EP2296890B1 - Operation of a cold film unit with glue application - Google Patents

Abstract

The invention relates to a unit for cold film transfer in a printing press. In order to improve the transfer process, a control device is used to control the film transfer, said control device adjusting the color values and the coating parameters of the transferred films.

Description

The invention relates to a device in a machine for transferring imaging layers from a carrier film to printing sheet according to the preamble of patent claim 1.

It is known to produce metallic layers on printed sheets by means of a film transfer process. So is in the EP 0 569 520 B1 a printing material and a printing apparatus using this material are described. In this case, a sheet-processing machine is shown, which has a feeder and a boom, between two units printing units and a coating unit are arranged. In at least one of the printing units, an adhesive pattern is applied by means of the planographic printing process. This adhesive pattern is applied in a cold printing process and has a specific imaging subject. In the printing unit following the coating unit with a counter-pressure cylinder and a press roller a film guide is provided. This is designed in such a way that a film strip or a transfer film is passed through the transfer nip of the coating unit between the impression cylinder and the press roll from a film supply roll. The foil strip is rewound on the outlet side after leaving the coating unit. The transfer film has a carrier layer on which imaging layers such as metallic layers, for example of aluminum, can be applied. Between the metallic layer and the carrier film, a separating layer is provided, which ensures that the metallic layer can be removed from the carrier layer.

When printing sheets are transported through the printing unit, each sheet is given an adhesive pattern. Thereafter, the sheet is passed through the coating unit, wherein brought by means of the press roller on the impression cylinder resting sheet associated with the film material becomes. In this case, the downwardly lying metallic layer makes a close connection with the regions provided with adhesive on the printed sheet. After the further transport of the printed sheet, the metallic layer adheres only in the area of the adhesive-provided pattern. The carrier film is thus removed from the metallic layer in the region of the adhesive pattern. The used in this way transfer film is wound up again. The print sheet is laid out in the coated state.
It is known to use such coating units, for example in printing units of printing presses. A disadvantage of the known devices is that they are often not flexible enough to use.
Depending on the load from the web or machine speed, the winding quality of the film roll, changes in the web tension, variables of the application nozzle and a so-called channel excitation, the process-determining parameters are difficult to control.
As a result, in the application process, quality losses in the film transfer and, as a consequence, errors in the film application can occur.

From the EP 0 324 718 A1 For example, a method and a device for color control of a printing press are known. There, a colorimetric color guide control is used, being printed on the printed on the press sheets colorimeter with multiple color fields. These are optically scanned by means of a measuring head for detecting the spectral intensity distributions of the color measuring fields. From a spectral color analysis of the measuring light, spectral reflectances and the color locus of a reference field of a scanned color measuring field are determined in a coordinate system. By coordinate comparison of the color distance of the scanned color measuring field of a predetermined target color location a manipulated variable for adjusting the ink guide elements of the printing machine is generated so that unwanted color deviations are minimal in the subsequently printed with the new color experience setting sheet. The method and the device are intended only for the processing of printing inks.

From the DE 102006015249 A1 is a printing machine with embossing known. There, a film feed in a coating module for the transfer of imaging layers from a transfer film to a substrate will be described. To perform the film transfer, an adhesive is applied imagewise by means of a metering device on a sheet. When applying the adhesive monitoring of the amount of glue is not provided.

The object of the invention is therefore to provide a device by means of which the transfer of an imaging layer to a sheet can be done economically and safely, the device should be easy to handle.

The solution of this problem results in a device according to the features of claim 1.

It is provided according to the invention, the setting of a printing unit, which is arranged as a suitable for the film transfer coating unit as a commissioned work for adhesive by incorporating a device for controlling the color density so that in this commissioned work for the film transfer process favorable settings can be made in a simple manner ,

Therefore, the adjustment of the adhesive feed to the coater for the film transfer preceding the commissioned work becomes the function of a printing unit a printing machine for the function of the film transfer in the printing press with a measurement of the adhesive application after printing extended. The adhesive is used as a printing ink and measured by means of a color density meter on the sheet.

For this purpose, it is provided that special color measuring fields are provided for the adhesive for film transfer. Furthermore, in the coating unit, the film transfer is carried out so that in the areas in which adhesive is applied in the measuring fields, no film transfer takes place.

Furthermore, the adhesive is colored with a special color, which is matched to the film to be transferred and at the same time good metrological detectable.

The adhesive application can be easily controlled in this way and, if desired, even regulated with respect to a required order quantity.

The device can advantageously be used even if an improvement in film utilization is to be achieved by dividing the transfer film into one or more partial film webs of lesser width. In combination with the above-mentioned method, it is thus also possible to use different types of film side by side.

In the following the invention is illustrated in more detail with reference to figures.

Figur 1 :

eine Übersichtsdarstellung einer Druckmaschine mit einer Fol ientransfereinrichtung,

Figur 2

eine Druckmaschine mit Leitstand,

Figur 3

eine Zylinderanordnung mit abtastbaren Bespannungen, und

Figur 4

eine Druckmaschine mit Automatisierungseinrichtungen.

Showing:

FIG. 1:

an overview of a printing press with a Fol ientransfereinrichtung,

FIG. 2

a printing machine with a control desk,

FIG. 3

a cylinder arrangement with scannable clothing, and

FIG. 4

a printing machine with automation equipment.

In FIG. 1 a sheet-processing machine is shown, which consists of at least two printing units. There, a printing sheet in the first printing unit is provided with an imaging adhesive pattern (applicator 1). Thereafter, a transfer sheet 5 is passed through a transfer nip 6 in the following printing unit together with a printing sheet, wherein the transfer sheet 5 is pressed in the transfer nip 6 against the sheet (coating unit 2).

The applicator 1 may be a known offset printing unit with an inking unit 11 a plate cylinder 12, a blanket cylinder 13 and a sheet leading impression cylinder 4. Likewise, this may be a so-called paint module in which the blanket cylinder 13 is formed as a forme cylinder.
The plate cylinder / forme cylinder is supplied with an adhesive medium which is formed as an ink or adhesive, for example by a trained as a chamber doctor blade device instead of the inking unit 11.
The transfer nip 6 in the coating unit 2 is formed by a press roll 3 and an impression cylinder 4. Here, the press roller 3, the blanket cylinder and the impression cylinder 4 correspond to the impression cylinder of an offset printing unit. Furthermore, the press roller 3 can correspond to the forme cylinder and the impression cylinder 4 to the impression cylinder of a paint module of a sheet-fed press.

The transfer films 5 have a multilayer structure. They have a carrier layer on which an imaging layer is applied by means of a release layer. The separating layer serves to facilitate lifting of the imaging layer from the carrier layer. The image-forming layer may be, for example, a metallized layer or a glossy layer or a texture layer or a colored layer or a layer containing one or more image patterns.
A film supply roll 8 and a film winding roll 9 are assigned to the coating unit 2 for film feed and removal. The film rolls 8, 9 each have a rotary drive 7 for the continuous controlled feeding of the transfer film 5 to the coating unit 2. In the area of the film feed, deflection or tensioning rollers are provided so that the film web can always be held in the same tension against the press roller 3. In essence, the Transfer film 5 is also moved by the rotary drive 7 on the discharge side and kept taut on the inlet side by means of a brake.
The transfer process of the imaging eg metallized layer on the printing paper takes place in the transfer nip 6 between the press roller 3 and the impression cylinder 4.

Likewise, a press roll 3 '(see FIG. 1 in the order unit 1) downstream of the transfer nip between the blanket cylinder 13 and impression cylinder 4 and assigned to the impression cylinder 4. By means of the press roll 3 ', a transfer film 5' can be placed on a sheet held on the printing cylinder 4, so that the image-forming or metallizing layer can be made there directly downstream of the imaging adhesive application.

The press roll 3 is provided with a press fabric 10, e.g. be provided as a plastic coating, comparable to a blanket or blanket. The press fabric 10 is held in a cylinder channel on jigs.

To ensure the cost-effectiveness of the coating process, it is provided that the film advance of the transfer film 5 from the film supply roll 8 to the transfer nip 6 and the film collection roll 9 is controllable so that as far as possible the transfer film 5 is stopped, if no transfer of the imaging layer should take place or can (channel pass).
An improved film utilization results when the transfer film 5 is divided into one or more Teilfolienbahnen smaller width.
Within the coating unit 2, a web guide for transfer films 5 is provided with Folienleitwalzen 14, by means of which the transfer sheet 5 is fed to the transfer nip 6 and discharged therefrom. Here, according to the film guide arranged openings in existing on the coating unit 2 protections 15 are provided.

Further devices 20, 23 are used to monitor the film guide with regard to the presence of the film web 5 and its web tension.
Thus, the control of the printing or transfer process can be supported. For this purpose, the system of applicator 1 and coating unit 2 can be connected to a control station of the printing press. Setpoints for maximum and minimum web tension can be entered at the control station. This may depend on the type of transfer film 5 used and on the printing or transfer conditions in the coating module 2 in connection with the properties of the printing material, the adhesive or the press fabric 10.
The necessary data can be read via interfaces directly from data carriers to film supply rolls 8 and changed by means of parameter values from the setting of the transfer process on the coating module 2.

Furthermore, it is provided to apply a further color printing to the printing image 50 coated imagewise with a metallized layer in at least one printing unit 50 following the coating unit 2. Here, the sheet from the coating unit 2 is transferred from the impression cylinder 4 via a sheet transfer drum or a sheet transfer unit to a counter-pressure cylinder 40 of the printing unit 50.
The printing unit 50 has, as usual in offset printing units, the counter-pressure cylinder 40, an associated rubber or blanket cylinder 41 and a plate cylinder 43 associated therewith. The plate cylinder 43 are here shown schematically an inking unit and a dampening unit assigned. Between the counter-pressure cylinder 40 and the blanket cylinder 41, a further pressure gap 60 is formed. In this printing gap 60 ink is applied from a spanned on the plate cylinder 43 printing plate 44 via a arranged on the blanket cylinder 41 cover 42 on the sheet.
In the press nip 60, an approximately line-shaped pressure is exerted on the printed sheet, which also acts on the image parts of the metallic coating. It is provided here that the pressure in the press nip 60 is matched to the pressure provided in the transfer nip 6.

In each printing press, a so-called machine control is provided for the control of the process sequences. This control provides all adjustment options for the printing unit 50 and the printing units of the printing press, which are included in the coating unit 2 and the commissioned work 1 ready.

According to the invention, a control device is further provided in connection with the machine control, on which an interface to a color measuring system is formed and which serves to monitor the print quality of the printed and coated signatures. Here, the printed sheets are measured with printed color measurement or color control fields visually with regard to their density or colorimetric remissions.
The measured values are used to control and regulate the ink supply of the printing units of the printing press. Thus, the device in conjunction with the measuring system forms a color measuring and control system.
The abovementioned color measurement or color control fields are usually designed in the manner of control strips and arranged at the beginning or end over the entire printed width of the printed sheet and can thus be easily scanned on the color measuring system and thus detected by measurement. Likewise, a special arrangement of color control fields in a local distribution over a printed sheet - this is especially true in the field of packaging printing - also common in the way that the color control fields can be distributed in strips in non-useful areas of a sheet.
It is also known to capture print quality data in the area of image locations of the print, so that no color control fields are required.

Color measuring systems for densitometric or colorimetric recording of print quality data on printed substrates can be arranged as an offline device, that is to say separate from the printing process, in addition to the printing machine (90 in FIG FIG. 2 ) or as an inline measuring system (17 in Fig. 1 ; 70 in Fig. 2/3 ; 108 in Fig. 4 ), so in the printing process online measuring devices to be arranged within printing presses.
During print production, in one case, the quality measurements are taken using the offline measurement system 90 (see Fig. 2 ) individually pulled Measured printing patterns and the machine control or the controller for the color guide of the printing press 100 transmitted.
On the other hand, the measured values in the in-line measuring system 17 (see Fig. 1 ), 70 (see Fig. 2/3 ), 108 (see Fig. 4 ) are constantly measured on the currently printed copies while the printing process is running, and then the machine control or the color guide controller of the printing machine 100, for example, in conjunction with a control panel 80 (see Fig. 2 ) transmitted.

When setting the printing machine for the method of cold foil transfer appropriate settings in all to be supplied with a coating medium printing units, which are derived from a control process of the color measurement and control system, very useful.

To ensure a good printing or coating result is therefore provided to control the setting of the ink supply in printing units 103, 50, which are the aggregates 1, 2, 123 for the cold foil transfer subsequently, and to regulate, based on the measurement results the color measurement and - rule system a color metering in these printing units 103, 50 takes place.

For the control of the printing press, the invention also provides that in a setting of the printing machine 100 for the process of cold foil transfer as well as the application of adhesive in the applicator 1, 123, the data evaluation of the color measurement and control system from the quality measurement is used.

For this purpose, specific control fields 202 are provided for the adhesive medium or the adhesive. These can, as in FIG. 5 indicated, arranged in the area or together with color control strip 200 together with color measuring fields 201 for the other colors to be printed on the printing sheet B. Therefore, the adhesive medium control panels 202 can be measured simultaneously with the color measurement panels 201 of the other colors. The setting of the adhesive supply in the applicator 1, 123 can in this way so much be automated that a large amount of expensive waste paper can be saved when retracting the method of cold foil transfer. Corresponding FIG. 5 For example, the control panels 202 are associated with only the areas of the film application shown here as film sheet F. The foil F also corresponds to the adhesive pattern or adhesive, which is applied in the applicator 1. The print image or print subject S is independent of the adhesive subject. The color control fields 201 are therefore arranged over the entire width of the printed sheet B in the print control strip 200.

To ensure adherence of the transfer layer to be transferred from the transfer sheet to the substrate, a substance such as an ink for imagewise application to the substrate is used as the adhesive medium or the adhesive. This adhesive medium or this adhesive may in principle be a pigment-free, ie colorless printing ink.

According to the invention, it is now provided that the printing ink used as the adhesive medium or adhesive is colored, for example, in a coordinated manner with the color of the film layer to be transferred. In this way, additional color effects can be generated or the base color of the film layer can be optically supported. In addition, the color of the adhesive medium or adhesive can also be chosen so that it is easily detectable by measurement. As noted below in the context of the presetting of the printing press 100, the parameter values of the adhesive should be matched to the planned cold foil transfer. For the measurement, an optimum amount of adhesive is thus determined as the desired value, from the specification of which it can be determined online and in the control loop whether sufficient adhesive is present for secure bonding of the film to the printed sheet B or if there is too little or too much adhesive, so that poor adhesion or a poor coating pattern from adhesive surplus are to be expected.

So that the control fields 202 can be reliably detected, it can be provided that no film transfer should take place in the area of the control fields 202. This approach allows the control panels 202 to be measured in-line during the production process so that a continuous quality control can be carried out together with the printing inks.

For the purpose of avoiding a film transfer in the area of the control fields 202, the press fabric used for the film transfer 10 can be recessed on the press roller 3 in the areas of the control fields for the adhesive, so that the transfer film is not pressed against the substrate when overflowing these areas and so no film transfer takes place.

Further applications of the method will become apparent in connection with the illustrations FIGS. 2 and 3. FIG. 2 In this case, it should be interpreted that the printing unit 50 is represented as a coating module, but is also functionally evaluated as a printing unit. Therefore, a printing unit or several printing units could be used instead of the paint module shown.

For the coating process, the change of a Druckbeistellung or the effective effective in the transfer nip 6 and the pressure nip 60 pressing by changing the Andruckstellung a blanket cylinder or the change in the clothing of the press roller 3 and the blanket cylinder 41 can be made. For this purpose, it is known that the press fabric 10 or a blanket / blanket 42 so-called underlay sheet 47 are assigned to the respective cylinder 3 and 41, respectively. Their change leads to an enlargement or reduction of the gap dimension in the respective effective gap 6, 60, when the relative position of the respective cylinder 3, 41 with respect to the counter-pressure cylinder 4, 40 involved is not changed. The final dimension of the diameter of the cylinder 4, 40 combined with the tensioned clothing (press fabric 10 or blanket / blanket 42, possibly pad sheet 47) results from the thickness of the fabrics. Therefore, it can be provided that the dimensions of the thickness of the press fabric 10, the blankets / blankets 42 and the pad sheet 47 are manually or automatically read into the machine control.

Corresponding FIG. 3 can be provided on the press covers 10, the blankets / blankets 42 and the pad sheet 47 each have a readable mark 48 for functional data such as the size of the thickness. The reading out or recognition of the data must be carried out with appropriate aids. Suitable readers 70 may be placed inside or outside the printing machine or in conjunction with operating instructions. In this case, the readers 70 may also be connected via or within the machine control with a control station 80 or a printing tower of the printing press.

With the same arrangement FIG. 3 is also the assignment of the color measuring device for detecting the control fields 202 in the print control strip 200 accordingly FIG. 5 possible. The readers 70 can then be arranged inline and measure the control fields on the sheet B (also shown here as an alternative thin and thick substrate) on the impression cylinder 4.

The data transfer to the machine control and the storage of the data, which sets the relative position of the press roller 3 and the blanket cylinder 41 to the respective impression cylinders 4, 40, can be carried out by customary means. The same applies to the measurement of color densities / color values at this point.

In view of the growing importance of inline color measurement and control systems, as well as register measurement and control systems, color measurement and control can generally be combined as an inline process with a system of inline color measurement and control. This requires specific machine configuration and procedures. Therefore, by means of a printing press after FIG. 4 first of all, the glue is set up and controlled automatically. In this case, neither sample sheets have to be drawn nor must the printing press be stopped for control and regulating operations. Thereafter, the cold foil transfer can be performed. Finally, the printed sheet so coated with applied film can still be printed or painted.
A print control strip 200 lies in the film-free area of the print sheet B. This print control strip 200 can be measured inline and with the obtained Values the color scheme are regulated. By means of an extended, special inline color measurement and control system, which is complemented by functions for gloss measurement and film detection in the measuring bar, the sheet coated with the Foliensujet F and subsequently printed and possibly painted is measured and then the color can be corrected.
By means of a special evaluation element on the printing sheet for the quality of the film transfer in terms of surface quality, transfer accuracy and adhesion of the transfer layer on the sheet additional evaluations can be made regarding the printing process and used for the measurement and control of the printing process and the film transfer process.

The aim, as with the already standardized color and register control of the ink, is to ensure uninterrupted production with automated measurement and control in an in-line process, even when operating with cold foil transfer.

With an inline inspection system 17, as in FIG. 1 indicated, only quality monitoring in the sense of defects or similar. localized and spoil sheets are optionally removed or marked. Therefore, also in FIG. 1 instead of the inspection system 17, an in-line color measuring device may be provided. The inline measuring and control process offers further automation and production steps for quality assurance and assurance.

In FIG. 4 the following printing machine is described.
First, an investor logistics is provided to supply the printing presses 100 with printing material, which consists of a stack conveyor in conjunction with a feeder 114 and automatic stack feed to the printing press 100. Furthermore, for conveying printed material from the printing machine 100, boom logistics in conjunction with a boom 122 and a stack transport system from the boom 122 are provided in a warehouse or for further processing.

The printing units 103 are designed as offset printing units and designed for automated operation. For this purpose, facilities are provided which make it possible that all adjustments and the supply of supplies can be made without manual intervention.

Provided in the printing units 103 of the printing press 100 each automated inking and dampening, which are equipped with facilities for remote control and adjustable setting for Hebertakte, trituration inserts and strokes, selectable Walzentrennpositionen, variations of the duct speed, etc. In addition, an automated color and adhesive supply as a line system or cartridges directly on the ink fountain of each printing unit 103rd

Optionally, in the printing units 103, the plate cylinders (forme cylinders) of the printing machines 100 are each provided with a direct drive independent of the main drive. When using such a drive configuration, simultaneous washing functions and / or simultaneous color advance programs and / or flying job changes can be carried out by means of appropriate controls.

Furthermore, in the printing machine 100, one or more coating units 104 upstream, intermediate or downstream of the printing units 103. The design can be designed as a paint modules or Inlinelackierwerk on the printing unit. In coating plants, an automatic paint supply including temperature control of the paint and / or viscosity control system for the paint is furthermore provided.

An automated so-called format sheet adjustment is already known. For this purpose, a lower elevator made of a flexible carrier material is provided on a rubber or forme cylinder of a printing unit 103. On this several base forms are arranged at intervals. The elevator is movable in tension shafts on the cylinder circumference, so that in each case a pad shape can be positioned to the upper elevator. Such a device can also be used in a device for cold foil transfer to allow format-related application in the coating with film material.
To prepare for further processing, the indentation and the positioning of punching die of the embossing forms in a printing unit 103 or in a paint module 104 are made possible by automatic and semi-automatic change systems. These changing systems can also be used for coating plates or press covers in coating unit 123.
In the printing machine 100, a sheet turning device 120 is provided, which allows a mode of operation for front and back printing of sheet and their conversion for the printing machine 100 from the Perfecting mode on the perfecting and also vice versa is automated.

Quality control is performed by means of in-line inspection systems and / or in-line densitometry measuring devices 108. These may optionally be arranged as a linline color density measuring and control device or as an inspection system before and after a sheet turning device 120 in order to perfect both in perfecting to capture and evaluate printed substrate pages. The measurement systems 108 are also equipped to measure colorimetric readings or to control paint coatings or film coatings as produced by the cold film transfer system.

Finally, the machine control station is equipped with memory functions for all printing press and order-related setting and measured values, so that they can be called up for repeat jobs. The machine control center and the machine control are further characterized by an integration into a printer network with prepress, logistics, material supply, other printing presses and pre- and post-processing. On the printing machine in conjunction with all previously mentioned functions quick-start facilities with startup procedures for inking, dampening, printing, sheet feeding, sheet removal, waste paper feed and removal, coupling of the investor, etc. are provided.

An executable with such a device method is applied in the printing machine according to the invention, in particular a sheet-fed rotary offset printing machine with multiple printing, coating and further processing units. It contains the steps explained below.

The setting-up process of the printing machine 100 for the start of production is carried out automatically using precursor data, data of the printing material, data of the current or a previously processed similar print job. For this purpose, a transfer of all process data from the work preparation to the machine control center or the machine control for machine presetting with respect to the data of the printing material, the subject, the ink and the paint used, as well as to other executable in the printing machine production options. To this end, the use of machine-specific data to optimize the print quality continues, such as the input and recording of wear levels of machine elements, such as rollers in inking and dampening, the use of self-learning programs for the color pre-setting and dampening solution setting. In this case, the self-learning programs recognize from the change of presetting data under certain process conditions (depending on the type of substrate, ink, amount of ink, subject and other parameters, such as preferably in a particular machine under certain conditions to be printed and fits deposited characteristics when similar parameters occur at a new print job.
In this context, specific data for the application of the adhesive medium or the adhesive are determined and provided. This takes into account which amount of adhesive is required in order to be able to process different specific film layers for certain substrates. It also takes into account what the overall visual effect of the adhesive and the film layer should look like. Furthermore, the type of adhesive or its composition is specified and determined with regard to the optically determinable measured values.

For quality control during print production, automated processes are used by measuring inline or offline the color density and / or the adhesive density and / or the film application and, if appropriate, at the same time subjecting the printed sheets B to a defect inspection. These processes are carried out with an evaluation of solid surfaces on printing errors such as banding, stenciling, doubling and color consistency.
The color constancy is preferably determined by measuring dot growth, doubling and pushing on grid areas.
Color constancy is determined by integrated color control with inline densitometer and color control system

In connection with the color measurement and control, the automated dampening with tracking of the dampening solution supply is carried out depending on the coloring and the respective operating state of the printing machine and on external parameters. Furthermore, quality control is carried out by register measurement / regulation. In addition, the registration accuracy is determined in the sheet feeder and printing unit. A trailing edge register is evaluated when a perfecting is performed.

Finally, there is still a quality control in terms of coating with film and paint. With an in-line coating, a coating thickness measurement is used, in conjunction with a dryer control, a gloss measurement of the paint surface, a temperature measurement and a determination of the coating viscosity. For monitoring the film coating quality, the applied film layer itself can be controlled in terms of structure, edge definition, color, flatness and adhesion. For this purpose, a separate foil control panel FK, comparable to a color control panel on the printed sheet B can be provided.

Optionally, for printing presses 100 with reversing device 120 in which printing material is printed on the front and back side, additional process steps with additional devices are provided. Thus, a color matching for the front and back of the sheets done by a double inline measuring and control system 108. In this case, the sheet front side is measured before the sheet turn 120 and evaluated after completion of the back page printing the image of the back. Furthermore, a measurement is performed with register setting for the production of an exact so-called reversing pass. Furthermore, the quality control takes place with regard to smearing and scratches from the bow movements that occur during the turning operation. For this purpose, a double in-line inspection system is provided, which is automatically coupled to the control device of the printing press 100 in the case of the reversing operation. The devices are also used for the application of cold foil transfer. Here, the quality and quantity of the printed adhesive is monitored inline and used to control the applicator 1.

• Neutrale Einstellwerte im Bearbeitungsmodus mit Optimierungs- und/oder Anpassdaten an Druckmaschine und aktuellen Verarbeitungsprozess adaptiert;
• Für spezielle Druckmaschinen Voreinstellung mit ausgewählten Stellgrößen; diese im Druckprozess im Regelkreis zur Qualitätsoptimierung verarbeiten und zur Aufrechterhaltung der Prozessstabilität z.B. durch Überwachen von Temperatur und/oder Walzenpressung und/oder Zylinderpressung, z.B. durch Prüfung der Streifenbreite zwischen Farb- und Feuchtauftragwalzen zur Druckplatte, auch in Abhängigkeit von Druck- und Reinigungsprozessen ergänzen.

The presetting of the printing press 100 is additionally improved by a job presetting during a still running print job. Finally, process data evaluation / storage is to store process-relevant data and settings with peripheral devices for repeat jobs in the machine control. The process data is handled as follows:

• Neutral setting values in edit mode with optimization and / or fitting data adapted to press and current processing process;
• For special printing presses presetting with selected manipulated variables; process them in the printing process in the control loop for quality optimization and to maintain the process stability eg by monitoring temperature and / or roll pressing and / or cylinder pressing, eg by checking the strip width between inking and dampening rollers to the printing plate, also depending on printing and cleaning processes.

1. a) Transferfolie 5 im Beschichtungsmodul 2 einziehen
2. b) Adhäsivmedium / Kleber im Auftragwerk 1 einfüllen
3. c) Voreinstellung zur Kleberdosierung im Foliensujet F aus Vorstufe laden
4. d) Probedruck / Beschichtung ausführen
5. e) Inline oder offline Kontrollfelder 202 ausmessen
6. f) Soll-lst-Vergleich des Farbwertes / Farbdichtewertes der Kontrollfelder 202
7. g) Einregelung der Kleberdosierung
8. h) Starten des Herstellungsprozesses mit Folientransfer im Beschichtungsmodul 2 und Farbzufuhr in weiteren Druckwerken 103, 50
9. i) Ausmessen der Farbkontrollfelder 201 und Ausregeln der Farbzufuhr

The establishment of a cold foil transfer process can proceed as follows:

1. a) Transfer sheet 5 in the coating module 2
2. b) Fill in adhesive medium / adhesive in application unit 1
3. c) Load pre-setting for adhesive dosing in foil F from pre-stage
4. d) Run proof / coating
5. e) Measure inline or offline control fields 202
6. f) Target actual comparison of the color value / color density value of the control fields 202
7. g) adjustment of the adhesive dosage
8. h) Starting the production process with film transfer in the coating module 2 and ink supply in other printing units 103, 50th
9. i) measuring the color control fields 201 and adjusting the ink supply

LIST OF REFERENCE NUMBERS

1

commissioned

2

coating plant

3

Press roll (3 ')

4

Impression cylinder

5

Transfer foil / foil web (5 ')

6

Transfer gap (6 ')

7

roller drive

8th

Film supply roll

9

Foil composite role

10

Press covering

11

inking

12

plate cylinder

13

rubber cylinder

14

Folienleitwalze

15

Printing plant security

16

dryer

17

Inspection device / inline color measuring system

18

dancer roll

19

---

20

Foil inspection / foil tear monitoring

23

Web tension measurement

40

Impression cylinder

41

Blanket cylinder

42

Blanket / blanket

43

plate cylinder

44

printing plate

45

setting device

46

setting device

47

Underlay sheets

48

checkmark

50

printing unit

60

nip

70

Control device / inline color measuring system / color density measuring system

80

Controller / quality control desk

90

Offline color measuring system / color density measuring system

DB1

printing pressure

DB2

printing pressure

100

press

103

printing unit

104

Paint module / punching module / embossing module

108

Inline color measuring system / color density measuring system

114

investor

122

boom

123

Cold foil transfer

200

Print control strip

201

Color measurement field

202

control panel

B

sheet

S

Print subject / print image area

F

Foil coating / foil foil / adhesive

Claims (5)

1. A device for the transfer of imaging layers from a transfer foil (5) onto print sheets provided with an image-based coating with an adhesive with a coating unit (2) containing an impression cylinder (4) and a press roller (3) forming a common transfer gap (6), through which the transfer foil (5) can be guided contacting the press roller (3) from a foil storage reel (8) in such a manner that it is jointly with the print sheet guided through the transfer gap (6) with the coated side lying on the print sheet guided on the impression cylinder (4) and under pressure for transferring the coating, that the application unit (1) for the adhesive is arranged as printing couple of a multi-colour printing press, that at least one printing couple (60) is arranged downstream of the coating couple (2) in which printing couple a transfer of printing ink or varnish onto the print sheet coated with transfer foil is provided, and that at least the application unit (1) comprises a metering device for the controlled feeding of adhesive, characterized in that in the operating mode foil transfer ink control fields for adhesive are provided for the adhesive on a printing plate provided in the application unit (1), wherein a control device for the control of the metering device is provided in such a manner that in an operating mode for the foil transfer the adhesive feed is controllable as a function of the data measured from the ink control fields and that the coating device (2) is designed so that in the region of the colour measuring fields printed with adhesive no foil transfer takes place.
2. The device according to Claim 1, characterized in that an colour measuring device for the measurement recording of the adhesive application is provided.
3. The device according to Claim 1 to 2, characterized in that the adhesive has a colour that can be sensed by means of the colour measuring device.
4. The device according to Claim 1 to 3, characterized in that the colour measuring device within the printing press is assigned to an impression cylinder and assigned to the end of a process section for the printing or coating of a sheet side.
5. The device according to Claim 1 to 4, characterized in that one or a plurality of coating devices (2) are arranged before, between or after printing couples and/or before or after sheet turning devices.

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