EP1754598A2 - Process to control a machine for sheet processing - Google Patents

Abstract

Between a plate cylinder (10) and a rubber-blanket cylinder (8) or between a form/printing cylinder (9) and a sheet-guide cylinder (6) there is a 1:1 uneven speed transmission ratio. Performance is monitored as to whether there is a failure in a single drive mechanism and whether, immediately upon such a failure, a control device starts to synchronize angular positions between the cylinders.

Description

The invention relates to a method for controlling a processing machine for sheet material according to the preamble of claims 1 to 4. The processing machine is preferably designed as a sheet material processing printing machine or varnishing machine.

Sheet-fed printing machines and painting machines have a variety of facilities that need to be driven in the printing / painting, setting or maintenance operation of the respective machine. In classical constellations all driven devices of such a printing or coating machine are driven by a so-called main drive. All driven devices are then usually mechanically connected via a transmission technology coupling, in particular a closed gear train, with the main drive.

In modern concepts for sheet material processing printing presses at least some of the driven devices of a printing press are driven by an engine. Thus, it is already known from the prior art to drive form cylinders or plate cylinders of printing units of the printing press by virtue of the fact that each of the form cylinder is assigned a separate drive, so that the form cylinder can be driven independently of the main drive.

A sheet material processing printing machine whose printing works have self-propelled forme cylinder (plate cylinder), is from the EP 0 834 398 B1 known, which are coupled according to this prior art driven by the main drive rubber cylinder of the printing units and the respective means of individual drive motor driven plate cylinder or forme cylinder each printing unit via a respective switchable coupling coupled or decoupled. The approach of certain positions of plate or forme cylinder is carried out by a position query (via a machine control) of the other provided with angle encoders cylinder. In an embodiment, it is disclosed that in normal printing operation, the individual drives of plate or forme cylinder is energized, so that this in order to achieve a constant tooth flank in the gear train between plate or forme cylinder and blanket and impression cylinder braking torques on the plate or Exercise a form cylinder. The avoidance of tooth flank changes is a measure to increase the print quality. Furthermore, it is disclosed that the plate or form cylinder is equipped with a Druckbeistellvorrichtung.

In printing or varnishing, it is well known that Schmitz rings are arranged on both sides of the plate and blanket cylinders. These bearer rings are hardened steel rings which roll against each other under mutual pressure of the cylinders (pressure pressure) and with usually the same outside diameters as friction wheel gears.

In order to ensure safe operation of a printing or varnishing machine, protective measures must be implemented on the control side for all hazards caused by drives of the processing machine. This applies both to the main drive with gear train as well as each independently driven by the main drive drive a self-powered device, especially in driven by single drive plate or forme cylinders. To ensure safe operation of a drive are implemented basic protective measures or safety requirements, in particular measures for a safe shutdown of the drive, measures against an unexpected start of the drive, measures to maintain maximum speeds of the drive, measures to comply with maximum distances of the drive and measures to maintain a correct direction of rotation of the same. If one of the safety measures fails, in particular the failure of a single drive or an angle encoder, the processing machine must be shut down. If such a security measure fails during the printing or painting operation, then the sheet material is at least partially wastepaper and the job must be at least partially reprocessed at a later date. This is on the control side and processing side associated with a relatively high cost and a total disadvantage.

The object of the invention is to provide a method of the type mentioned above, according to which in such a processing machine with at least one individually driven, a printing plate-bearing cylinder in the presence of a fault, a production of the printing or Lackierbetriebes is still guaranteed.

The object is solved by the training features of claim 1 to 4. Further developments emerge from the dependent claims.

A first advantage of the invention is based on the fact that directly in the presence of a fault, in particular in case of failure of a single drive or an angle encoder, a synchronous operation between the driven by a main drive and a gear train cylinders or rollers of a printing unit or coating unit and the respective own motor means Single-drive driven plate / forme cylinder is specified in the printing / painting operation. The main drive can be formed by several in the gear train feeding drives. In particular, a solution is shown, after the plate cylinder of a Printing unit or the forme cylinder of a coating unit in case of failure of a single drive or an angle encoder again Passer can be positioned just for the production pressure.

As a second advantage is to specify that in case of failure of a single drive or on the plate cylinder or blanket cylinder or the forme cylinder arranged angle encoder a begun printing / Lackierauftrag can be continued in emergency mode and only a small waste part occurs.

A third advantage is that at least parts for the preparation of the print run in emergency mode can be automated.

The specification "single drive of the forme cylinder in the coating unit" also includes an own motor driven (single drive) drive of a forme cylinder in a flexographic printing unit. Likewise, the term "printing form" includes a paint form or a flexographic printing form.

For the purposes of the present invention, it is proposed that in case of failure of a single drive by means of a control device or the occurrence of Passerdifferenzen on the sheet material (printed image) or failure of an angle encoder synchronization of the angular positions between the driven by the main drive and gear train cylinders of a printing unit or coating unit and the respective driven by single drive plate or forme cylinder is specified.

Fig. 1:

eine Bogenrotationsdruckmaschine mit mehreren Druckwerken und einem Lackwerk.

The invention will be explained in more detail below using an exemplary embodiment. Showing:

Fig. 1:

a sheet-fed rotary printing machine with several printing units and a coating unit.

The sheet-fed rotary printing machine is shown for example with a feeder 4, five offset printing units 1, a coating unit 2 and a boom 5. Each offset printing unit 1 has in a known manner an inking unit 12 with inking rollers, a cylinder 10 carrying a printing plate, here as a plate cylinder 10, and a blanket cylinder 8. If necessary, each plate cylinder 10 is associated with a dampening unit.
The coating unit 2 has in a known manner a metering device 11 for the medium to be processed (paint, ink), preferably a chambered doctor blade with assigned, screened applicator roll, as well as a printing plate (paint form, flexographic printing) carrying cylinder 9, here as a forme cylinder 9, on.

Plate cylinder 10 and forme cylinder 9 each carry at least one printing plate and are in contact with the inking rollers of the inking unit 12 or the applicator roller of the metering device 11. For sheet transport in the conveying direction 3 more sheet guiding cylinder 6 are provided. In each offset printing or coating unit 1, 2 is designed as a printing cylinder sheet guiding cylinder 6 with the respective blanket cylinder 8 and form cylinder 9 in functional connection, wherein in the first offset printing unit 1 formed as a printing cylinder sheet guiding cylinder 6 a collision drum is arranged as a sheet guiding cylinder 6. For the sheet transport between the printing cylinder 2 designed as a pressure cylinder sheet of the printing or coating units 1, 2 more sheet guiding cylinder 6 are arranged as a transfer cylinder. The sheet-guiding cylinders 6 designed as pressure cylinders and the blanket cylinders 8 and the forme cylinder 9 are preferably associated with washing devices 7.
At least all of the sheet guiding cylinders 6 are coupled to each other via an unspecified main drive (at least one feeding drive motor) and a closed gear train on the drive side. In this gear train also the blanket cylinder 8 of the offset printing units 1, each with a blanket cylinder gear are integrated. In the coating units 2 of the forme cylinder 9 adjacent sheet guiding cylinder 6, each with a sheet guiding cylinder gear integrated into this gear train.

Preferably, each plate cylinder 10 and preferably each form cylinder 9 is - mechanically decoupled from the main drive and gear train - each by a single drive (also called direct drive), ie a separate drive motor, driven. These individual drives are coupled to a machine control and are driven in a predeterminable manner with respect to the main drive and gear train with the sheet guiding cylinders 6 in the coating units 2 and additionally coupled with the main drive and gear train blanket cylinders 8 at the offset printing units 1 individually. When form cylinder 9 and plate cylinder 10 is therefore a self-propelled by means of individual drive device of the sheet-fed rotary printing press.
It should be noted that the sheet-fed rotary printing press may include a plurality of (main) drives that feed into the closed gear train. In the offset printing units 1, each with the adjacent sheet guiding cylinder 6 drive side coupled blanket cylinder 8 is driven by the main drive with gear train and in the offset printing units 1, preferably each plate cylinder 10 is driven by self-propelled individual drive. The forme cylinder 9 in the coating unit 2 adjacent sheet guiding cylinder 6 is driven by the main drive with gear train and preferably each forme cylinder 9 of the coating units 2 is driven by self-propelled individual drive.
Alternatively, a sheet-fed rotary printing machine having a plurality of offset printing units 1 or coating units 2 can also have individual offset printing units 1 and / or coating units 2 whose plate or forme cylinders 10, 9 have no individual drive. Such conventional plants 1, 2 are driven in total by means of the main drive and gear train within the processing machine. The corresponding plate or forme cylinder 10, 9 are integrated into the closed gear train.

In offset printing units 1, at least one clutch is arranged between the cylinders driven by the main drive and the gear train (sheet guiding cylinders 6 and blanket cylinder 8) and the respective plate cylinder 10 driven by an individual drive. Preferably, a preferably non-positively acting clutch is arranged between the blanket cylinder 8 and the plate cylinder 10 of an offset printing unit 1.
In normal pressure operation, in which the plate cylinder 10 is driven by an individual motor of the single drive, the clutch is opened so as to decouple the plate cylinder 10 from the main drive or from the blanket cylinder (part of the gear train).

In Lackwerken 2 (alternatively flexographic printing) at least one clutch between the driven by the main drive and gear train sheet guiding cylinders 6 and the respective by means of individual drive motor driven form cylinder 9 is arranged. In solid color operation, in which the forme cylinder 9 is driven by an individual drive by the individual drive, the clutch is opened so as to decouple the forme cylinder 9 from the main drive.

The individual drives are driven in a predeterminable manner by means of a respective control device. The control device or several control devices are preferably coupled in terms of circuitry to a control station of the processing machine.

A first method is characterized in that between the plate cylinder 10 and the associated blanket cylinder 8 or between the forme cylinder 9 and the associated sheet guiding cylinder 6, a ratio not equal to 1: 1, including not equal to 1: 2, not equal to 1: 3 or not equal to 1: 4 , is provided or is available. This ratio can from slightly different cylinder diameters (including printing form, blanket), from slightly different Schmitzringdurchmessern, from a Gentle Druckbeistellung two cylinders or by a different peripheral speed of a pressurized (frictional) cylinder (plate cylinder 10, forme cylinder 9) to a driven by the main drive and gear train cylinder (blanket cylinder 8, sheet guiding cylinder 6) result.

It is monitored in the processing machine, whether a failure of a single drive is present. For this purpose, an input signal with the corresponding data is supplied to one or the control device.
In case of failure of a single drive in the printing / painting operation of the associated plate or forme cylinder 10, 9 in consequence of its separate failed in case of failure drive no longer be rotated in its correct position (target angular position). About the or the angle encoder, however, the actual angular position is known. The rotation of plate / forme cylinder 10, 9 from the actual angular position to the desired angular position can be realized depending on the actual angular position by turning in an angular segment or by several revolutions. By being coupled into the main drive with gear train, the printing / painting job is then continued.

• der ausgefallene Einzelantrieb momentenlos geschaltet wird,
• von der Steuerungseinrichtung der Schaltkupplung ein Signal zum Schließen zugeführt wird und um ein Verdrehen zu vermeiden der Plattenzylinder 10 oder der Formzylinder 9 mittels der Schaltkupplung mit dem Hauptantrieb und Räderzug gekoppelt wird,
• der Plattenzylinder 10 und der Gummituchzylinder 8 oder der Formzylinder 9 in Druck an - Stellung (Druckpressung) bewegt werden,
• von der Steuerungseinrichtung der Schaltkupplung ein Signal zum Öffnen zugeführt wird und der Platten-/ Formzylinder 10, 9 mittels der Schaltkupplung vom Hauptantrieb und Räderzug entkoppelt wird,
• die Ist-Winkelposition des Plattenzylinders 10 oder des Formzylinders 9 mit ausgefallenem Einzelantrieb mittels Drehwinkelgeber erfasst und der Steuerungseinrichtung ein Signal zugeführt und von dieser ein Signal an den Hauptantrieb mit Räderzug zugeführt wird,
• mittels Hauptantrieb sämtliche Zylinder des Räderzugs (Gummituchzylinder 8, Bogenführungszylinder 6) einschließlich des unter Druckpressung, d. h. im Reibschluss, stehenden Plattenzylinders 10 oder Formzylinders 9 gedreht werden bis die Ist-Winkelposition der mittels Drehwinkelgeber vorgegebenen Soll-Winkelposition des Platten-/ oder Formzylinders 10, 9 entspricht, und
• in der Soll-Winkelposition dem Plattenzylinder 10 oder dem Formzylinder 9 von der Steuerungseinrichtung der Schaltkupplung ein Signal zum Schließen zugeführt wird und der Platten-/ Formzylinder 10, 9 mit dem Hauptantrieb und Räderzug zwecks Fortdruck gekoppelt wird.

Immediately in the presence of such failure is by means of the control means a synchronization of the angular positions between the driven by the main drive and gear cylinders (blanket cylinder 8, sheet guiding cylinder 6) of an offset printing unit 1 or a coating unit 2 (sheet guiding cylinder 6) and the respective straight failed, otherwise driven by single drive Plate cylinder 10 or forme cylinder 9 predetermined by by

• the failed single drive is switched torqueless,
• from the control device of the clutch, a signal is supplied to close and to prevent rotation of the plate cylinder 10 or the forme cylinder 9 by means of the clutch to the main drive and Gear train is coupled,
• the plate cylinder 10 and the blanket cylinder 8 or the forme cylinder 9 are moved in pressure to position (pressure),
• a signal for opening is supplied from the control device of the clutch and the plate / forme cylinder 10, 9 is decoupled by means of the clutch from the main drive and gear train,
• the actual angular position of the plate cylinder 10 or the forme cylinder 9 with failed individual drive detected by means of rotary encoder and the control device supplied a signal and from this a signal is supplied to the main drive with gear train,
• by means of the main drive all cylinders of the gear train (blanket cylinder 8, sheet guiding cylinder 6) including the plate cylinder 10 or forme cylinder 9 under pressure pressure, ie, are rotated until the actual angular position of the predetermined angular position of the plate or forme cylinder 10, 9 corresponds, and
• in the desired angular position of the plate cylinder 10 or the forme cylinder 9 from the controller of the clutch, a signal is supplied to close and the plate / forme cylinder 10, 9 coupled to the main drive and gear train for the purpose of printing.

• der ausgefallene Einzelantrieb momentenlos geschaltet wird,
• der Plattenzylinder 10 und der Gummituchzylinder 8 oder der Formzylinder 9 in Druck an - Stellung (Druckpressung) bewegt werden,
• mittels Hauptantrieb sämtliche Zylinder (Gummituchzylinder 8, Bogenführungszylinder 6) des Räderzuges einschließlich des unter Druckpressung, d. h. im Reibschluss, stehenden Plattenzylinders 10 oder Formzylinders 9 manuell im Tipp-Betrieb gedreht werden bis die Ist-Winkelposition der mittels Drehwinkelgeber vorgegebenen Soll-Winkelposition des Platten-/ Formzylinders 10, 9 entspricht, und
• in der Soll-Winkelposition dem Plattenzylinder 10 oder dem Formzylinder 9 von der Steuerungseinrichtung der Schaltkupplung ein Signal zum Schließen zugeführt wird und der Platten-/ Formzylinder 10, 9 mittels der Schaltkupplung mit dem Hauptantrieb und Räderzug zwecks Fortdruck gekoppelt wird.

A second method is characterized in that between the plate cylinder 10 and the blanket cylinder 8 or between the forme cylinder 9 and the associated sheet guiding cylinder 6, a ratio not equal to 1: 1, including not equal to 1: 2, not equal to 1: 3 or not equal to 1: 4, is provided or is present (analogous to the first method).
It is checked visually, preferably by the printer, whether there are register differences on the printed image and immediately in the presence of Passerdifferenzen a synchronization of the angular positions between the driven by the main drive and Räderzug cylinders (blanket cylinder 8, sheet guiding cylinder 6) of an offset printing unit 1 or a coating unit 2 and the respective, otherwise prescribed by single drive plate cylinder 10 or forme cylinder 9 predetermined by

• the failed single drive is switched torqueless,
• the plate cylinder 10 and the blanket cylinder 8 or the forme cylinder 9 are moved in pressure to position (pressure),
• all cylinders (blanket cylinder 8, sheet guiding cylinder 6) of the gear train including the under pressure, ie frictionally, stationary plate cylinder 10 or forme cylinder 9 are manually rotated in jog mode by the main drive until the actual angular position of the predetermined angular position of the plate / Form cylinder 10, 9 corresponds, and
• in the desired angular position of the plate cylinder 10 or the forme cylinder 9 of the control device of the clutch, a signal is supplied to close and the plate / forme cylinder 10, 9 is coupled by means of the clutch to the main drive and gear train for the purpose of printing.

In a wide training of the working method, a signal to close the plate cylinder 10 or forme cylinder 9 coupled by means of the clutch to the main drive and gear train before printing on - position of plate cylinder 10 and blanket cylinder 8 or form cylinder 9 of the control device of the clutch become. Likewise, after the pressure on - position of plate cylinder 10 and blanket cylinder 8 or forme cylinder 9 of the control device of the clutch, a signal to open are supplied and the plate / forme cylinder 10, 9 are decoupled by means of the clutch from the main drive and gear train.

In a development of the now ongoing printing / Lackierauftrag can be interrupted and the printed image again visually checked. From the control device, the switching clutch is supplied with a signal for opening and the plate / forme cylinder 10, 9 is by means of the clutch from the main drive and Gear train decoupled. By means of the main drive all cylinders (blanket cylinder 8, sheet guiding cylinder 6) of the gear train including under pressure, ie in frictional, stationary plate cylinder 10 or forme cylinder 9 manually rotated in jog mode until the actual angular position of the predetermined angular position of the plates by means of rotary encoder - / Form cylinder 10, 9 corresponds, the switching device is supplied to the clutch, a signal to close and the plate / forme cylinder 10, 9 is coupled again by means of the clutch to the main drive and gear train for the purpose of printing. This procedure can be repeated several times if necessary.

• seitens der Steuerungseinrichtung auf die Signale eines an einem benachbarten Zylinder, beispielsweise einem Gummituchzylinder 8 eines benachbarten Offsetdruckwerkes 1, angeordneten Winkelgebers zugegriffen wird,
• dem Einzelantrieb Signale der Steuerungseinrichtung zugeführt werden und der Platten- oder Formzylinder 10, 9 - entkoppelt vom Hauptantrieb und Räderzug - mittels Einzelantrieb angetrieben wird, und
• der Zylinder mit ausgefallenem Winkelgeber, beispielsweise der Gummituchzylinder 8, und der Zylinder, beispielsweise ein weiterer Gummituchzylinder 8, auf dessen Winkelgeber zugegriffen wurde, in ihren Druck an- bzw. Druck ab- Stellungen (zwecks Vermeidung von Relativbewegungen) synchron bewegt werden.
  Das synchrone Bewegen der Zylinder in die Druck an- bzw. Druck ab- Stellungen wird bevorzugt mittels einer von der Steuerungseinrichtung aktivierbaren Betätigungseinrichtung realisiert.
  Ein viertes Verfahren ist dadurch gekennzeichnet, dass zwischen dem Plattenzylinder 10 und dem Gummituchzylinder 8 oder zwischen dem Formzylinder 9 und dem Bogenführungszylinder 6 ein Übersetzungsverhältnis ungleich 1:1, einschließlich ungleich 1:2, ungleich 1:3 bzw. ungleich 1:4, vorgesehen wird bzw. vorhanden ist (analog zu den ersten bis dritten Verfahren).
  Es wird in der Verarbeitungsmaschine überwacht, ob ein Ausfall eines Winkelgebers an einem Zylinder (Gummituchzylinder 8, Plattenzylinder 10, Formzylinder 9) vorliegt und unmittelbar bei Vorliegen eines derartigen Ausfalls mittels der Steuerungseinrichtung eine Synchronisierung zwischen den vom Hauptantrieb und Räderzug angetriebenen Zylindern (Gummituchzylinder 8, Bogenführungszylinder 6) eines Offsetdruckwerks 1 oder eines Lackwerks 2 (Bogenführungszylinder 6) und dem jeweiligen mittels Einzelantrieb angetriebenen Plattenzylinder 10 oder FormZylinder 9 dadurch vorgegeben, indem
• der Einzelantrieb momentenlos geschaltet wird,
• von der Steuerungseinrichtung der Schaltkupplung ein Signal zum Schließen zugeführt wird und der Plattenzylinder 10 oder Formzylinder 9 mittels der Schaltkupplung mit dem Hauptantrieb und Räderzug gekoppelt wird,
• der Plattenzylinder 10 und der Gummituchzylinder 8 oder der Formzylinder 9 in Druck an - Stellung (Druckpressung) bewegt werden,
• der Druck-/ Lackierauftrag fortgesetzt wird und Passerdifferenzen ermittelt werden,
• von der Steuerungseinrichtung der Schaltkupplung ein Signal zum Öffnen zugeführt wird und der Platten- /Formzylinder 10, 9 mittels der Schaltkupplung vom Hauptantrieb und Räderzug entkoppelt wird,
• mittels Hauptantrieb sämtliche Zylinder des Räderzuges (Gummituchzylinder 8, Bogenführungszylinder 6) einschließlich des unter Druckpressung, d. h. im Reibschluss, stehenden Plattenzylinders 10 oder Formzylinders 9 manuell im Tipp-Betrieb gedreht werden bis eine die Passerdifferenzen kompensierende, der Soll-Winkelposition entsprechende Relativlage zwischen Plattenzylinder 10 und Gummituchzylinder 8 oder zwischen Formzylinder 9 und dem zugeordneten Bogenführungszylinder 6 erreicht wird, und
• in der Soll-Winkelposition dem Plattenzylinder 10 oder dem Formzylinder 9 von der Steuerungseinrichtung der Schaltkupplung ein Signal zum Schließen zugeführt wird und der Platten-/ Formzylinder 10, 9 mittels der Schaltkupplung mit dem Hauptantrieb und Räderzug zwecks Fortdruck gekoppelt wird.

A third method is characterized in that between the plate cylinder 10 and the blanket cylinder 8 or between the forme cylinder 9 and the sheet guiding cylinder 6, a ratio not equal to 1: 1, including not equal to 1: 2, not equal to 1: 3 or unequal 1: 4 is provided or is present (analogous to the first or second method).
It is monitored in the processing machine, whether a failure of an angle encoder on a cylinder (blanket cylinder 8, plate cylinder 10, forme cylinder 9) is present. Immediately in the presence of a failure by means of the control device, synchronization between the cylinders driven by the main drive and the gear train of an offset printing unit 1 (blanket cylinder 8, sheet guiding cylinder 6) or a coating unit 2 (sheet guiding cylinder 6) and the respective plate cylinder 10 or forme cylinder 9 driven by individual drive is predetermined , by doing

• is accessed by the control device to the signals of an adjacent to an adjacent cylinder, such as a blanket cylinder 8 of an adjacent offset printing unit 1, arranged angle encoder,
• the individual drive signals are supplied to the control device and the plate or forme cylinder 10, 9 - decoupled from the main drive and Gear train - driven by single drive, and
• the cylinder with failed angle sensor, for example, the blanket cylinder 8, and the cylinder, for example, another blanket cylinder 8, was accessed on the angle encoder, in their pressure on or pressure ab- positions (in order to avoid relative movements) are moved synchronously.
  The synchronous movement of the cylinder in the pressure on or pressure-off positions is preferably realized by means of an activatable by the control device actuator.
  A fourth method is characterized in that between the plate cylinder 10 and the blanket cylinder 8 or between the forme cylinder 9 and the sheet guiding cylinder 6, a ratio not equal to 1: 1, including not equal to 1: 2, not equal to 1: 3 or not equal to 1: 4, provided is or is present (analogous to the first to third methods).
  It is monitored in the processing machine, whether an outage of an angle sensor on a cylinder (blanket cylinder 8, plate cylinder 10, forme cylinder 9) is present and immediately in the presence of such a failure by the controller synchronization between the driven by the main drive and gear train cylinders (blanket cylinder 8, Sheet guiding cylinder 6) of an offset printing unit 1 or a coating unit 2 (sheet guiding cylinder 6) and the respective driven by single drive plate cylinder 10 or FormCylinder 9 thereby predetermined by
• the single drive is switched toreless,
• from the control device of the clutch, a signal is supplied to close and the plate cylinder 10 or form cylinder 9 is coupled by means of the clutch to the main drive and gear train,
• the plate cylinder 10 and the blanket cylinder 8 or the forme cylinder 9 in Pressure on - position (pressure) to be moved
• the printing / coating job is continued and register differences are determined
• a signal for opening is supplied from the control device of the clutch and the plate / forme cylinder 10, 9 is decoupled by means of the clutch from the main drive and gear train,
• by means of the main drive all cylinders of the gear train (blanket cylinder 8, sheet guiding cylinder 6) including under pressure, ie in frictional, stationary plate cylinder 10 or forme cylinder 9 are manually rotated in a jogging operation to a Passerdifferenzen compensating, the desired angular position corresponding relative position between plate cylinder 10th and blanket cylinder 8 or between form cylinder 9 and the associated sheet guiding cylinder 6 is achieved, and
• in the desired angular position of the plate cylinder 10 or the forme cylinder 9 of the control device of the clutch, a signal is supplied to close and the plate / forme cylinder 10, 9 is coupled by means of the clutch to the main drive and gear train for the purpose of printing.

The presence or determination of register differences can be performed visually, preferably by the printer, on a printed image.
For the determination of register differences, the printing / painting operation is preferably interrupted. The determination of register differences can be made several times in a printing / coating job. For this purpose, the same process steps already mentioned above are to be carried out.

LIST OF REFERENCE NUMBERS

1

Offset printing

2

coating unit

3

conveying direction

4

investor

5

boom

6

Sheet guiding cylinder

7

washer

8th

Blanket cylinder

9

Printing form bearing cylinder / forme cylinder

10

Printing plate bearing cylinder / plate cylinder

11

metering

12

inking

Claims (7)

Method for controlling a processing machine for sheet material, in particular a sheet material processing printing or varnishing machine, comprising at least one printing / coating unit, each printing / coating unit each having a printing plate carrying, coupled with a single drive plate cylinder or forme cylinder, the plate / Form cylinder of a on a gear train of cylinders and drums (sheet guiding cylinder) for the sheet transport and printing on the blanket cylinder acting main drive mechanically decoupled and drivable in a predetermined manner to the sheet guide cylinders and blanket cylinders and the plate or forme cylinder via at least one clutch can be coupled and decoupled with the main drive with gear train,
characterized,
that between the plate cylinder and the blanket cylinder, or between the form cylinder and the sheet guiding cylinder a gear ratio equal to 1: 4 are provided: 1, equal to 1: 2, not 1: 3 or equal to 1
that it is monitored whether a failure of an individual drive is present and a Sychronisierung of the angular positions is defined between the driven from the main drive and gear train cylinders of a printing unit or a varnishing unit and the respective, otherwise driven by means of individual drive plate cylinder or form cylinder thereby directly in the presence of a failure by means of a control device that - the failed individual drive is switched torqueless, a signal for closing is supplied by the control device of the clutch and the plate cylinder or the forme cylinder is coupled by means of the clutch to the main drive and gear train, - the plate cylinder and the blanket cylinder or the forme cylinder are moved in pressure to position (pressure), - A signal for opening is supplied from the control device of the clutch and the plate / forme cylinder is decoupled by means of the clutch from the main drive and gear train, - The actual angular position of the plate cylinder or the forme cylinder with failed individual drive detected by means of rotary encoder and the control device supplied a signal and from this a signal is supplied to the main drive with gear train, - Are rotated by the main drive all cylinders of Räderzugs including the pressurized plate cylinder or forme cylinder until the actual angular position corresponds to reaching the predetermined angular position of the plate or forme cylinder by means of rotary encoder, and - In the desired angular position of the plate cylinder or forme cylinder of the control device of the clutch, a signal is supplied to close and the plate / forme cylinder is coupled to the main drive and gear train. Method for controlling a processing machine for sheet material, in particular a sheet material processing printing or varnishing machine, comprising at least one printing / coating unit, each printing / coating unit each having a printing plate carrying, coupled with a single drive plate cylinder or forme cylinder, the plate / Form cylinder of a on a gear train of cylinders and drums (sheet guiding cylinder) for the sheet transport and printing on the blanket cylinder acting main drive mechanically decoupled and drivable in a predetermined manner to the sheet guide cylinders and blanket cylinders and the plate or forme cylinder via at least one clutch can be coupled and decoupled with the main drive with gear train,
characterized,
that between the plate cylinder and the blanket cylinder, or between the form cylinder and the sheet guiding cylinder a gear ratio equal to 1: 4 are provided: 1, equal to 1: 2, not 1: 3, or equal to 1
that is visually checked whether there are register differences on the printed image and immediately in the presence of registration differences synchronization of the angular positions between the driven by the main drive and gear train cylinders of a printing unit or a coating unit and the respective, otherwise driven by single drive plate cylinder or forme cylinder is specified by - the failed individual drive is switched torqueless, - the plate cylinder and the blanket cylinder or the forme cylinder are moved in pressure to position (pressure), - By means of the main drive, all cylinders of the gear train including the plate cylinder or forme cylinder under pressure are manually rotated in jog mode until the actual angular position corresponds to the desired angular position of the plate / forme cylinder given by the rotary encoder - In the desired angular position of the plate cylinder or the forme cylinder of the control device of the clutch, a signal is supplied to close and the plate / forme cylinder is coupled by means of the clutch to the main drive and gear train for the purpose of printing. Method for controlling a processing machine for sheet material, in particular a sheet material processing printing or varnishing machine, comprising at least one printing / coating unit, each printing / coating unit each having a printing plate carrying, coupled with a single drive plate cylinder or forme cylinder, the plate / Form cylinder of a on a gear train of cylinders and drums (sheet guiding cylinder) for the sheet transport and printing on the blanket cylinder acting main drive mechanically decoupled and drivable in a predetermined manner to the sheet guide cylinders and blanket cylinders and the plate or forme cylinder via at least one clutch can be coupled and decoupled with the main drive with gear train,
characterized,
that between the plate cylinder and the blanket cylinder, or between the form cylinder and the sheet guiding cylinder a gear ratio equal to 1: 4 are provided: 1, equal to 1: 2, not 1: 3 or equal to 1
that it is monitored whether a failure of an angle sensor on a cylinder is present, and a synchronization between the driven from the main drive and gear train cylinders of a printing unit or a varnishing unit and of each driven by individual drive plate cylinder or form cylinder is specified by directly in the presence of a failure by means of a control device, by doing the part of the control device accesses the signals of an angle transmitter arranged on an adjacent cylinder, - The individual drive signals are supplied to the control device and the plate or form cylinder decoupled from the main drive and gear train is driven by means of single drive, and - The cylinder with failed angle sensor and the cylinder was accessed on the angle encoder was in their pressure on and pressure off- positions be moved synchronously. Method for controlling a processing machine for sheet material, in particular a sheet material processing printing or varnishing machine, comprising at least one printing / coating unit, each printing / coating unit each having a printing plate carrying, coupled with a single drive plate cylinder or forme cylinder, the plate / Form cylinder of a on a gear train of cylinders and drums (sheet guiding cylinder) for the sheet transport and printing on the blanket cylinder acting main drive mechanically decoupled and drivable in a predetermined manner to the sheet guide cylinders and blanket cylinders and the plate or forme cylinder via at least one clutch can be coupled and decoupled with the main drive with gear train,
characterized,
that between the plate cylinder and the blanket cylinder, or between the form cylinder and the sheet guiding cylinder a gear ratio equal to 1: 4 are provided: 1, equal to 1: 2, not 1: 3 or equal to 1
that it is monitored whether a failure of an angle sensor on a cylinder is present, and a synchronization between the driven from the main drive and gear train cylinders of a printing unit or a varnishing unit and of each driven by individual drive plate cylinder or form cylinder is specified by directly in the presence of a failure by means of a control device, that - The single drive is switched torqueless, a signal for closing is supplied by the control device of the clutch and the plate cylinder or forme cylinder is coupled by means of the clutch to the main drive and gear train, - the plate cylinder and the blanket cylinder or the forme cylinder are moved in pressure to position (pressure), - the printing / coating job is continued and register differences are determined, - A signal for opening is supplied from the control device of the clutch and the plate / forme cylinder is decoupled by means of the clutch from the main drive and gear train, - By means of the main drive all cylinders of the gear train including the standing under pressure plate cylinder or forme cylinder are manually rotated in jogging mode until a Passerdifferenzen compensating corresponding relative position between plate cylinder and blanket cylinder or between form cylinder and sheet guiding cylinder is achieved, and - In the desired angular position of the plate or forme cylinder of the control device of the clutch, a signal is supplied to close and the plate / forme cylinder is coupled by means of the clutch to the main drive and gear train for the purpose of printing. Method according to claim 2,
characterized,
that - the printing / coating job is interrupted and the printed image is visually checked again, - Is fed from the control device of the clutch, a signal for opening and the plate / forme cylinder is decoupled by means of the clutch from the main drive and gear train, and - By means of the main drive, all cylinders of the gear train including the plate or plate cylinder under compressive stress (frictional engagement) are manually rotated in jog mode until the detected actual angular position corresponds to the desired angular position of the plate / plate cylinder, and - Of the control device of the clutch fed a signal to close and the plate / forme cylinder again by means of Clutch is coupled to the main drive and gear train. Method according to claim 2,
characterized,
that - Before the pressure on - position of plate cylinder and blanket cylinder or form cylinder from a control device of the clutch, a signal is supplied to close and the plate cylinder or forme cylinder is coupled by means of the clutch to the main drive and gear train, and
that - After printing on - position of plate cylinder and blanket cylinder or forme cylinder of the control device of the clutch, a signal is supplied to open and the plate / forme cylinder is decoupled by means of the clutch from the main drive and gear train. Method according to claim 4,
characterized,
that the determination of registration differences on a printed image is carried out visually.

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