EP3838524A1 - Method for operating a flat bed press for cutting out - Google Patents

Abstract

A method according to the invention for operating a flatbed punch, whereby a punching module (7) of the flatbed punch (1) is fed with printing material (2) as a web (2) and a web section (2b) is separated from the web and removed as waste (2c) consists in that the web (2) is passed through the punching module (7) and that the web section (2b) is separated from the web in or after the punching module and removed as waste (2c). The invention makes it possible in an advantageous manner to manufacture products by punching a web and thereby reduce waste and downtimes.

Description

invention

The invention relates to a method having the features of the preamble of claim 1.

Technical field of the invention

The invention is in the technical field of the graphics industry and there in particular in the further processing of sheet or web-like printing material, such as paper, cardboard, cardboard or film, following printing inline or offline, by punching, in particular by flatbed punching.

State of the art

It is known to print a web of printing material in a printing machine and to process it further inline or offline in a flatbed die cutter. The problem can arise that the printing press is stopped and then restarted when a job is changed and that the web curls during the standstill: i.e. undesirable waves or other deformations or damage to the web, such as corrugated web edges. Curling can result from changes in humidity and / or ambient temperature, for example. Curling can cause problems when processing the substrate. When restarting, register shifts can also occur, i.e. the register between the print image and the punch image can be disturbed.

It is also known to remove an unusable (for example “curled”) section of the web as waste before further processing, that is to say before punching or before the flat-bed die cutter, for example, to wind it up. The problem here is that the rail transport has to be stopped a second time after it has started to move Introduce the beginning of the web into the punch and set the register. Only then can production begin. Overall, this leads to a high level of production downtime and high levels of waste.

The DE102012019992A1 discloses a flat bed cutter in which an unusable and unprinted web section (lying in front of a printed web section) is wound up before the flat bed cutter and removed by cutting. For this purpose, the web is unwound and conveyed back before cutting and then conveyed forwards again after cutting while maintaining the web tension. The newly created beginning of the web must be inserted into the flatbed die cutter. In addition, the register must be set.

task

It is therefore an object of the present invention to provide an improvement over the prior art, which makes it possible in particular to manufacture products by punching a web and thereby reduce waste and downtimes. In particular, it is intended to enable a flatbed punch to be started up quickly at the start of production ("new order") and, in particular, to avoid a flatbed punch having to be stopped again because of so-called curling when starting up.

Solution according to the invention

This object is achieved according to the invention by a method according to claim 1.

Advantageous and therefore preferred developments of the invention emerge from the subclaims as well as from the description and the drawings.

A method according to the invention for operating a flat-bed die-cutter, wherein printing material is fed as a web to a die-cutting module of the flat-bed die-cutter and a web section is separated from the web and removed as waste, is shown characterized in that the web is passed through the punching module and that the web section in or after the punching module is separated from the web and removed as waste.

The invention makes it possible in an advantageous manner to manufacture products by punching a web and thereby reduce waste and downtimes.

The invention advantageously also enables a flatbed punch to be started up quickly at the start of production (“new order”).

The invention also advantageously prevents a flatbed die cutter from having to be stopped again because of what is known as curling when starting up, e.g. for color matching or so-called proofing.

Furthermore, it is also advantageously possible to operate the so-called phase-in of a flatbed die cutter automatically and in register: The web (which is running again after a production change) can be cut, an unusable section of the web as waste (e.g. as a web section or sheet) from the removed and the running web processed in register, preferably punched. In this advantageous way, the downtime of the machine can be reduced and the amount of waste can be reduced considerably.

Developments of the invention

A preferred development of the invention can be characterized in that the track section is cut off by means of a punching knife of a punching tool or a punching knife of the punching module, or that the track section is only partially cut off by means of a punching knife of a punching tool or a punching knife of the punching module and then torn off, or that the track section is cut off by means of two punching knives of the punching module, or that the track section is only partially cut off by means of two punching knives of the punching module and then torn off. The punch knife can be used as a bow cutting knife or Arch perforating knife be formed. The punching knife can be arranged transversely to the web running direction and, depending on the format to be processed, at a correspondingly different position in the web running direction. In the case of two punching knives, one can be arranged at the beginning of the sheet (in front of the use of a sheet, for example at a distance of 1 to 2 mm from the front use) and one at the end of the sheet (after the use of a sheet). The punching knife can be designed as an edge knife (or two edge knives, one on each side of the web), which does not cut through the entire web, but only its edge area on the side of the outer panel.

A preferred development of the invention can be characterized in that the web section is cut off by means of a rotating or moving up and down cross cutter - different from a punching knife of the punching module, or that the web section is cut off by means of a - rotating or rotating cross cutter different from a punching knife of the punching module up and down moving cross cutter is only partially cut off and then torn off. In particular, the edges of the web can be cut with the cross cutter.

A preferred development of the invention can be characterized in that the severed web section is moved, preferably pulled, out of the punching module by means of a pair of rollers. At least one of the rollers of the pair is preferably driven, in particular driven intermittently and / or synchronously with the punching cycle.

A preferred development of the invention can be characterized in that the cross cutter is arranged before or after the pair of rollers.

A preferred development of the invention can be characterized in that the waste is removed as a web and wound up on a winding roller.

A preferred development of the invention can be characterized in that the waste is removed as a sheet and deposited or shredded, in particular using a guide plate.

A preferred development of the invention can be characterized in that the sheet is discharged from a transport path by means of a switch.

A preferred development of the invention can be distinguished by the fact that the punching module is phased in, i.e. the punching module is activated and / or operated during or after the removal of the web section in correct register and speed with a print image of an imprint on the web.

A preferred development of the invention can be characterized in that the feeding of the web to the flatbed die cutter and the passage of the web through the die cutting module started at the beginning of a production, then continued without stopping during the removal of the web section and the correct die cutting and only at the end of the production is stopped.

1. 1. Die Stanze kann, falls noch nicht erfolgt, in eine Wartungsstellung fahren. In der Wartungsstellung kann der Spalt zwischen einem oberem Stanztiegel und einem unterem Stanztiegel eines Stanzmoduls am größten sein.
2. 2. Es kann das gewünschte Stanzformat und ggf. das Stanznutzen-zu-Drucknutzen-Verhältnis vorgegeben werden, z.B. durch Eingabe eines Bedieners oder durch Auslesen aus einem digitalen Speicher, z.B. einem Cloud-basierten Speicher. Alternativ kann das Stanznutzen-zu-Drucknutzen-Verhältnis mittels eines Registersensors oder einer Registerkamera oder eines Code-Lesers automatisch erfasst werden. Alternativ kann ein Barcode bzw. Flächencode, z.B. QR oder Datamatrix, auf der Bahn vorgesehen sein und daraus der Wert ausgelesen werden. Weiter alternativ kann der Wert von einer der Flachbettstanze räumlich und/oder produktiv vorgeordneten Druckmaschine automatisch zur Verfügung gestellt werden.
3. 3. Die Materialbahn kann, falls noch nicht erfolgt, in einen Einlaufbereich des Stanzmoduls, z.B. in eine Walzenanordnung vor dem Stanzmodul, eingefädelt werden und kann dabei sowohl eine Einzugswalze als auch eine Vorschubwalze (oder mehrere solcher Walzen) und ggf. Gegenwalzen kontaktieren.
4. 4. Es gibt auch den Fall (alternativ zu 3), dass sich die Materialbahn bereits in dem Einlaufbereich befindet, und (nur) der Bahnabschnitt mit vorhandenem Curling entfernt werden soll.
5. 5. Die Materialbahn kann durch das Stanzmodul bewegt und an einer Wickelwalze befestigt werden.
6. 6. Es kann ein Einzug bzw. ein Einziehen der Bahn aktiviert werden (Start eines Modus "Einzug"). Dabei kann der Wert eines Abstands bzw. einer Wegstrecke zwischen einer Stanz-Registermarke (auf dem Bedruckstoff) zu einem Trennmesser des Stanzmoduls vorgegeben werden, z.B. durch Eingabe eines Bedieners oder durch Auslesen aus einem digitalen Speicher, z.B. einem Cloud-basierten Speicher. Alternativ kann der Abstand mittels eines Registersensor oder einer Registerkamera oder eines Code-Lesers automatisch erfasst werden. Alternativ kann ein Barcode bzw. Flächencode, z.B. QR oder Datamatrix, auf der Bahn vorgesehen sein und daraus der Wert ausgelesen werden. Weiter alternativ kann der Wert von einer der Flachbettstanze räumlich und/oder produktiv vorgeordneten Druckmaschine automatisch zur Verfügung gestellt werden.
7. 7. Das Starten des Modus "Einzug" kann bewirken, dass die Wickelwalze eingeschaltet bzw. rotiert wird und Bahnzug/Bahnspannung aufbaut. Eine (Bahn-) Speicherwalze kann eine optimale Stellung gebracht werden und dann angehalten bzw. in dieser Stellung gehalten werden. Eine Vorschubwalze kann von einem diskontinuierlichen Betrieb in einen kontinuierlichen Betrieb überführt werden. Kickerwalzen, welche im Stanzbetrieb Bogen aus dem Stanzbereich fördern, können sich in die optimale Stellung ("offen") bewegen und dann stehenbleiben. Falls eine Wickelwalze unter einem Bogentransporter angeordnet ist, kann eine untere der beiden Kickerwalzen kontinuierlich mit Bahngeschwindigkeit drehen und die obere der beiden Kickerwalzen kann in einer "offenen" Stellung sein.
8. 8. Die Stanze (und ggf. die vorgeordnete Druckmaschine oder ggf. ein Offline-Abwickler bevorzugt mit Zugstation und Werkzeugen) kann gestartet werden und die Bahn kann kontinuierlich bewegt werden. Dabei kann die Einzugswalze die Bahn in die Stanze hinein fördern und die Wickelwalze kann die Bahn durch die Stanze hindurch und wieder heraus fördern. Es können bewegliche Umlenkwalzen/Leitwalzen in den Bahnlauf hineinbewegt werden, bevorzugt etwa 20 mm.
9. 9. Die Position der Registermarke kann beobachtet oder überwacht werden. Die Registermarke kann entweder auf der Bahn vorgedruckt sein oder in der Druckmaschine aufgedruckt werden. Ein bevorzugter oder optimaler Einphasezeitpunkt kann berechnet oder vorgegeben werden. Dieser Einphasezeitpunkt ist jener Zeitpunkt, zu dem das Stanzmodul der Flachbettstanze aktiviert wird und mit dem registergerechten und geschwindigkeitsgenauem Stanzen beginnt. Das Stanzen erfolgt registergerecht, wenn das Stanzregister auf das Druckregister abgestimmt ist.
10. 10. Das registerhaltige Einphasen in den Stanzbetrieb kann manuell vom Bediener ausgelöst werden. Alternativ kann es in Abhängigkeit von einer bevorzugt vorabdefinierten und/oder vorgegebenen und/oder berechneten Wegstrecke, z.B. dem Materialbahnweg von einem Abwickler (oder einer anderen Bahn-Zufuhr zur Stanze) bis zur Stanze, ausgelöst werden. Weiter alternativ kann es über eine kontinuierlich arbeitende Sensorik zum Erfassen von Curling ausgelöst werden, wobei das Auslösen bevorzugt dann erfolgt, wenn das Curling eine bevorzugt vorgegeben Schwelle unterschreitet.
11. 11. Im Moment des Starts des Einphasens kann die Bahn bis zu einer bevorzugt berechneten oder vorgegebenen, passenden Registerposition bewegt werden. Eine hierzu aktivierte Vorschubwalze kann dann angehalten werden. Falls der Weg zur passenden Registerposition bereits überschritten ist, kann ein entsprechender Teil der Länge eines zu stanzenden Bogens bzw. Bahnabschnitts in das Stanzmodul bewegt und bis zur passenden Registerposition bewegt werden. Dann kann die Vorschubwalze angehalten werden und ein Stanztiegel der Flachbettstanze kann sich in Richtung Bahn bewegen, bevorzugt nach oben. Der Zug in der Bahn und/oder die Bahnspannung an der Wickelwalze wird dabei bevorzugt aufrechterhalten. Dann kann begonnen werden, die Stanzlinge mit einer Stanzform des Stanztiegels zu schneiden. Durch den Zug der Bahn mit der Wickelwalze, welche im Moment des Schnitts einen höheren Bahnzug erzeugen kann, kann die Bahn an den Schneidstellen abgerissen werden. Um einen Gitterabriss zu vermeiden, kann am Schnittpunkt des ersten Stanzlings an den Seiten des Bogens optional ein Messer in die Stanzform gesetzt werden. Hierdurch kann ein kontrolliertes Abschneiden an einer gewünschten Stelle sichergestellt werden. Alternativ kann durch ein zusätzliches Trennmesser die Bahn an einer gewünschten Stelle abgeschnitten werden, z.B. etwa 2 mm hinter der maximalen Einschubposition.
12. 12. Gleichzeitig kann die Bahn kontinuierlich mittels der Einzugswalze gefördert werden. Eine bewegliche Speicherwalze kann die geförderte Bahn, d.h. einen Bahnabschnitt bevorzugt vorgegebener Länge, speichern. Die Bewegung der Speicherwalze kann durch eine Kurvenscheibe erfolgen.
13. 13. Wenn sich der Stanztiegel wieder von der Bahn wegbewegt, bevorzugt nach unten, kann die Wickelwalze mit geringem Zug der Bahn betrieben werden und die Vorschubwalze kann die Bahn wieder in die Stanze fördern. Der gestanzte Bogen kann durch eine oder mehrere Kickerwalzen aus dem Stanzmodul herausgefördert werden. Hierzu kann die untere Kickerwalze wieder in den Modus "kicken" (Bogen fördern) wechseln. Gleichzeitig können sich die beweglichen Umlenkwalzen/Leitwalzen wieder von der Bahn wegbewegen, bevorzugt etwa 20 mm.
14. 14. Die Wickelwalze kann nach kurzer, bevorzugt vorgegebener Zeit automatisch ausgeschalten werden.
15. 15. Nun kann die Flachbettstanze im Normalbetrieb laufen und Stanzlinge herstellen. Der Modus "Einzug" ist beendet.

In the following (points 1 to 15), a preferred first specific development of the method according to the invention for operating a flat-bed punch using a winding roller is described in detail:

1. 1. The punch can move into a maintenance position if it has not already been done. In the maintenance position, the gap between an upper punching platen and a lower punching platen of a punching module can be the largest.
2. 2. The desired punching format and, if necessary, the ratio between the blank and the printed blank can be specified, for example by inputting an operator or by reading it from a digital memory, for example a cloud-based memory. Alternatively, the blank-to-print ratio can be recorded automatically by means of a register sensor or a register camera or a code reader. Alternatively, a barcode or area code, for example QR or data matrix, can be provided on the web and the value can be read out therefrom. As a further alternative, the value can be automatically made available by a printing press that is spatially and / or productively upstream of the flatbed die-cutter.
3. 3. If not already done, the material web can be threaded into an inlet area of the punching module, for example into a roller arrangement in front of the punching module and can contact both a feed roller and a feed roller (or several such rollers) and possibly counter rollers.
4. 4. There is also the case (as an alternative to 3) that the material web is already in the inlet area and (only) the web section with existing curling is to be removed.
5. 5. The material web can be moved through the punching module and attached to a winding roller.
6. 6. A draw-in or draw-in of the web can be activated (start of a "draw-in" mode). The value of a distance or a distance between a punching register mark (on the printing material) and a separating knife of the punching module can be specified, for example by input of an operator or by reading from a digital memory, e.g. a cloud-based memory. Alternatively, the distance can be recorded automatically by means of a register sensor or a register camera or a code reader. Alternatively, a barcode or area code, for example QR or data matrix, can be provided on the web and the value can be read out therefrom. As a further alternative, the value can be automatically made available by a printing press that is spatially and / or productively upstream of the flatbed die-cutter.
7. 7. Starting the "Infeed" mode can have the effect that the winding roller is switched on or rotated and web tension / web tension builds up. A (web) storage roller can be brought to an optimal position and then stopped or held in this position. A feed roller can be converted from discontinuous operation to continuous operation. Kicker rollers, which convey sheets out of the punching area during the punching operation, can move into the optimal position ("open") and then stop. If a winding roller is arranged under a sheet transporter, a lower of the two kicker rollers can rotate continuously at web speed and the upper of the two kicker rollers can be in an "open" position.
8. 8. The punch (and possibly the upstream printing machine or possibly an offline unwinder, preferably with a pulling station and tools) can be started and the web can be moved continuously. The feed roller can convey the web into the punch and the winding roller can pass the web through the punch and promote out again. Movable deflection rollers / guide rollers can be moved into the web path, preferably about 20 mm.
9. 9. The position of the register mark can be observed or monitored. The register mark can either be preprinted on the web or printed in the printing machine. A preferred or optimal single-phase time can be calculated or specified. This single-phase point in time is the point in time at which the punching module of the flatbed punch is activated and begins punching in the correct register and with precise speed. The punching is done in accordance with register if the punching register is matched to the printing register.
10. 10. The registering phase into the punching operation can be initiated manually by the operator. Alternatively, it can be triggered as a function of a preferably predefined and / or predetermined and / or calculated route, eg the material web path from an unwinder (or another web feed to the punch) to the punch. As a further alternative, it can be triggered via a continuously operating sensor system for detecting curling, the triggering preferably taking place when the curling falls below a preferably predetermined threshold.
11. 11. At the moment of the start of phasing, the path can be moved up to a preferably calculated or predetermined, suitable register position. A feed roller activated for this purpose can then be stopped. If the path to the appropriate register position has already been exceeded, a corresponding part of the length of a sheet or web section to be punched can be moved into the punching module and moved to the appropriate register position. Then the feed roller can be stopped and a punching platen of the flatbed punch can move in the direction of the web, preferably upwards. The tension in the web and / or the web tension on the winding roller is preferably maintained. Then you can begin to cut the diecuts with a die of the die. By pulling the web with the winding roller, which can generate a higher web tension at the moment of the cut, the web can be torn off at the cutting points. To avoid tearing the grid, a knife can optionally be placed in the die at the intersection of the first die cut on the sides of the sheet. In this way, controlled cutting at a desired point can be ensured. Alternatively, an additional cutting knife can be used to cut the web at a desired point, for example about 2 mm behind the maximum insertion position.
12. 12. At the same time, the web can be continuously conveyed by means of the feed roller. A movable storage roller can store the conveyed web, ie a web section preferably of a predetermined length. The storage roller can be moved by means of a cam.
13. 13. When the punching platen moves away from the web again, preferably downwards, the winding roller can be operated with a slight tension on the web and the feed roller can convey the web back into the punch. The punched sheet can be conveyed out of the punching module by one or more kicker rollers. For this purpose, the lower kicker roller can switch back to the "kick" mode (convey sheet). At the same time, the movable deflection rollers / guide rollers can move away from the web again, preferably about 20 mm.
14. 14. The winding roller can be switched off automatically after a short, preferably predetermined time.
15. 15. The flatbed die cutter can now run in normal operation and produce diecuts. "Feeding" mode has ended.

1. 1. Unverändert.
2. 2. Unverändert.
3. 3. Unverändert.
4. 4. Unverändert.
5. 5. Es kann ein Einzug bzw. ein Einziehen der Bahn aktiviert werden (Start Modus "Einzug"). Dabei kann eine Makulaturweiche aktiviert werden, d.h. sie kann in einen Modus und/oder in eine Position gebracht werden, in der sie Makulatur zur Makulaturauslage lenkt. Die Materialbahn kann durch das Stanzmodul bewegt werden und ein Stück, z.B. etwa 0,5 Meter, in die Makulaturweiche hinein bewegt werden, z.B. durch Schub oder Zug. Die Bahn kann eine Walze, z.B. eine Zugwalze samt Gegenwalze, in der Makulaturauslage kontaktieren.
6. 6. Unverändert.
7. 7. Das Starten des Modus "Einzug" kann bewirken, dass ein Querschneider der Makulaturauslage aktiviert wird und synchron mit dem Bahnvorschub betrieben wird. Eine (Bahn-) Speicherwalze kann eine optimale Stellung gebracht werden und dann angehalten bzw. in dieser Stellung gehalten werden. Eine Vorschubwalze kann von einem diskontinuierlichen Betrieb in einen kontinuierlichen Betrieb überführt werden. Kickerwalzen können sich in die optimale Stellung ("offen") bewegen und dann gegebenenfalls stehenbleiben.
8. 8. Die Stanze (und ggf. die vorgeordnete Druckmaschine) kann gestartet werden und die Bahn kann kontinuierlich bewegt werden. Dabei kann die Einzugswalze und gegebenenfalls die Vorschubwalze die Bahn in die Stanze hinein und bis zur Makulaturweiche fördern. Bevorzugt unmittelbar nach der Weiche kann der Querschneider die Bahn trennen und den abgetrennten Abschnitt bevorzugt über ein Leitblech ablegen. Alternativ kann der Bogen in einen Schredder bewegt werden.
9. 9. Unverändert.
10. 10. Unverändert.
11. 11. Im Moment des Starts des Einphasens kann die Bahn bis zu einer bevorzugt berechneten oder vorgegebenen, passenden Registerposition bewegt werden. Eine hierzu aktivierte Vorschubwalze kann dann angehalten werden. Falls der Weg zur passenden Registerposition bereits überschritten ist, kann ein entsprechender Teil der Länge eines zu stanzenden Bogens bzw. Bahnabschnitts in das Stanzmodul bewegt und bis zur passenden Registerposition bewegt werden. Dann kann die Vorschubwalze angehalten werden und ein Stanztiegel der Flachbettstanze bewegt sich in Richtung Bahn, bevorzugt nach oben.
12. 12. Eine Stanzform des Stanztiegels schneidet die herzustellenden Stanzlinge. Eine oder mehrere Kickerwalzen können die verbleidende Bahn aus der Stanze fördern. Die Makulaturweiche wird deaktiviert, d.h. wird zurück in einen Modus oder eine Position für die Produktion gebracht, sobald die abgeschnittene Bahn die Weiche passiert hat. Gleichzeitig kann die Bahn kontinuierlich mittels der Einzugswalze gefördert werden. Eine bewegliche Speicherwalze kann die geförderte Bahn, d.h. einen Bahnabschnitt bevorzugt vorgegebener Länge, speichern. Die Bewegung der Speicherwalze kann durch eine Kurvenscheibe erfolgen.
13. 13. Wenn sich der Stanztiegel wieder von der Bahn wegbewegt, bevorzugt nach unten, kann die Vorschubwalze die Bahn wieder in die Stanze fördern und den Bogen aus dem Stanzmodul fördern bzw. schieben. Der gestanzte Bogen kann durch eine oder mehrere Kickerwalzen aus dem Stanzmodul herausgefördert werden.
14. 14. Der gestanzte Bogen kann auf einem Bogentransporter, z.B. einem oder mehreren Bändern, abgelegt werden. Die Makulaturweiche befindet sich dabei weitehrhin in dem Modus oder der Position für die Produktion.
15. 15. Nun kann die Flachbettstanze im Normalbetrieb laufen und Stanzlinge herstellen. Die Bewegung des Querschneiders sowie ggf. der Materialtransport in die Makulaturauslage oder in den Shredder wird beendet. Der erste Bogen kann über den Bogentransporter zu einer nachgeordneten Ausbrecheinheit bewegt werden. Der Modus "Einzug" ist beendet.

In the following (points 1 to 15), a preferred second specific development of the method according to the invention for operating a flatbed die cutter using a waste delivery is described in detail, with some of the points remaining unchanged compared to the aforementioned first specific development:

1. 1. Unchanged.
2. 2. Unchanged.
3. 3. Unchanged.
4. 4. Unchanged.
5. 5. Infeed or infeed of the web can be activated (start mode "Infeed"). A waste diverter can be activated, ie it can be brought into a mode and / or into a position in which it directs waste to the waste delivery. The material web can be moved through the punching module and a piece, for example about 0.5 meters, can be moved into the waste switch, e.g. by push or pull. The web can contact a roller, for example a draw roller including a counter roller, in the waste delivery.
6. 6. Unchanged.
7. 7. Starting the "Infeed" mode can cause a cross cutter for the waste delivery to be activated and operated synchronously with the web feed. A (web) storage roller can be brought to an optimal position and then stopped or held in this position. A feed roller can be converted from discontinuous operation to continuous operation. Kicker rollers can move into the optimal position ("open") and then stop if necessary.
8. 8. The punch (and possibly the upstream printing machine) can be started and the web can be moved continuously. The feed roller and, if necessary, the feed roller can convey the web into the punch and up to the waste switch. Preferably immediately after the switch, the cross cutter can cut the web and deposit the cut section preferably over a guide plate. Alternatively, the sheet can be moved into a shredder.
9. 9. Unchanged.
10. 10. Unchanged.
11. 11. At the moment of the start of phasing, the path can be moved up to a preferably calculated or predetermined, suitable register position. A feed roller activated for this purpose can then be stopped. If the path to the appropriate register position has already been exceeded, a corresponding part of the length of a sheet or web section to be punched can be moved into the punching module and moved to the appropriate register position. Then the feed roller can be stopped and a punching platen of the flatbed punch moves in the direction of the web, preferably upwards.
12. 12. A die of the die cuts the die cuts to be produced. One or more kicker rollers can convey the remaining web out of the punch. The waste gate is deactivated, ie it is returned to a mode or a position for production as soon as the cut web has passed the gate. At the same time, the web can be continuously conveyed by means of the feed roller. A movable storage roller can move the conveyed web, ie a web section preferably of predetermined length, save. The storage roller can be moved by means of a cam.
13. 13. When the punching platen moves away from the web again, preferably downwards, the feed roller can convey the web back into the punch and convey or push the sheet out of the punching module. The punched sheet can be conveyed out of the punching module by one or more kicker rollers.
14. 14. The punched sheet can be placed on a sheet transporter, for example one or more belts. The waste diverter is still in the mode or position for production.
15. 15. The flatbed die cutter can now run in normal operation and produce diecuts. The movement of the cross cutter and, if necessary, the transport of material to the waste delivery or the shredder is stopped. The first sheet can be moved to a downstream stripping unit via the sheet transporter. "Feeding" mode has ended.

1. 1. Unverändert.
2. 2. Unverändert.
3. 3. Unverändert.
4. 4. Unverändert.
5. 5. Unverändert.
6. 6. Unverändert.
7. 7. Das Starten des Modus "Einzug" kann bewirken, dass ein Querschneider der Makulaturauslage aktiviert wird und synchron mit dem Bahnvorschub betrieben wird. Eine (Bahn-) Speicherwalze kann eine optimale Stellung gebracht werden und dann angehalten bzw. in dieser Stellung gehalten werden. Eine Vorschubwalze kann von einem diskontinuierlichen Betrieb in einen kontinuierlichen Betrieb überführt werden. Kickerwalzen können derart bewegt, insbesondere rotiert werden, dass ein abgetrennter Bogen in die Makulaturweiche gefördert wird.
8. 8. Die Stanze (und ggf. die vorgeordnete Druckmaschine) kann gestartet werden und die Bahn kann kontinuierlich bewegt werden. Dabei kann die Einzugswalze und ggf. die Vorschubwalze die Bahn kontinuierlich in die Stanze hinein fördern. Der Querschneider kann die Bahn trennen und die Kickerwalzen können den abgetrennten Abschnitt zur Makulaturweiche fördern. Von dort kann der Bogen bevorzugt über ein Leitblech gefördert und abgelegt werden. Alternativ kann der Bogen in einen Schredder bewegt werden.
9. 9. Unverändert.
10. 10. Unverändert.
11. 11. Unverändert.
12. 12. Eine Stanzform des Stanztiegels schneidet die herzustellenden Stanzlinge. Eine oder mehrere Kickerwalzen können den letzten Bogen aus der Stanze fördern. Die Makulaturweiche wird deaktiviert, d.h. wird zurück in einen Modus oder eine Position für die Produktion gebracht, sobald der letzte Bogen die Weiche passiert hat. Der Querschneider kann abgeschaltet werden. Gleichzeitig kann die Bahn kontinuierlich mittels der Einzugswalze gefördert werden. Eine bewegliche Speicherwalze kann die geförderte Bahn, d.h. einen Bahnabschnitt bevorzugt vorgegebener Länge, speichern. Die Bewegung der Speicherwalze kann durch eine Kurvenscheibe erfolgen.
13. 13. Unverändert.
14. 14. Unverändert.
15. 15. Nun kann die Flachbettstanze im Normalbetrieb laufen und Stanzlinge herstellen. Der Materialtransport in die Makulaturauslage oder in den Shredder wird beendet. Der erste Bogen kann über den Bogentransporter zu einer nachgeordneten Ausbrecheinheit bewegt werden. Der Modus "Einzug" ist beendet.

In the following (points 1 to 15), a preferred third specific development of the method according to the invention for operating a flatbed die cutter using a waste delivery is described in detail, with some of the points remaining unchanged compared to the aforementioned second specific development:

1. 1. Unchanged.
2. 2. Unchanged.
3. 3. Unchanged.
4. 4. Unchanged.
5. 5. Unchanged.
6. 6. Unchanged.
7. 7. Starting the "Infeed" mode can cause a cross cutter for the waste delivery to be activated and operated synchronously with the web feed. A (web) storage roller can be brought to an optimal position and then stopped or held in this position. A feed roller can be converted from discontinuous operation to continuous operation. Kicker rollers can be moved, in particular rotated, in such a way that a severed sheet is conveyed into the waste switch.
8. 8. The punch (and possibly the upstream printing machine) can be started and the web can be moved continuously. The feed roller and possibly the feed roller can continuously convey the web into the punch. The cross cutter can cut the web and the kicker rollers can convey the cut section to the waste gate. From there, the sheet can preferably be conveyed and deposited via a guide plate. Alternatively, the sheet can be moved into a shredder.
9. 9. Unchanged.
10. 10. Unchanged.
11. 11. Unchanged.
12. 12. A die of the die cuts the die cuts to be produced. One or more kicker rollers can convey the last sheet out of the punch. The waste gate is deactivated, ie it is returned to a mode or position for production as soon as the last sheet has passed the gate. The cross cutter can be switched off. At the same time, the web can be continuously conveyed by means of the feed roller. A movable storage roller can store the conveyed web, ie a web section preferably of a predetermined length. The storage roller can be moved by means of a cam.
13. 13. Unchanged.
14. 14. Unchanged.
15. 15. The flatbed die cutter can now run in normal operation and produce diecuts. The material transport into the waste delivery or into the shredder is ended. The first sheet can be moved to a downstream stripping unit via the sheet transporter. "Feeding" mode has ended.

Not all details of the aforementioned training courses have to be implemented; it is also possible for only a single detail or just any selection of the details of the respective further development to be implemented. A control device, for example a digital computer, can also be present to carry out the respective method in particular, for example, to save and process individual or all of the data mentioned below.

The features of the invention, the developments of the invention and the exemplary embodiments of the invention also represent advantageous developments of the invention in any combination with one another. Further developments of the invention can also have the individual features or combinations of features disclosed in the above section "Technical Field of the Invention".

Embodiments of the invention

The invention and its preferred developments are described in more detail below with reference to the drawings using preferred exemplary embodiments. Features that correspond to one another are provided with the same reference symbols in the figures.

Figur 1

Durchführung einer ersten bevorzugten Ausführungsform;

Figur 2

Durchführung einer zweiten bevorzugten Ausführungsform; und

Figur 3

Durchführung einer dritten bevorzugten Ausführungsform.

The figures show:

Figure 1

Carrying out a first preferred embodiment;

Figure 2

Implementation of a second preferred embodiment; and

Figure 3

Carrying out a third preferred embodiment.

The figures each show a machine 1 performing various preferred embodiments of the method according to the invention. The punching process is described below, among other things; alternatively, it can be embossed or simultaneously punched and embossed.

The figures each show a machine 1, in particular a flat bed punch 1 or in particular comprising a flat bed punch 1. Printing material 2 is fed to the punch as a web 2, in particular made of paper, cardboard, cardboard or film, preferably as a cardboard web. The web can be unwound from a supply roll (not shown). The supply roll can be accommodated in a roll unwinder (not shown).

The web is preferably printed on at least one side or bears at least one printing register mark. The printing can be done with the same machine, i.e. the machine can comprise at least one printing unit upstream of the punch. The machine can be a printing machine with an integrated or inline connected flatbed die cutter. The printing unit can be an offset printing unit, a gravure printing unit, a letterpress unit or flexographic printing unit or a digital printing unit, in particular an ink printing unit. Several identical or different upstream printing units are also possible. Alternatively, the printing can be done with another machine, e.g. a separate printing machine.

The web is fed via preferably several rollers 3 along a preferably winding transport path 4. At least roller 3a and / or 20 can be a pull roller, i.e. it can be motor-driven. At least the roller 3b can cooperate with a counter roller or pitch roller. The counter roller or the pitch roller can be segmented. At least the roller 3c can be a storage roller, i.e. it can be arranged to be movable and it can be driven by a motor. At least the roller 3a and / or 20 can be a steel roller,

The transport path can include a so-called curl sensor 5 and / or a register sensor 6. The curl sensor is used to detect so-called curling, i.e. unwanted waves or other deformations or damage to the web, such as wavy web edges. Curling can result from changes in humidity and / or ambient temperature, for example. Curling can cause problems when processing the substrate. The register sensor is used to detect the print register of an imprint on the web. The register sensor can be used to capture a barcode or an area code. The transport path can include a so-called decurler 21.

The figures each show a punching module 7 of the flatbed punch 1. The module can have an upper punching platen 8, for example with a punching tool or a punching die or punching plate, and a lower punching platen 9, for example with a counter tool or a Scoring plate, include. At least one of the two crucibles can be arranged to be movable for the punching, for example the lower crucible can perform lifting and lowering movements. At least one of the two crucibles can preferably comprise several punching knives (not shown). At least one of the two crucibles can preferably comprise a separating knife 10. The separating knife is preferably used to separate a punched sheet 2a from the web 2. The cutting knife can cut the web 2 in full width. Alternatively, the cutting knife can only partially cut through the web, for example only in its web edge area.

The figures each show an upper so-called kicker roller 11 and a lower kicker roller 12. The kicker rollers are preferably used to grasp a severed sheet 2a, preferably in its trailing third, and to convey it out of the punching module 7. At least one of the kicker rollers preferably comprises a lip, for example a rubber lip. This lip can grasp a sheet separated from the web.

The Figure 1 shows embodiments with preferably one or more deflection rollers 3d and with a preferably motor-driven winding roller 13. The web 2 is guided along a transport path 4b over the deflection rollers to the winding roller. The winding bug is used to wind up an interfering section 2b of the web 2.

The in Figure 1 (and the one in the Figures 2 and 3 The section 2b shown) can, for example, have what is known as curling or be otherwise unusable deformed, damaged and / or printed. The section is preferably separated from the web by transverse cutting or partial transverse cutting and tearing. The cut off section forms waste.

Figure 1 shows a first embodiment in which the machine 1 comprises a winding roller 13 which is arranged in front of the punching module 7. In this case, the web 2 is preferably guided to the winding roller via a plurality of deflection rollers 3d. Figure 1 shows second and third embodiments (shown in dashed or dotted lines) in which the respective winding roller is arranged after the punching module 7. The web 2 is here preferably guided to the winding roller via a deflection roller 3d. The 3d reels are preferably mobile. "Before" and "after" are to be understood spatially: in the first embodiment 1 the winding roller is arranged relative to the module 7 in its inlet-side area; in the second and third embodiment in its outlet-side area. In the first and in the second embodiment, the respective winding roller is arranged "at the top"; in the third embodiment "below". 'Above "and" below "are also to be understood spatially: in the first and in the second embodiment the respective winding roller is arranged above the plane 14 of the transport path of the printing material 2 through the module 7; in the third embodiment below the plane of this path. An embodiment with a short transport path 4b is preferably used, eg the second or the third embodiment. If a machine of the prior art is retrofitted, the first embodiment can be the preferred one if the winding roller is already at the position "in front of the punching module and below the plane "is present. In all three embodiments, the web 2 is advantageously passed through the punching module 7 before it is guided to the winding roller. This enables the advantageous severing of the web in the punching module and preferably with separating elements of the punching module, e.g. one or more Punch knife / s or at least one cutting knife, allows.

In addition to the three embodiments shows Figure 1 How the web guide to the winding roller 13 is solved in the prior art: The web 2 is guided along the transport path 4a shown in dashed lines, i.e. disadvantageously in front of the punching module 7 or not through it, from the storage roller 3c to the winding roller.

The Figure 2 shows two further embodiments (four and five) with preferably a waste switch 15, preferably a guide plate 15a and preferably with a waste delivery 16. A severed web section or sheet 2a is guided over the switch to the delivery; the baffle can support this. In addition or as an alternative to the delivery, a shredder (not shown) can be provided for the waste. The web section or the sheet 2a can be severed from the web 2 by a cutting device 17, for example a rotating cross cutter 17. This can be arranged between the punching module 7 and the kicker rollers 11 and 12; alternatively (in dashed lines) between the kicker rollers and the delivery. The Winding roller 13 is not required in this embodiment; however, it can still be present for other purposes.

The Figure 3 shows two further embodiments (six and seven) with also preferably a waste switch 15, preferably a guide plate 15a and preferably with a waste delivery 16. A severed web section or sheet 2a is guided over the switch to the delivery; the baffle can support this. In addition or as an alternative to the delivery, a shredder (not shown) can be provided for the waste. The web section or the sheet 2a can be severed from the web 2 by a cutting device 17, for example a rotating cross cutter 17. This can be arranged between the punching module 7 and the kicker rollers 11 and 12; alternatively (in dashed lines) between the kicker rollers and the delivery. The winding roller 13 is not required in this embodiment; however, it can still be present for other purposes.

List of reference symbols

1

Machine or flatbed die cutter

2

Substrate or web

2a

arc

2 B

Track section

2c

Waste

3

Rollers

3a

Feed roller

3b

Roller with counter roller

3c

Storage roller

3d

Guide rollers

4th

Transport path (supply rail)

4a

Transport path

4b

Transport path

4c

Transport path (punched product)

5

Curl sensor

6th

Register sensor

7th

Punching module

8th

upper die

9

lower platen

10

Cutting knife

11

upper kicker roller

12th

lower kicker roller

13th

Winding roller

14th

level

15th

Waste deflector

15a

Baffle

16

Waste delivery

17th

Cutting device or sheeter

18th

Print image

19th

Control device

20th

Feed roller

21

Decurler

Claims (10)

A method for operating a flatbed die-cutter, wherein a die-cutting module (7) of the flat-bed die-cutter (1) is fed with printing material (2) as a web (2) and a web section (2b) is separated from the web and removed as waste (2c),
characterized,
that the web (2) is passed through the punching module (7) and that the web section (2b) is separated from the web in or after the punching module and removed as waste (2c). Method according to claim 1,
characterized,
that the track section (2b) is cut off by means of a punching knife (10) of a punching tool or a punching knife of the punching module (7), or that the track section is only partially cut off by means of a punching knife of a punching tool or a punching knife of the punching module and then torn off, or that the Track section (2b) is cut off by means of two punching knives (10) of the punching module (7), or that the track section is only partially cut off by means of two punching knives (10) of the punching module and then torn off. Method according to claim 1,
characterized,
that the web section (2b) is cut by means of a - different from a punching knife of the punching module - rotating or moving up and down cross cutter (17), or that the web section by means of a - rotating or up and down - different from a punching knife of the punching module Moving cross cutter is only partially cut off and then torn off. Method according to one of Claims 2 or 3,
characterized,
that the severed web section (2b) is moved out of the punching module (7) by means of a pair of rollers (11, 12). Method according to claims 3 and 4,
characterized,
that the cross cutter (17) is arranged before or after the pair of rollers (11, 12). Method according to one of Claims 1 to 5,
characterized,
that the waste (2c) is removed as a web (2c) and wound up on a winding roller (13). Method according to one of Claims 1 to 5,
characterized,
that the waste (2c) is removed as a sheet (2c) and deposited or shredded. Method according to claim 7,
characterized,
that the sheet (2c) is discharged from a transport path (4c) by means of a switch (15). Method according to one of the preceding claims,
characterized,
that the punching module (7) is activated and / or operated during or after the removal of the web section (2b) in register and accurate to the speed of a print image (18) of an imprint on the web (2). Method according to claim 9,
characterized,
that the feed of the web (2) to the flatbed die cutter (1) and the passage of the web through the punching module (7) started at the beginning of a production, then continued without stopping during the removal of the web section and the in-register and precise punching and only at the end of the Production is stopped.

Images