DE102018133397B3 - Method for generating a print image with a digital printing machine - Google Patents

Abstract

A method for combining efficient modification of the contents of a data stream that is to be output on a printing press. The modification can be the insertion of a specific object (e.g. a font), the exchange of an object in the data stream or the compression of an object in the data stream.

Description

Print data is combined to produce a printed matter on a recording medium such as paper in output files called jobs. Jobs are created in specific formats, of which JDF (Job Definition Format), an open format, is widely used. In the case of digital printing, these job files also contain the data to be printed themselves, in addition to the otherwise available data for prepress, for the press itself (such as color profiles), for post-processing, for the delivery of the printed matter and / or for commercial purposes Purposes. The data to be printed itself are referred to below as print data.

In digital printing, the print data of a job consists of both variable data and non-variable data. Variable data are e.g. in a form the name and address of the respective addressee as well as a specific form of address, whereas e.g. the body of such a form letter is attributed to the non-variable data.

Digital print data are saved in various formats. Common formats are ESC / P, PCL, PostScript, PDL, PDF or AFP / IPDS.

In practice, despite such largely standardized job files and their contents, problems repeatedly occur when such a job file is output on a digital printing press.

The digital printing machine receiving the job file can often only process certain formats of digital print data, e.g. AFP / IPDS. Today, print data is often provided in PDF format, which is then inserted in a container in a job file in AFP / IPDS format. This container is then read out by a special application in the format suitable for the respective digital printing press and sent to this press.

When preparing the print data for a print job, data that must be available in the print job may not be contained in a file with the print data itself, but from the environment of the computer application that was used when the file was created the print data was available. However, they are not always transferred from the environment to the file with the print data, so that non-existent data must be accessed when processing the individual containers in the job file.

It comes e.g. that a font used is not contained in the file with the print data or the container created for this print data. Then texts or the entire printed image are falsified or not reproduced at all.

Other problems may arise in the process of creating and editing a print job. It is e.g. It has happened that the client of a form letter has changed his company name, his address or his company logo contained in the job as a graphic file. Job files that have been created are often used again for new jobs, e.g. only the body of a form letter is exchanged. If, at the time of placing a new print job, the data, such as To provide the above-mentioned company name, the changed address or the company logo in the job file or the relevant container, a file with the new name, the new address or the new company logo can be added to the order. Then it is necessary to remove the old name or the old company logo from the original job file and to reinsert the content of this new file in the job file before the print image is created.

It also happens that a color profile contained in the job file was originally created for a specific printing press. If the printed matter is to be created with the same job file but on a different printing press than originally intended, the color profile contained in the job file leads to inadequate results.

Digital print data often contain images, e.g. in JPEG files. It happens that when preparing a file with print data it is not checked whether the resolution of the image file is adapted to the intended printing system. If the resolution of the image file is too low, it may noticed on the screen during creation. If this insufficient resolution is overlooked on the screen, the result in the print image on the recording medium is nevertheless unsatisfactory. On the other hand, if the resolution of the images is too high, the processing speed when rasterizing the images in the digital printing machine is reduced due to the large amount of data contained in the image. As a result, the output speed on the digital printing press may be reduced, possibly so much that the control of the printing press must stop the printing process completely.

Problems also arise if several data records are overlaid transparently in the job file, eg text that is placed over an image as if it were printed on a transparent film. Also then the contents of the job file can be reproduced in the printed matter in a falsified manner.

It can also happen that too many different objects are to be displayed on one page. A large number of different objects can, on the one hand, result in the total amount of data that is to be reproduced on this page becoming too large. On the other hand, a large number of small objects which have been created using different applications may require frequent loading of corresponding processing programs for the files created with the respective applications into the memory of the raster computer of the printing press. This reduces the processing speed when the images are rasterized in the digital printing press. In turn, this can lead to a reduction in the output speed on the digital printing press. Under certain circumstances, the output speed can become so slow that the control of the printing press has to stop or interrupt the printing process completely.

The problem described in the previous paragraph can also occur if several elements are overlapped opaque. The raster computer can always rasterize new images, only to then discard them for a non-transparent image.

document DE 103 35 124 A1 discloses a printing system which, when one or more pages are replaced after a first raster image processing, is capable of performing further raster image processing only for the pages to be replaced.

document US 6 111 654 A discloses a printer with a printer font pre-installed in the printer. The printer includes a flash memory in which new or modified data can be saved with the same character set description as the preinstalled printer font. The user can then choose which of the two fonts should be used.

document US 2018/0349073 A1 discloses an image forming apparatus that implements a method to provide image data for creating an alternative print image that is capable of being produced from a print image that is originally to be created with a smaller amount of color material.

Starting from the known prior art, the technical object of the invention is to provide a method for generating a print image on a recording medium by means of a digital printing machine, in which the print data stream is simply corrected to generate error-free print images.

This object is achieved by a method with the features of claim 1. Advantageous further developments are specified in the dependent claims.

• 1 enthält eine generelle Darstellung einer digitalen Druckmaschine, auf der das erfindungsgemäße Verfahren durchgeführt werden kann.
• 2 ist ein Flußdiagramm mit dem Ablauf des Verfahrens

A specific exemplary embodiment is described below together with further features, using the drawings.

• 1 contains a general representation of a digital printing press on which the method according to the invention can be carried out.
• 2nd is a flow chart with the procedure of the method

In 1 is schematically a digital printing machine 1 with the help of which the method of the invention can be implemented. From an unwinder 3rd becomes the record carrier 2nd through the printing press 1 on printheads 7 passed by on the record carrier 2nd generate a print image. There are four printheads here 7a , 7b , 7c and 7d shown for the four colors cyan, magenta, yellow and black. Of course, more or fewer print heads are possible. The print image is still in the digital press 1 firmly connected to the recording medium by a fixing device, not shown. The record carrier 2nd after going through the printing press 1 from a rewinder 4th resumed. A print server is used to generate the print image 10th a data stream is made available, for example by transmitting a print job on a data carrier or via a network. Such a print job is usually generated on an additional computer by an application program, for example by a customer of the operator of the digital printing press 1 . Via a data line 9 this data stream becomes a raster computer 6 transferred, the digital data of the job to generate a print image by the printheads 7 the printing press 1 processed. From the raster computer 6 the processed data via a data line 8th to the printheads 7 transfer. The control 5 the digital press 1 coordinates the triggering of the printheads 7 to generate the print image on the record carrier 2nd with the advance of the record carrier 2nd , which is motorized via transport rollers 12th he follows.

To solve the task described in the introduction, the print server 10th started an application program that the in the flowchart of 2nd processes the steps illustrated with the course of the method of the invention, starting with 2a) . The process begins in step 201 .

Further in 2a) shows how the procedure of the application program proceeds when two individual objects such as fonts are missing in the data stream. In step 202 the incoming data stream is read with the print job and into the memory of the print server 10th written, for example on a hard disk. In the following steps, the content of the data stream is broken down into individual objects, which are examined to determine whether they are used to generate the print image with the digital printing press 1 Will cause problems. This is done in step 203 the counter for the individual objects is set to one. In step 204 a single object is taken from the data stream. In step 205 a query is made as to whether this individual object calls up second individual objects. Such second individual objects can be fonts, for example, which are contained in a first individual object such as a PDF file. Still in step 205 it is also checked whether these second individual objects, if the first individual object calls one, are contained in the data stream like the first individual objects. If these second individual objects are not contained in the data stream, the step 206 checked whether these second single objects on the print server 10th are available, for example because they were needed when processing previous print jobs. For this purpose, the application program searches for drives available in the print server for corresponding second individual objects, such as a missing font. If a corresponding second single object is found, it will be in step 207 added to the data stream. Otherwise, the procedure gives in step 298 (see 2c )) on a display device 11 the print server 10th an error message and ends in step 299 (see 2c )). After the step 207 or in the event that in step 205 It was determined that either no second individual objects are contained in the first individual object or that all second individual objects called up in the first individual object are present in the data stream 208 the counter of the first individual objects is increased by one.

After that, in step 209 checks whether further first individual objects are contained in the data stream. If further first individual objects are contained in the data stream, the method returns to the step 204 back and takes another first individual object from the data stream. In contrast, if there are no further individual objects in the data stream, the step 210 the counter of the individual objects is reset to one in order to carry out further checks of the data stream.

In the 2 a) continuing 2 B) the procedure is shown in the event that individual objects contained in the data stream must be replaced. In step 211 becomes like in step 204 a first or second individual object is extracted from the data stream. In step 212 it is then checked whether this individual object must be replaced by another third individual object. This can be, for example, a line with the company name, a changed company address or a changed company logo that was not submitted in the print job itself, but was only subsequently made available in a separate file due to a recent change. If such a single object needs to be replaced, the step 213 as in the crotch 206 checked whether this object exists on the print server. If this is not the case, the process ends with the steps 298 and 299 . If, on the other hand, the third individual objects exist, they become in step 214 inserted into the data stream after the first or second individual objects to be replaced have been deleted from the data stream.

If the insertion in the step 214 succeeded or if in step 212 It was determined that no object needs to be replaced in the step 215 as in the crotch 208 the counter in turn increased by one. After that, in step 216 as in the crotch 209 checks whether there is still an object in the data stream. If another first or second individual object is contained in the data stream, the method returns to step 211 back. Otherwise, the step 217 as in the crotch 210 and as in the crotch 203 the counter of the individual objects is set to one.

In the part of the application program that is in the 2 B) shown follows, it is checked whether the individual objects contained in the data stream are compatible with the printing press to be controlled. This part is in 2c ). In step 218 becomes like in the steps 204 and 211 a first, second or third individual object is extracted from the data stream. In step 219 it is then checked whether this individual object is compatible with the controlled printing press. This can be, for example, a color profile selected for a specific digital printing press or other commands specific for a specific digital printing press. If an incompatible single object is found, the step 220 as in the crotch 206 checked whether a fourth individual object compatible with the controlled printing press is present on the print server, which corresponds to the individual object just checked. If this is not the case, the process ends with the steps 298 and 299 . If, on the other hand, the required fourth individual objects exist, they will be in step 221 replaced in the data stream.

If the insertion in the step 221 succeeded or if in step 219 It was determined that no object needs to be replaced in the step 222 as in the crotch 208 the counter in turn increased by one. After that, in step 223 as in the crotch 209 checks whether there is still an object in the data stream. If another first, second, or third If the individual object is contained in the data stream, the method returns to step 218 back.

In 2d ) describes how the application program proceeds if the amount of data contained on a page becomes too large. First, in step 224 the page count is set to one.

In step 225 a printed page, for example in A4 or letter size, is taken as a single object from the data stream. In step 226 the counter for subordinate individual objects on this print page is set to one. The step continues 227 checked whether subordinate individual objects are arranged on this print page. Such subordinate individual objects can be, for example, image files (JPEG), text files from a word processing program or PDF files. In the case of a large number of subordinate individual objects, it can happen that one or more of these subordinate individual objects are large files and therefore there is too much data on the respective print page. This can arise, for example, from the fact that a JPEG image file from a modern digital camera with a very high resolution (24 MPixel is common in modern cameras) on a DIN A4 page with a size of 5 cm x 7.5 cm (2 "x 3 ") should be printed. It takes a lot of rasterization to display such a JPEG image file in this size. The raster process is the conversion of the data to be printed, such as the JPEG file, into a resolution that corresponds to the pixels that can be displayed on the digital printing machine. The computational effort required to process such amounts of data can be so great that the data for the pixels are output to the print heads 7a to 7d is delayed by the raster computer so much that the transport speed at which the recording medium 2nd through the digital press 1 is promoted, must also be reduced. This can go so far that the digital printing machine comes to a complete standstill, which entails very high follow-up costs. Therefore, the total amount of data contained in the single object just checked is determined.

This amount of data of the single object is in the step 229 further compared to the amount of data that is common for an object of this file type (JPEG, PDF, ...) if it is of the size specified by the description of the print page with the printing press 1 with which the specified resolution (e.g. 600 x 600 dpi or 1200 x 1200 dpi) is to be reproduced. If the respective subordinate individual object is larger than the expected amount of data for a single object of this file type that is to be displayed in this size by the predetermined factor or more than the predetermined factor, the step 230 the compression / scaling program suitable for this file type is called up and processed. For example, the default factor can be four.

Is in the crotch 229 the file size of the respective subordinate individual object is below the factor specified by the print resolution, the size to be displayed and the file type or is in step 230 the compression / scaling program expires in step 231 the counter for objects on this page increased by 1. After that, in step 232 checked whether there is another subordinate single object on this page. If another subordinate single object is found, the check of the next single object starts again in step 228 . Otherwise, the step 233 the counter of the printed pages increased by 1. The process continues with the test in step 234 whether another print page follows. If so, the process returns to step 225 with the removal of the next printed page. If there is no further print page, the process moves in step 235 in 2e) away.

In 2e) describes the procedure with which problems with the presence of superimposed printed images on a printed page are dealt with. First, in step 235 the page counter is set to 1. In step 236 a print page is taken from the data stream. To analyze the individual objects on this page, the counter for the individual objects on the current page in step 237 set to 1. In step 238 a single object is taken from the current page. In step 239 it is checked whether the present object is overlaid by another object or whether another object itself is overlaid. In step 240 respectively. 241 the counter for the individual objects is increased by 1. If in step 239 an overlap was found in step 242 the overlaying or overlaid single object is taken from the data stream. In step 243 it is determined which partial areas of the objects overlap one another. In step 244 it is checked whether there is a transparent overlay. If this is not the case, i.e. in the case of a non-transparent overlay, the step 245 the overlaid part of the overlaid object is deleted from the data stream. With a transparent overlay, the step 246 a combination of these object areas is calculated for the affected areas of the superimposed and the superimposed object.

In step 247 it is checked whether there is another overlapping object. If so, the process returns to step 241 back. Otherwise, the step 248 checked whether there are other, i.e. non-overlapping objects on the page. if so, the process returns to step 238 back. Otherwise, the step 249 checked whether the data stream contains another page. If so, it will in step 250 the page counter is incremented by 1 and the process returns to step 236 back. Otherwise, the process ends in step 251 .

A further part of the method, not shown in the figures, is checked in step 246 ( 2 e) ) the file size for the combined object to its size and if necessary gets the in 2 d) from step 229 shown subroutine to check the need for compression / scaling again.

In the 2nd The operations shown are not to be carried out in the sequence given by the sequence of the figure parts a) to e). The order can be changed. Like steps d) and e), steps a), b) and c) can optionally be edited on pages. As is known to the person skilled in the art, process steps can also be carried out in the 2 d) and 2 e) be canceled with an error message. For the sake of clarity, the illustration has been omitted. The present representation also includes other changes in the processes described above that are familiar to a person skilled in the art, for example the insertion of additional queries as to whether a specific individual object has already been tested with the same identifier in the steps 204 / 205 respectively. 211 / 212 noted and in the steps 206 / 207 respectively. 213 / 214 was treated. In the case of repetitive individual objects in the print job, the processing effort for the print job can be reduced by such additional queries.

It is not necessary for the print server 10th and the raster computer 6 are designed as two separate computers. If only small quantities of printed images have to be printed per unit of time, it may be sufficient that the creation of the data stream, the processing in the print server and the rasterization process take place in a single computer, for example a computer for office applications. In the case of high-performance printing presses, however, it may be necessary for the raster computer alone to consist of a large number (for example 64) of server boards. In this case, the cabinet with the raster computer must be arranged directly next to the printing press. Then, for reasons of ergonomics alone, it makes sense to provide the print server at a separate workstation and thus as a separate computer. In the case of high-performance printing machines, too, the data stream is then often created on a further computer which is set up at a customer's, who in turn issues orders to a printing company with the high-performance printing machine, the raster computer and the print server, for example by data transmission.

Reference list

1

Digital printing machine

2nd

Record carrier

3rd

Unwinder

4th

Rewinder

5

Control computer

6

Raster computer

7a, 7b, 7c, 7d

Printhead

8, 9

Data line

10th

Print server

11

Control panel with display device

201

begin

202

Read and save data stream

203, 210, 217

Set object counter to 1

204, 211, 218

Extract a single object

205

Checks whether the extracted object calls another

206

Check whether called. Object on server existing

207, 221

Insert the object from the server into the data stream

208, 215, 222

Increase the number of objects by 1

209, 216, 223

Check for further individual objects

212

Check whether extracted object e.g. is replace

213

Checking whether to replace. Object on server existing

214

Delete the object to be replaced and insert the object to be replaced

219

Check whether the extracted object is compatible

220

Check whether there is a compatible object on the server.

224, 235

Set page counter to 1

225, 236

Extract page

226, 237

Set the counter of the objects on the page to 1

227

Check whether the page contains subordinate objects

228, 238

Extract a single object

229

Check whether the object is too large

230

Compress / scale object

231, 240, 241

Increase the counter of the objects by 1

232, 248

Check for further individual objects on the page

233, 250

Increase the page count by 1

234, 249

Check on another page

239

Check whether the object is overlaid

242

superimposed / superimposed single object extract.

243

Determination of the overlapping partial area

244

Check whether overlay is transparent

245

Delete the overlaid partial area

246

Calculate the combine. d. overlaid partial area

247

Check for another overlaid object

248

Check for another object

251

Usually end

298

Display an error message

299

End in the event of an error

Claims (8)

Method for generating a print image on a recording medium (2) by means of a digital printing machine (1), which is supplied by a print server (10) with a data stream containing image data of the print image, the method comprising the following steps: - Extracting the contents of the data stream as first individual objects, - analyzing the first individual objects for problems when generating the print image, - correcting the causes of the problems in the data stream in the event of problems with generating the print image, - displaying a result of the aforementioned steps on a control panel (11) and - transmitting the data stream corrected in the event of problems with the generation of the print image, if it is possible to generate the print image by means of the changed data stream on the digital printing machine (1), characterized in that the analysis of the first individual objects for problems in generating the print image is carried out by successive overp check all first individual objects whether a format of the respective first individual object in the data stream is accepted by the digital printing press to be controlled, and that if the format of the respective first individual object in the data stream is not accepted by the digital printing press to be controlled, the correction is carried out by all respective first Individual objects in the data stream are converted into a fourth individual object corresponding to the respective first individual object in a format which is supported by the printing press to be controlled. Procedure according to Claim 1 , characterized in that the analysis of the first individual objects for problems in generating the print image is carried out by checking whether one or more of the first individual objects call up second individual objects that are not contained in the data stream, and that in the case of second individual objects not contained in the data stream, the correction is carried out takes place by inserting the respective second individual object from a storage medium of the print server (10) into the data stream. Procedure according to Claim 1 , characterized in that the analysis of the first individual objects for problems when generating the print image is carried out by checking whether one or more of the first individual objects in the data stream must be exchanged for third individual objects, because the generation of the print image by means of the respective first individual object in the data stream causes problems , and that if one or more of the first individual objects must be replaced, the correction is carried out by removing the respective first individual object from the data stream and by inserting a third individual object corresponding to the respective first individual object from a storage medium of the print server into the data stream. Procedure according to at least one of the Claims 1 to 3rd , characterized in that the analysis of the first individual objects for problems in generating the print image is carried out by successively checking all second and / or third individual objects as to whether a format of the respective second and / or third individual object in the data stream from the to be controlled digital printing machine is accepted, and that if the format of the respective second and / or third individual object in the data stream is not accepted by the digital printing machine to be controlled, the correction is carried out by converting all respective second and / or third individual objects in the data stream into one fourth individual object corresponding to the respective second and / or third individual object in a format that is supported by the printing system to be controlled. Procedure according to at least one of the Claims 1 to 4th , characterized in that the analysis of the first individual objects for problems in generating the print image is carried out by successively checking all the first, second, third and / or fourth individual objects as to whether a format of the respective first, second, third and / or fourth individual object in the data stream from of the digital printing machine to be controlled is accepted, and that if the file size of the respective first, second, third and / or fourth individual object in the data stream for a data type of the respective first, second, third and / or fourth individual object and the area to be displayed exceeds a certain size , the correction is carried out by compressing / scaling all respective first, second, third and / or fourth individual objects in the data stream into a fifth individual object corresponding to the respective first, second, third and / or fourth individual object. Procedure according to one of the Claims 1 to 5 , in which the individual objects are printed pages. Procedure according to Claim 6 , in which a check is carried out to determine whether a present printed page contains subordinate sixth individual objects which are overlaid transparently by one or more subordinate seventh individual objects, and in which the sixth individual object is deleted if it is overlapped opaque by a seventh individual object. Procedure according to Claim 6 or 7 , in which a check is carried out to determine whether a present print page contains subordinate eighth individual objects which are transparently overlaid by one or more subordinate individual objects, and in which eighth and ninth individual objects are converted into a common tenth individual object which is compressed when the tenth individual object specified file size exceeds.

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