EP1226942A1 - Method for adjusting technical or job parameters in a printing machine - Google Patents

Abstract

A method for setting machine settings for a printing machine at a time selected from before and during printing of a printed product on a printing machine, includes providing for one of an operator of the printing press and a pressman to evaluate a printed result of a printed product produced in one of a production printing and a proof printing, and resetting the machine settings, if necessary; in dependence upon an enabling signal, storing prescribed input variables and machine settings, which define a print job, in a control system belonging to the printing machine; and applying the stored values for influencing future settings of the printing machine, even for other print jobs; a printing machine for performing the method; and a material for printing with the printing machine.

Description

The present application is concerned with a method for adjusting printing technology and other job-related parameters of a printing press. The visual impression of a Printed images, which can also contain text, are affected by many factors. This includes the condition and type of paper used, the type of paper used Colors and dampening solutions and their admixtures, the color density required by the subject, Color distribution, the order of the colors printed on top of each other and the Environmental conditions such as Humidity and air temperature. In planographic printing, especially that Offset rotary printing also plays a role in the color and water flow Role that strongly influence each other. The influencing factors mentioned are as follows referred to as input values.

Some of the listed values (input variables) are assigned to the material used or can be read from the label and taken into account when setting up a printing press. This includes, for example, the color or paper used. Other predefined input variables are, for example, the color distribution based on the predefined subject, the sequence of the colors printed one above the other, or the preselected printing speed. Such input variables are taken into account in the machine settings of the press (such as, for example, ink zone openings, moisture setting, sheet air blowing, dryer output) at the start of the pressure or production print.
Result parameters such as the printed color tone and the color density achieved can be measured with some effort and adjusted on the press. Here, however, the subjective impression of the operator on the printing press is often more important than the measurement result. One reason for this is that all of the parameters mentioned are subject to certain tolerances, so that the trained eye of the operator is more important for producing an optimal printing result than the results of predetermined machine settings.

Settings on the printing press not only have to be made once, but often become. An adjustment is necessary, for example, in order to be able to press on one for this Manufacture specially used printing machine, which the customer then for assessment and Determination of the desired printing result is submitted. Which is determined by measurements on the Measured values resulting from the customer's approved proof (template) then serve as Basis for equipment for production or production printing. Although with such a A number of measured input variables are available for setting up a printing press the setting up of a printing press for production printing is still very much consuming. On the one hand, the tolerances of the measured input variables can change in the direction of an unfavorable printing result, so that for this reason alone Operator (printer) must intervene. Furthermore, it can happen that the printer want to print at a speed that is graded from that provided Characteristic values deviate. The machine settings must also be set here be modified accordingly to achieve an optimal printing result.

In the case of planographic printing and in particular offset rotary printing, this must last so long the water flow and the color distribution are adjusted until the print result for the Printer is satisfactory. To get a good print result, a stable one Balance between color and water can be achieved (color-water balance). While, as already described above, the printing out of the color and its resting on the Printing sheets can be measured by the printer in the form of measuring the color density the optimal humidity is currently not with reasonable effort and sufficient accuracy measure directly, but only judge indirectly by the print result. Not enough water transferred to the surface of the printing plate, so there is a fuller pressure Halftone dots (smear) or to clog halftone dots. The surface of the plate thus takes on more color than desired because the wetting does not adequately cover the color Dampening is done. Conversely, if the water flow is too strong, it can turn pale Print result come and thus to a sometimes strong displacement of the printing ink.

With regard to the color distribution, care must be taken that across the entire width of the Printed product, i.e. across the direction of movement in rotary printing, the color depending on Requirement of the subject is distributed accordingly. For this purpose, the transfer of color from adjust the individual ink fountains in strips on the ductor so that the paint on the Duktor is distributed depending on the subject.

It thus shows that the process of setting up a machine is very time consuming and with it is expensive. In order to shorten the set-up times, the individual printing presses Tables (or characteristic curves) assigned, based on which the color distribution for a specific Machine can be set depending on the printing speed. Farther For some printing machines, paper data (format, thickness), the color assignment of the Printing units and the color distribution entered from the plate reader or prepress or read. To control color and moisture in different Velocities are used, but for mean values of Color zone openings were determined.

The problem of long times for setting up a printing press is exacerbated by the fact that once a device has been selected has to be adapted many times, for example then when the press has been idle for a long time when the plates are replaced or the blanket has been washed. To remedy this, it is from the DE-GM 29612159 known to save some of the set values in suitable memories, from where they are issued if necessary for a new setup of the printing press can. Individual processes such as washing one Rubber blanket or the printing of registration marks associated with special programs then start when the program in question is to be carried out. Appropriate Programs can be used to refresh the color profile after a machine stop or the Adjustment of the dampening system can be provided. The individual memories are free programmable and can therefore be adapted to the previously set state.

Additional times for setting the individual machine parameters are required if during the printing, especially the production run, the necessary to be set Change machine parameters. This can happen, for example, that the amount of color decreases in the ink tanks and thus the amount of ink delivered at the set Change color zone opening or that the ambient temperature around the Printing machine changes or other set values of the printing machine change, so that readjustment is necessary. Because part of the described print result parameters with corresponding measuring devices can be measured automatically, are now a number of Printing presses equipped with control systems on a control strip of the printing sheet Compare the actual values measured with the specified target values and the printing press readjust accordingly. Because such control processes compared to the meantime achievable machine speeds are relatively slower, attempts have been made undertaken to shorten the control process. For example, in EP-OS 922 581 Control methods are described in which, due to given initial states, jumps in the printing machine is set to a new state. Here is a so-called fuzzy logic used in the functional units of the symbolism of blurred human thought are approximated and are thus more tolerant but also quicker and easier to create than with the usual regulation. With conventional control algorithms, even a small one can Errors lead to complete failure of the control. In contrast, the Fuzzilogik make a small mistake little noticeable. Those in the above The control processes described refer exclusively to the color management during of pressure.

The known control devices provide some help with the automatic setting of printing machines before printing or during printing however, a large number of characteristic curve fields can only be determined for the printer represent approximate guideline values, which are in the sense of an optimal printing result of Must be changed by hand. This applies to both setting up the press before Start of the production run as well as for the adjustment of the machine during that Printing. In practice, the printer is often with settings in the color distribution or faced with faults that differed greatly from the specified characteristics Adjustment of the printing press is necessary, so that in some cases a complex and considerable wastage, which means adjusting the color or moisture, is required. this leads to partly due to the fact that the times for setting up and fine-tuning become a major part of the Machine times can be. A certain remedy can be found through a special achieve a dense network of color presetting characteristics. This requires a lot of effort Characteristic curve determination necessary. Furthermore, almost every case is one of the characteristic curves deviating special case, which must be readjusted by hand.

The input values described at the beginning can be divided into the specified values of Input variables and special settings of the machine values by the printer, which the Printer due to his subjective experience must adjust the print result of the Improve printed matter. The input variables are measured objectively or by corresponding description of the materials used for printing (paper, ink) to the printer announced, who then adjusts the machine accordingly. Here are under Input variables through material (e.g. paper, paint), environment (e.g. temperatures, Humidity) and template (for example color distribution) defined objectively measurable Understand variables that influence the setting of the printing press. Under Machine settings are the settings made by the printer on the Understand the printing press that this undertakes to achieve an optimal result, especially the special settings that the printer, as described above, autonomously.

The values stored as successfully defined on the basis of the release signal form one Record of a successful setting of the printing press with regard to the underlying input variables describes. The principle of the invention is that Input variables and the machine settings that are successful from the printer's point of view to make available to the control system that these stored data records are available later Print jobs can be used to derive suitable machine settings.

The special settings of the machine values by the printer are made by the printer done autonomously because they are either not at all or difficult to measure or because the printer to improve the printing result from the out of characteristic curves proposed or preset machine settings want to or must deviate.

The input variables are determined by the parameters of the substrate, the parameters of the subject, determined by the parameters of the environment and certain machine parameters. Regarding the parameters for the substrate are, for example, the paper format, the grammage, the Paper thickness or the throw-away behavior of the paper. Regarding the parameters of the Subjects are the color distribution, the color assignment or the contrasts or grids. A The input variable for a parameter of the printing press is, for example, the intended one Print speed. With regard to the input variables for the parameters of the environment there are for example the temperature and the humidity. The input variables are the printer communicated by descriptions of the materials used for printing and then by this in entered the machine or read it automatically.

The special settings of the machine values by the printer (machine settings) concern i. d. R. the moisture (moisture management) and the color distribution (color management) as well as the Air setting for paper transport. (The special settings can also Predefined input variables concern the printer itself to improve the Print result of a printed product in the form of a machine setting changes so far that is possible at all.)

The known efforts to set the settings have already been written above Accelerate or improve printing presses by adjusting the machine settings Store ready for retrieval or by fuzzy logic the control processes be accelerated to readjust the color guide. The object of the present invention is it also shortens the duration of the adjustment processes and the quality of the printed product independent of the experience and qualifications of the machine operator. there The present invention is based on the basic idea that certain attitudes are very different have it carried out quickly (if necessary automatically) because it is clearly determined by the input variables are. On the other hand, the special settings to be carried out by a printer take a long time Machine values (machine settings) are comparatively long and often have a lot of waste afflicted. These special settings also require a great deal of expertise and a great deal Experience of specialists who are not always sufficiently available.

The invention is therefore based on a method which results from the preamble of the claim 1 resulting genus and solves the problem by the characteristic parts of this Characteristic combination resulting in claim. Thereby, under input variables Material (e.g. paper, paint), environment (e.g. temperatures, air humidity) and template (for Example color distribution) understood objectively measurable quantities, which are the setting affect the press. Under machine settings are those of the printer made settings on the printing press understood that this to achieve a optimal results, especially the special settings that the Printer, as described above, autonomously.

The values stored as successfully defined on the basis of the release signal form one Record of a successful setting of the printing press with regard to the underlying input variables describes. The principle of the invention is that Input variables and the machine settings that are successful from the printer's point of view the controller so that these stored values at later Print jobs with corresponding input variables can be used. This creates the Prerequisite that with considerable costs from the printer to achieve a good one Print result created values or correction values also for later comparable Printing units are available.

In order to receive a release signal in the simplest possible way, further training is recommended the invention, the combination of features according to claim 2. Then either the printer given a signal by which he can set the special autonomously set Machine values (machine settings) for further treatment by the control releases. The other possibility is that by controlling the printer independently set special machine values are declared binding after the printer with regard to a sufficiently large number of printing processes or printed Sheets has not entered any new independent special machine values. Also in this Traps then the obviously successful machine settings of the control further application to later new print products made available. As a multiple The parameters according to claim 3 have been found to be smoothly adaptable input variables. Typical machine settings that are set or changed autonomously by the printer specified in claim 5, which then in dependence on an enable signal of the controller Will be provided.

An important development of the invention consists in the combination of features according to claim 6. Then the control changes when setting up the printing press for a new one Print the machine settings taking into account the earlier than successfully proven machine settings in a suitable manner or at least does corresponding suggestions to the setting up operator. In this way, the A wealth of experience gained through the successful machine settings at comparable previous print products was obtained at considerable cost, even for newer ones Machine settings available.

According to the development according to claim 7, the controller searches for an earlier one Combination of input variables that correspond to the current input variables of a new print job are as similar as possible. Because of the previous most similar combination of Input variables are then concluded that the current machine settings have been successful. In order to is created from the stored data records (from input variables and successful Machine settings) to current successful machine settings for new ones Constellations of input variables closed.

The requirements for the control are thus when setting up the printing press for a new one Printed matter very diverse. It must be checked which previous combination of Sufficient input variables with the input variables of the new print job to be set up are comparable. It must be checked which tolerances in the event of a deviation from the new one Combination of the previous combination are permissible and for which input values only minor deviations can be tolerated. Based on the results found The new machine settings are then updated by the controller based on the learned Connections in the stored data records changed or the new one Operating personnel made appropriate suggestions.

A printing press with a control that is particularly suitable for this purpose is developed further in Invention proposed in claim 8. Neural networks are ideally suited to the to meet the task at hand as they are capable of learning. They thus form the growing experience of a printer.

The neural network of the printing press is preferably configured in such a way that the processors or nodes working in parallel from the multitude of over time stored data records relationships between certain input variables with recognize successful machine settings. The neural network learns via one Large number of data records, which input variables in which constellation for certain Output variables (machine settings) were of particular importance. It's about that able to weight certain input variables according to their importance. The increasing development of central connections between the input and Output variables (= machine settings) represent the growing wealth of experience of the neural network that simulates the printer's experience.

According to the combination of features according to claim 9, the neural network outputs the most promising machine settings or makes corresponding suggestions depending on the current combination of input variables in comparison with similar previous combinations of input variables. The output values are not necessarily identical to previously set machine settings, as there may well be an unprecedented constellation of input variables.
In the construction of the neural network, the input parameters to be weighted are, in particular, the paper parameters (such as format, grammage, thickness, stiffness) and color parameters (such as smoothness, emulsion capacity), the dampening solution properties, the environmental parameters (air humidity and air temperature) and subject parameters (such as Color distribution and area coverage). The machine settings such as ink zone setting, humidity setting, blowing air settings etc. are to be selected as output variables.

In a development of the invention is recommended for the control of the printing press Claim 11 that the controller is tolerant of small deviations from certain Input variables is built up. That means the combination of the input variables too can then lead to the output of learned machine settings if the new one Combination of input variables with a previous combination is not identical, but can only be compared to it within certain tolerances.

Another possibility to simplify the input of the input values, in particular the Input variables in a printing press describe claims 12 to 15. This so far The usual procedure for entering the input variables is that the printer is from the Description of the delivered materials reads out the relevant parameters and these via an extensive input menu in the control. Because of this elaborate Until now, the input method has only been comparatively few input variables from the printer entered into the controller so that the setting of the autonomously made Machine settings becomes particularly important. To further solve the task is therefore the combination of the features according to claim 12 for a printing press proposed. In principle, this solution consists of using a barcode reader on a Label of the material in question and describing the property of the material Read coding and read the values as input values directly controlling the Feed press. The controller then provides the facilities concerned Printing machine accordingly. However, this procedure requires that the material with is provided with a suitable barcode. The material can not only do the color or that Paper concern, but it can also the type of dampening solution used, blanket or cleaning agents for the machine can be described by a corresponding code. The connection of the scanner to the controller can also be done via an electrical line via a suitable information channel such as an infrared beam, a radio channel or another transmission path.

According to the combinations of features according to claim 13 and 14, the code reader transportable or permanently installed in the control system or on the press equipment his. If a portable code reader is available, the printer has the option of moving to Material and take the reading there, which is then carried out using a suitable Transmission channel is brought to the controller. If the code reader is permanently installed, it can Label with the barcode are brought to the code reader and read there. A another possibility is advantageously that associated with a certain material Code reader in this way on a receptacle for the respective material on the printing press to arrange that when feeding the material or the equipment of the printing press the respective code reader can read the relevant label without further ado.

It when the corresponding combination of features according to claim 15 is particularly advantageous Material is provided with a so-called "smart label". A smart label has the advantage that changes in the material during the printing process can also be taken into account. So can, for example, reduce a stack of paper during a previous one Printing process by a suitable code reader and writer in the smart label be registered. The smart label looks something like a credit card, in which the last one Status of the property of the material is entered. This way you can also easily Changes in the properties of a material from a printing press when changing the Printing machine can be recognized.

An embodiment of the invention is described below with reference to the drawing. In The drawing shows a two-color printing machine for offset printing. The However, the invention is suitable throughout for all types of modern printing presses. The Printing machine 1 according to the drawing is not explained in more detail below. details Details on offset printing presses can be found, for example, in the book "Der Offset-Druck", DuMont Buchverlag Cologne, 1991.

The printing press 1 has a series of connections 2, 3 to a central one or more decentralized controls 4 provided. The lines are representative of further connections 2,3 shown. Line 2 provides information relating to the coloring of a printing group 13 or 14 relate to sensors detected and communicated to the controller 4. This Information can be, for example, the position of the individual color zones or knives lengthways describe a duct roller, which are adjusted according to the color distribution. The Via the connection 2 current information can also the height of the color level in one Color box or other data relevant to the coloring concern. Via connection 3 For example, information that describes the humidity can run into the controller 4, which is fed to the corresponding rollers in offset printing. It is essential that representative of all other data over the connections 2, 3 data that run the Describe the setting of individual values in the printing press, which is in particular Machine settings that often have to be adjusted by the printer or must be changed from print job to print job. The running over the connections 2,3 Data therefore represents and / or can be set autonomously by the printer adjustable data.

Via lines 8, 9, information reaches the controller 4, which type and property of the colors used in the inking units 13, 14. This can be, for example the toughness, toughness, the emulsifiability or the temperature value of each trade the color used. These values can, for example, with the help of a code from the Read the packaging of the respective color and then either manually or automatically (e.g. automatically readable via smart labels) can be entered into the controller 4. About the Lines 10, 11 get information in the controller 4, which the type and Describe the properties of the paper used. This can be, for example Format, grammage, stiffness and throw away behavior of the paper. The Data that reach control 4 via lines 8 to 11 thus relate to Input variables which determine the print job and its conditions (e.g. humidity in the pressroom or printing unit, air temperature in the printing unit etc.) objectively describe and stand representative of such values.

Finally, a control panel 20 is indicated in the drawing, via which the printer Can operate printing press 1 and via which he can adjust the settings on the printing press 1 read but can also set in the form of a remote control. This information such as the Print speed, ink zone settings or fan settings for the sheet guide pass from the control panel 20 to the controller 4 via a line 14.

The printer can e.g. Read off the input variables via the control panel 20 and select via the Control the machine values according to these input variables (e.g. from tables or through Measurement of the template). The printer removes during the proofing or printing Sample sheets and evaluate the print result. Then he autonomously takes settings of the Machine values, for example by adjusting the color zones or the humidity. This set machine values are stored in the controller 4, this storage in Connection with the combination of the existing input variables happens. The saved However, values can only be used as a successful data set of input and output variables Have an influence on the design of future machine settings if the printer uses the Control panel 20 either gives a corresponding command (release signal) or if since last setting a specified number of sheets without changing them again Printers were manufactured.

At the time necessary for the printer to set the machine values The controller 4 is to be abbreviated with an artificial "neural", not shown in detail Network "in which the input values and those identified as successful Output values are saved and what the meaning of certain input values or their combinations for the initial values to be set over a large number of Can learn records. Suitable neural networks are, for example, in the following References described. "An Introduction to Computing with Neural Nets", IEEE ASSP MAGAZINE; April 1987, pages 4 to 22 and further references there on page 22. Important is that such neural networks are able to understand the meaning of a constellation of Recognize input values for correspondingly successful output values and from this learned connection for suitable machine settings suggestions or specifications can do. For example, has a small change in a single input value otherwise constant input values always of great importance for certain output values, this connection is learned as meaningful and the relevant input value weighted accordingly. Conversely, a certain input variable can e.g. despite great Fluctuations in wide ranges no changes in output variables (Machine settings), but exceeds a certain threshold, even small changes in the input size are significant. In this way it is created within the neural network, so to speak, a wealth of experience of successful Machine settings for certain input variables, which causes the printer to neural network either appropriate suggestions for one to be made by it Machine setting can be made or that eventually the neural network in to some extent replaced the printer's reenactments. This can, for example certain peculiarities of a printing press are compensated for, which are not exactly behaves according to the specified characteristics.

Setting up the press can be done for the printer by using an or greatly simplify several barcode readers (for example at the end of lines 8 to 11). A comparatively large number of input variables can be made without using the code readers Difficulty directly from the material intended for printing in the control of the Printing machine can be read. For example, a code reader (lines 10, 11) on Feeder for the paper stack can be attached in such a way that when the stack is moved in or at read the appropriate values from a label on the stack. To this For example, not only can the grammage and format of the paper simply be put into the Control can be entered, but also additional suitable input variables, such as for example the stiffness of the paper. The printer can use other sizes, for example read a portable code reader a (lines 8,9) from the label of the paint container, the values read by a radio link or optical transmission link without mechanical connection between the code reader and the controller to this directly transmitted can be.

It is particularly useful if a so-called Smartlabel is used, which with a suitable code reader (which can also label) interacts. Such a smart label is able to use a corresponding code reader Much like a credit card to be rewritten, so that changes to the Material (e.g. regarding its quantity) can be recorded, which is then used of the material are readily available for a new print job.

LIST OF REFERENCE NUMBERS

1

press

2, 3

links

4

control

8, 9

cables

10, 11

cables

14, 13

printing unit

20

controller

Claims (15)

Method for setting machine settings of a printing press (1) before or during the printing of a printed product, in particular a production run on a printing press, preferably an offset rotary printing press, the operator of the printing press or printer evaluating the print result of a print product produced in the production run or proof and machine settings be adjusted if necessary,
characterized in that predetermined input variables (8 to 11) and machine settings (14), which characterize a print job, are stored in a controller (4) of the printing press (1) as a function of an enable signal (14) and that the stored values are future settings of the Influence the press (1) also for other print jobs. Method according to claim 1,
characterized in that the release signal depends on the number of printed products that have been printed since the last setting change in the machine settings (14) and / or a manually entered trigger signal. The method of claim 1 or 2,
characterized in that the predetermined input variables (8 to 11) by printing material parameters such as paper format, grammage, paper thickness, stiffness, throw-away behavior and / or subject parameters such as contrasts, color distribution, color assignment and / or color parameters such as speed, emulsifying ability and / or dampening solution parameters and / or environmental parameters how temperature and humidity are specified. Method according to one of claims 1 to 3,
characterized in that the input variables (8 to 11) of the printed product are measured by means of automatically operating measuring devices or are adopted by them via a suitable coding of the printing materials such as paper, ink, moisture. Method according to one of the preceding claims,
characterized in that the machine settings (14) set by the printer and stored in the control (4) are given by the setting of the color distribution and / or the humidity and / or the air setting for the paper transport. Method according to one of the preceding claims,
characterized in that when the printing machine (1) is set up for a new printed product, the printing machine provides machine settings which are influenced by corresponding values which were stored in the controller (4) when setting up or correcting previous printed products. Method according to claim 6,
characterized in that the machine settings made available depend on the predefined input variables of the new print job. Printing machine for carrying out the method according to one of claims 1 to 8,
characterized in that the control (4) of the printing press (1) is provided with a learnable, neural network, in which the input variables (8 to 11) and the machine settings (14) are stored. Printing machine according to claim 8,
characterized in that the weighting of the processors (nodes) working in parallel in the neural network is influenced by the setting of the machine settings (14) for a specific constellation of the input variables (8 to 11). Printing machine according to claim 10,
characterized in that the weighting of the processors (nodes) is additionally influenced by previous machine settings such as humidity and / or the color distribution and / or air setting for the paper transport. Printing machine according to one of claims 8 to 10,
characterized in that unchanged machine settings are made available by the neural network as long as at least one of the input variables (8 to 11) remains within a certain tolerance range. Printing machine, in particular for carrying out a method according to one of claims 1 to 7,
characterized in that a barcode scanner is provided with the properties of the material required for a print job such. B. paper or color and that the scanner is preferably connected to the controller (4) of the printing press (1), which takes over the scanned data of the bar code reader. Printing machine according to claim 12,
characterized in that the bar code reader is a portable device. Printing machine according to claim 12,
characterized in that the barcode reader is arranged on a control (4), an operating panel (20) or on a receptacle of the printing press (1) for materials required for printing. Material for printing with a printing machine (1) according to one of the preceding claims,
characterized in that it is provided with a smart label.

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