blades on a punching cylinder 901 ,

The at least one shaping device 900 preferably has at least one means of transport 911 on, which is further preferred as a suction transport 911 is trained. The above in the preceding and hereinafter described on suction transport means preferably applies accordingly. The at least one shaping device 900 preferably has at least one own drive M900 or engine M900 , in particular electric motor M900 or position-controlled electric motor M900 on, the further preferred that at least one means of transport 911 driving and / or driving is arranged. For example, the at least one shaping device 900 at least one pressure roller or pressure roller, by means of the arc 02 against the at least one means of transport 911 can be acted upon with a force. For example, the at least one shaping device 900 as at least one punching module 900 educated.

At least one substrate delivery device is preferred 1000 arranged, in particular as along the intended transport path last unit 1000 or module 1000 , The substrate delivery device 1000 preferably has at least one stacking device 1001 which, in particular, serves worked sheets 02 and / or out of the bow 02 punched out and / or broken out benefits a delivery pile 1002 supply.

The stacker 1001 has, for example, at least one means of transport 1011 on, for example, as a suction transport 1011 or as a simple conveyor belt 1011 is trained. The above in the preceding and hereinafter described on suction transport means preferably applies accordingly. The substrate delivery device 1000 preferably has at least one own drive M1000 or engine M1000 , in particular electric motor M1000 or position-controlled electric motor M1000 on, the further preferred that at least one means of transport 1011 driving and / or driving is arranged. For example, the substrate delivery device 1000 at least one pressure roller 1001 ; 1003 or pressure roller 1001 ; 1003 on, by means of the bow 02 against the at least one means of transport 1011 can be acted upon with a force. The at least one pressure roller 1001 ; 1003 or pressure roller 1001 ; 1003 is preferably part of the stacking device 1001 and serves for a safe transport of the bows 02 to the delivery pile 1002 , At least one positioning means is preferred 1001 ; 1004 arranged, which serves in particular, the bow 02 or benefit in an orderly manner on the delivery pile 1002 store. The at least one positioning means 1001 ; 1004 is for example as a particular controlled and / or regulated movable display stop 1001 ; 1004 formed and / or part of the stacking device 1001 , Preferably, at least one discharge device is arranged, for example, waste paper before reaching the delivery stack 1002 auszuschleusen.

The delivery pile 1002 is preferably on a carrier unit designed, for example, as a pallet 1006 1006 formed and / or is preferably removed automatically, for example by means of one or more carrier units 1006 transporting transport system 1007 , for example, at least one conveyor belt 1008 and / or transport wheels 1008 having. At least one lifting device is preferred 1009 arranged, by means of the Auslegestapel 1002 and / or a lower end of the delivery pile 1002 and / or at least one transport unit 1006 can be arranged at different heights.

A first example of a processing machine 01 has a sheet feeder module 100 , an investment module 300 , several each as a printing module 600 trained coating modules 600 with transport modules arranged in between 700 , preferably at least one drying module 500 , preferably at least one aftertreatment module 550 , at least one shaping module 900 and a delivery module 1000 on. Such a first example of processing machine 01 is schematic and exemplary in 2a . 2 B and 2c shown.

A second example of a processing machine 01 has a sheet feeder module 100 , a preparation module 200 , an investment module 300 , as a printing module 600 trained coating module 600 , a drying module 500 and a delivery module 1000 on. Such a second example of the processing machine 01 is schematic and exemplary in 12a shown.

A third example of a processing machine 01 has a sheet feeder module 100 , a preparation module 200 , as a primer module 400 trained coating module 400 , a first drying module 500 , an investment module 300 , as a printing module 600 trained coating module 600 , a second drying module 500 , as a painting module 800 trained coating module 800 , a third drying module 500 and a delivery module 1000 on. Such a third example of the processing machine 01 is schematic and exemplary in 12b shown.

A fourth example of a processing machine 01 has a sheet feeder module 100 , a preparation module 200 , a first investment module 300 , as a primer module 400 trained coating module 400 , a first drying module 500 , optionally a second investment module 300 , as the first printing module 600 trained coating module 600 , a second drying module 500 , a third investment module 300 , as a second printing module 600 trained coating module 600 , a third drying module 500 , optionally an inspection module or an inspection device, as a painting module 800 trained coating module 800 , a fourth drying module 500 and a delivery module 1000 on. Such a fourth example of the processing machine 01 is schematic and exemplary in 12c shown.

Another example of a processing machine 01 has a sheet feeder module 100 , optionally a particular first preparation module 200 , as a primer module 400 trained coating module 400 with preferably integrated drying device 506 or in the printing module 600 integrated drying device 506 , optionally a particular second investment module 300 , as a printing module 600 trained coating module 600 with integrated drying device 506 , optionally a particular third investment module 300 , optionally an inspection module or an inspection device 551 , as a painting module 800 trained coating module 800 with integrated drying device 506 and a delivery module 1000 on. The sheet feeder module 100 is preferably designed as described so that its singling device 109 the bows 02 isolated in at least one embodiment from below (such as in 2a and 18d shown) or in at least one other embodiment singulated from above (such as in 1 shown). For example, an optional not shown discharge device for bow 02 arranged, which is designed for example as Makulaturweiche or serves. The first as a print module 600 trained coating module 600 preferably has four job sites 618 on. From these four jobs 618 Preferably, a first and a second are each formed by at least one or at least two printhead rows, more preferably the two printhead rows of the third application site 618 a third color and the two print head rows of the fourth job site 618 a fourth color is assigned.

The sheet-fed printing machine is preferably characterized 01 in particular in such a further example in that after the second job 618 of the print module 600 at least one drying device 506 is arranged for intermediate drying and that after a last job 618 of the printing module at least one and more preferably at least two drying devices 506 are arranged. Optional are a fifth and a sixth job 618 arranged, analogous to the other application sites 618 are constructed and which a fifth or a sixth color is assigned. All order locations are preferred 618 and / or all drying devices 506 of the print module 600 on the one means of transport 611 of the print module 600 arranged aligned. At least one inspection device is preferred 551 on the one means of transport 611 of the print module 600 arranged aligned. At least one base is preferred 629 for an operator above the means of transport 611 of the print module 600 arranged and / or can be arranged. The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that along the for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path in any case after the printing module 600 and / or at least after the at least one non-impact coating module 400 ; 600 ; 800 at least one discharge device for sheets 02 is arranged. The sheet-fed printing machine is preferably characterized 01 alternatively or additionally characterized in that along the for the transport of substrate 02 , in particular printing material 02 and / or bow 02 provided transport path in any case after the printing module 600 and / or at least after the at least one non-impact coating module 400 ; 600 ; 800 at least one as a module 1000 formed substrate delivery device 1000 is arranged. The further example of the processing machine 01 is as described schematically and exemplified in 6c shown.

Depending on the requirement profile, a large number of other combinations is possible. In particular, also several printing units 600 or print modules 600 be arranged directly one behind the other and / or can, if necessary, for example, for a longer drying section several drying units 500 or drying modules 500 be arranged directly behind each other.

In an alternative or additional development, the printing press is characterized 01 preferably characterized in that the substrate 02 as at least one material web 02 is formed and / or the printing press 01 as a web-fed printing machine 01 and / or as a web printing machine 02 is trained. Then, for example, the substrate supply device 100 as Rollenabspulvorrichtung 100 trained and / or is for example the source of material 101 as a material roll 101 formed and / or is for example a substrate dispenser 1000 as a winding device 100 and / or cutting device 100 and / or folding device 100 educated. Web-shaped substrate 02 For example, deflecting, actively or passively driven rollers and / or cylinders and / or fixed guide elements and / or conveyor belts and / or suction systems can be transported. For example, in the case of a web press 01 the at least one transport path with defining component 09 the printing press 01 as a central cylinder 09 and / or as a conveyor belt 09 and / or as a guiding element 09 and / or as a roller 09 and / or as a transfer cylinder 09 and / or as an impression cylinder 09 educated. An example of such a web printing machine 01 or web-fed printing press 01 has a Rollenabspulvorrichtung 01 on, for example, as a reel splitter 100 can be designed for a flying role change, and has, for example, at least one coating device 300 ; 400 , in particular non-impact coating apparatus 300 ; 400 and at least one winding device 1000 on. For example, at least one of the coating devices 200 ; 600 designed as a form-fitting working coating method working coating device and / or formed as a primer and / or as a painting device. The at least one non-impact coating device 300 ; 400 For example, has at least one conveyor belt 09 and / or at least one central cylinder 09 and / or a plurality of guide elements 09 on. The at least one non-impact coating device 300 ; 400 has, for example, at least one coating site 12 ; 13 , preferably at least two coating sites 12 ; 13 on. Preferably, as the web printing machine 01 and / or web-fed printing press 01 trained printing machine 01 at least one register sensor 27 on. In the case of double-sided printing, the web printing machine preferably has its own sensor device for each substrate side 553 on.

LIST OF REFERENCE NUMBERS

01

Processing machine, sheet processing machine, printing machine, sheet-fed printing machine, non-impact printing machine, coating machine, corrugated sheet-processing machine, corrugated cardboard printing machine, punching machine, sheet-punching machine, sheet-fed rotary punching machine

02

Substrate, substrate, sheet, corrugated cardboard, corrugated sheet

03

Transfer means

100

Unit, module, substrate feeder, sheet feeder, sheet feeder unit, sheet feeder module

101

Stack turning device, part pile turning device

102

Area, room area, stack holding area

103

Partial stack divider, partial stack thrust device

104

Stack, feeder pile, first

105

-

106

partial stack

107

-

108

-

109

Singling device, sheet singling device

110

-

111

Translational element, means of transport, conveyor belt, lower, suction conveyor, suction belt, Saugkastenband, roller suction

112

Obstacle, weir, plate

113

Carrier unit, pallet

114

Extraction device, sheet separator

115

-

116

Handling element, lifting element, holding element, lifting vacuum cleaner, vacuum cleaner, transport suction

117

Translational element, means of transport, suction conveyor, suction belt, Saugkastenband, Rollensaugsystem, upper

118

-

119

Means of transport, transport roller, conveyor belt, suction conveyor, leaking, accelerator, secondary

120

-

121

exit

122

Pressure roller, pressure roller

123

-

124

-

125

-

126

-

127

front lay

128

page brand

129

-

130

-

131

-

132

-

133

-

134

Storage device, storage area

135

-

136

Accelerator, primary, transport roller, conveyor belt, suction conveyor, suction belt, suction box belt, roller suction system, suction gripper, suction roller

137

Front stop, front wall

138

-

139

Side stop, side wall

140

-

141

Backgauge, rear wall

142

-

143

-

144

spacer

144.1

Spacer, first

144.2

Spacer, second

145

-

146

-

147

Additional device, compression device

148

Compression body, first, roller

149

Compression body, second, counterpressure body, roller

150

-

151

force member

152

-

153

Sensor, overflow sensor

154

-

155

-

156

-

157

-

158

displacement means

159

Drive ( 158 )

160

-

161

supporting frame

162

frame

163

Deflection means ( 119 ; 136 ), Rotation body

164

sheet sensor

165

-

166

lifting frame

167

height adjustment

168

-

169

wave

170

-

171

shaft section

172

clutch

173

Side plate ( 166 )

174

Lifting beam ( 166 )

175

-

176

Höheneinstellexzenter

177

Höheneinstellwelle

178

height adjustment lever

179

deflecting

180

-

181

-

182

-

183

-

184

-

185

-

186

Height adjustment means

187

Rotation body, drive wheel

188

slide

189

Ausgleichexzenter

190

-

191

-

192

Torque transmission means, belt, chain, gear

193

cover

194

holding stage

200

Aggregate, module, preparation device, preparation aggregate, preparation module, conditioning device, conditioning aggregate,

201

Conditioning module activating device, calender, moistening device, discharge device, inerting device, cleaning device, deburring device, inspection device, suction device, blowing device, stripping device

202

Pressure roller, pressure roller

211

Means of transport, means of transport

300

Unit, module, facility, plant unit, plant module

301

aligning

302

Alignment roller, alignment roller

303

inspection device

311

Means of transport, suction transport means; suction belt

400

Aggregate, module, coater, coating unit, coating module, primer, primer, primer, primer module, flexo coating unit, flexo coating module, non-impact coating unit, jet coating unit, jet coating module, jet primer, jet primer module, ink jet coating unit, inkjet coating module, processing module

401

Coating agent stock, primer stock

402

Order cylinder, forme cylinder, primer form cylinder

403

Supply roller, anilox roller, primer supply roller

404

Cache, chambered scraper

405

-

406

supply

407

derivation

408

Counterpressure, impression cylinder, counter pressure belt

409

Coating site, primer site

410

-

411

Means of transport, suction conveyor, suction belt, suction box belt, roller suction system, incoming, upper, lower

412

-

413

-

414

-

415

-

416

Printhead, inkjet printhead

417

Means of transport, suction conveyor, suction belt, suction box belt, roller suction system, expiring, upper, lower

418

application site

419

Maintenance device, cleaning device

420

-

421

-

422

-

423

-

424

Printhead assembly

425

-

426

positioning

427

frame

428

Side wall ( 427 )

500

Unit, module, drying unit, drying unit, drying module, processing module

501

Energy delivery device, infrared radiation source

502

Energy delivery device, hot air source

503

Energy delivery device, UV radiation source arranged

504

dryer assembly

505

-

506

drying device

507

Drying facility

508

frame

509

-

510

-

511

Means of transport, means of transport

550

Aggregate, module, aftertreatment device, aftertreatment unit, aftertreatment module, conditioning device, conditioning unit, conditioning module

551

Einwirkeinrichtung, humidifying, Wiederbefeuchtungseinrichtung, cooling device, discharge device, inerting device, cleaning device, deburring device, inspection device, suction device, blowing device, stripping

552

Pressure roller, pressure roller

553

Sensor, CCD sensor, CMOS sensor; Sensor device, print image sensor device, line scan camera

554

-

555

-

556

-

557

-

558

-

559

-

560

-

561

Means of transport, means of transport

562

Area, situation check area, first

563

Range, color density test area, second

564

Range, functional testing area, third

565

-

566

Prüfdruckbild

567

Place, first

568

Place, second

569

Lageprüfform, drawing file

570

-

571

unit area

572

Function test element, line

573

-

574

check matrix

575

-

576

test line

577

test column

578

Generator matrix, nozzle matrix

579

Producer line, nozzle line

580

-

581

Producer column, nozzle column

582

Note location element

583

Dotsetting device, nozzle

584

Element, separator, line

600

Aggregate, module, coating unit, coating unit, coating module, printing unit, printing module, flexo coating unit, flexo coating module, non-impact coating unit, jet coating unit, jet coating module, jet printing unit, jet printing module, ink jet coating unit, ink jet coating module, ink jet printing unit, ink jet printing module, processing module

601

Coating stock, color supply, ink supply

602

Application cylinder, forme cylinder, color forme cylinder, ink form cylinder

603

Supply roller, anilox roller, ink supply roller, ink supply roller

604

Cache, chambered scraper

605

-

606

supply

607

derivation

608

Counterpressure, impression cylinder, counter pressure belt

609

Coating point, pressure point

610

-

611

Means of transport, suction conveyor, suction belt, suction box belt, roller suction system, incoming, upper, lower

612

-

613

-

614

-

615

-

616

Printhead, inkjet printhead

617

Means of transport, suction conveyor, suction belt, suction box belt, roller suction system, expiring, upper, lower

618

application site

619

Maintenance device, cleaning device

620

-

621

-

622

-

623

-

624

Printhead assembly

625

-

626

positioning

627

frame

628

Side wall

629

footprint

700

Unit, module, transport equipment, means of transport, transport unit, transport module

711

Means of transport, means of transport

718

Transport surface, counter-pressure surface, outer surface, lateral surface, conveyor belt, suction box

719

Vacuum chamber

720

-

721

suction

722

suction opening

723

suction

724

Deflection means, deflection rollers, deflection rollers, transport roller Transport roller

725

-

726

conveyor belt

727

suction box

728

suction chamber

729

-

730

-

731

-

732

-

733

Vacuum source, blower

734

mask

744

frame

800

Aggregate, module, coating unit, coating unit, coating module, coating unit, coating unit, coating unit, coating module, flexo coating unit, flexo coating module, non-impact coating unit, radiation coating unit, radiation coating module, jet coating unit, jet coating module, inkjet coating unit, inkjet coating module, processing module

801

Coating agent stock, paint stock

802

Task cylinder, form cylinder, paint form cylinder

803

Supply roller, anilox roller, paint supply roller

804

Cache, chambered scraper

805

-

806

supply

807

derivation

808

Counterpressure, impression cylinder, counter pressure belt

809

Coating station, painting station

810

-

811

Means of transport, suction conveyor, suction belt, suction box belt, roller suction system, incoming, upper, lower

812

-

813

-

814

-

815

-

816

Printhead, inkjet printhead

817

Means of transport, suction conveyor, suction belt, suction box belt, roller suction system, expiring, upper, lower

818

application site

819

Maintenance device, cleaning device

820

-

821

-

822

-

823

-

824

Printhead assembly

825

-

826

positioning

827

frame

828

Side wall

900

Aggregate, module, forming device, forming unit, forming module, punching module, processing module, rotary die-cutter

901

Forming means, forming cylinder, punching means, punching cylinder, scoring means, scoring cylinder, perforating means, perforating cylinder, breaking-out means, breaking-out cylinder, laminating means, flat-bed punching means

902

Counterpressure, impression cylinder

903

waste facility

911

Means of transport, means of transport

1000

Aggregate, module, substrate delivery device; Sheet delivery, delivery unit, delivery module

1001

stacker

1002

delivery pile

1003

Pressure roller, pressure roller

1004

Positioning device, delivery stop

1005

-

1006

support unit

1007

transport Systems

1008

Conveyor belt, transport roller

1009

lifting device

1010

-

1011

Means of transport, means of transport, conveyor belt

A

transversely

T

transport direction

V

Direction, vertical

M100

Drive, motor, electric motor, position-controlled ( 100 )

M101

Drive, motor, electric motor, position-controlled ( 136 ), Accelerator drive, primary

M102

Drive, motor, electric motor, position-controlled ( 119 ), Acceleration drive, secondary

M103

Drive, motor, electric motor, position-controlled ( 136 ), Accelerator drive, primary

M104

Drive, motor, electric motor, vertical drive, position-controlled

M200

Drive, motor, electric motor, position-controlled ( 200 )

M201

Drive, motor, electric motor, position-controlled ( 201 )

M300

Drive, motor, electric motor, position-controlled ( 300 )

M400

Drive, main drive, motor, electric motor, position-controlled ( 400 )

M401

Drive, PTO, engine, electric motor, position-controlled ( 400 )

M500

Drive, motor, electric motor, position-controlled ( 500 )

M550

Drive, motor, electric motor, position-controlled ( 550 )

M600

Drive, main drive, motor, electric motor, position-controlled ( 600 )

M601

Drive, PTO, engine, electric motor, position-controlled ( 600 )

M700

Drive, motor, electric motor, position-controlled ( 700 )

M800

Drive, main drive, motor, electric motor, position-controlled ( 800 )

M801

Drive, PTO, engine, electric motor, position-controlled ( 800 )

M900

Drive, motor, electric motor, position-controlled ( 900 )

M1000

Drive, motor, electric motor, position-controlled ( 1000 )

Claims (9)

Method for operating a printing machine (01), wherein in at least one test printing operation by means of at least one Non Impact print head (416; 616; 816) at least one proof image (566) is formed on at least one substrate (02) and wherein the at least one non-impact print head (416; 616; 816) comprises a plurality of dot forming means (583). arranged in the form of a respective producer matrix (578) of producer lines (579) and generator columns (581) on the at least one non-impact print head (416; 616; 816), and wherein the at least one proof image (566) comprises at least one functional inspection area (564). and wherein a plurality of functional test elements (572) is produced for establishing the functional test area (564) on the at least one substrate (02) by means of the dot-generating means (583) of the at least one non-impact print head (416; 616; 816); Function check area (564) has this plurality of function test elements (572), in the form of a test matrix (574) of test lines (576) and test columns (577) on the lower a substrate (02) are arranged, and wherein for a plurality of functional test elements (572) within the test matrix (574), in the direction of the test lines (576) pairwise adjacent functional test elements (572) of dot-generating devices (583) of a respective same Non Impact Printhead (416; 616; 816) paired adjacent the generatrix lines (579) in the respective one of the at least one non-impact printhead (416; 616; 816), and wherein a plurality of function probes (572) within the test matrix (574), in the direction of the test columns (577) pairwise adjacent functional test elements (572) originate from dot-generating devices (583) of a respective same non-impact print head (416; 616; 816) facing the generator columns (581) in the respective one of the at least one non-impact print head (581) Impact printhead (416; 616; 816) are arranged adjacent to each other in pairs and wherein the test lines (576) are oriented parallel to a transverse direction (A) and wherein for a plurality of functional test elements (572) within the test matrix (574) is that functional test elements (572), which are nearest neighbors in pairs in the transverse direction (A), are not related to absolute distances within the test matrix (574) are neighbors. Method according to Claim 1 , characterized in that the function test elements (572) are formed as respective lines (572) and / or formed as respective straight lines (572) and / or in the transport direction (T) of the at least one substrate (02) aligned lines ( 572) are formed and / or respectively generated and / or were respectively generated by means of a single respective point-generating device (583). Method according to Claim 1 or 2 , characterized in that the at least one test printing image (566) printed by means of the at least one non-impact print head (416; 616; 816) is detected by means of a sensor device (553) and in that at least one functional test procedure is carried out in which by means of the sensor device (553) data of this at least one test print image (566) point generating means (583) of the at least one non-impact print head (416; 616; 816) are checked for their function. Method according to Claim 3 , characterized in that at least one function measurement result is determined by the function test procedure and that at least one cleaning process is performed in dependence on the at least one function measurement result and / or at least one data assignment is changed as a function of the at least one function measurement result. Method according to Claim 1 or 2 or 3 or 4 , characterized in that the at least one proof image (566) is produced by means of at least one non-impact print head (416; 616; 816) of the printing press (01) on at least one substrate (02) and the at least one proof image (566) at least one position check area (562) and the position check area (562) for at least one and / or for at least two and / or for each of the at least one non-impact print head (416; 616; 816) at least one position check mold (569) and each position check form (569). at least two position indicator elements (582) arranged at a predetermined distance from each other and / or that the at least one proof image (566) has at least one color density check area (563) and the color density check area (563) for at least one and / or at least two and / or for each of the at least one non-impact print head (416; 616; 816) has at least one unit area (571) with a predetermined desired color density a and / or for at least one and / or for at least two and / or for each of the at least one non-impact print head (416; 616; 816) each having at least two unit surfaces (571), which are assigned to each other different target color densities. Method according to Claim 1 or 2 or 3 or 4 or 5 characterized in that among the plurality of functional test elements (572) within the test matrix (574) is a set of functional test elements (572) within the test matrix (574) that is at least 50% and / or at least 75% and / or at least 85% and / or at least 95% of the functional test elements (572) within the test matrix (574). A printed product, wherein the printed product has at least one substrate (02) and at least one proof image (566) disposed on the at least one substrate (02), and wherein a longitudinal direction (T) is a direction (T) along an edge of the substrate (02) and wherein a transverse direction (A) is a direction (A) orthogonal to the longitudinal direction (T), and wherein both the longitudinal direction (T) and the transverse direction (A) are parallel to at least one major surface of the substrate carrying the at least one proof image (566) (02) and wherein the at least one proof print image (566) has at least one function check area (564) and wherein the function check area (564) comprises a plurality of function check elements (572) which are provided in the form of a check matrix (574) from check lines (576). and test gaps (577) are disposed on the at least one substrate (02), and wherein for a plurality of functional test elements (572) within the test matrix (574) gil t, functional test elements (572), which are next-neighbor in pairs in the transverse direction (A), are not closest neighbors relative to absolute distances within the test matrix (574), and wherein the at least one test print image (566) comprises at least one attitude check region (562). comprising at least one Lageprüfform (569) and each Lageprüfform (569) at least two arranged at a predetermined distance from each other Lagehinweiselemente (582) and / or wherein the at least a proof image (566) has at least one color density check area (563) having at least one unit area (571) with a predetermined target color density. Printed product after Claim 7 , characterized in that for said plurality of functional test elements (572) within the test matrix (574) it is true that, in relation to the transverse direction (A), between such functional test elements (572), which in relation to the transverse direction (A) are pairwise neighbors within a same test line (57). 576), in absolute terms, there are a number of functional test elements (572) corresponding to the number of test lines (576) of the test matrix (574) reduced by 1 (one) and / or for that plurality of functional test elements (572) In the transverse direction (A), three functional test elements (572) are arranged between pairs of functional test elements (572), the functional test elements (572) of these pairs being arranged in a respective same test column (577) and at the same time in adjacent test lines (576). Printed product after Claim 7 or 8th , characterized in that the at least one test print image (566) has at least one color density test area (563) which has at least two unit areas (571) to which different desired color densities are assigned to one another.

Images