CN111626712A - Efficient digital printing production work flow - Google Patents

Abstract

The invention provides a high-efficiency digital printing production work flow, and relates to the technical field of digital printing. The high-efficiency digital printing production work flow comprises the following steps: s1, designing and typesetting: preparing an original document of the printing information, and typesetting the data to be printed by using typesetting software; s2, content query: the operator checks the format, typeface, image resolution, accuracy, and other problems of the print information based on the prepared original document of the print information. According to the invention, the digital printing machine and the artificial intelligence are combined, the original document is detected in an artificial intelligence mode, the detection result of the original document can be generated in a one-key mode, the error in the original document is quickly corrected, the workload before printing is greatly reduced, meanwhile, the resolution and the color value between the printed document and the original document are quickly obtained, the digital printing machine can be accurately controlled, the debugging time of the digital printing machine is shortened, and therefore, the digital printing can be efficient, continuous and accurate.

Description

Efficient digital printing production work flow

Technical Field

The invention relates to the technical field of digital printing, in particular to a high-efficiency digital printing production work flow.

Background

Digital printing is a brand new printing mode which directly prints computer files on paper and is different from the traditional complicated printing process. It features that it can print one sheet at a time without plate making, and can be taken immediately, corrected, printed variably and printed as required. Digital printing is a comprehensive technology developed on the basis of printing technology, and electronic texts are used as carriers and are transmitted to digital printing equipment through a network to realize direct printing. The printing production process is characterized in that the printing production process is free of edition and information variability, and the printing production process covers a plurality of technical fields such as printing, electronics, computers, networks, communication and the like.

The digital printing needs no complicated procedures of traditional offset printing, and only needs a computer to send to a printing machine to obtain a finished product, so that the traditional printing can not be achieved in the processes of rapid printing, variable printing and on-demand printing, therefore, the digital printing industry really meets the requirement of the rapid printing of the daily and new commercial prints, the development speed is quite high, the development space is very large, at present, when printing some documents with more contents, the original documents need to be checked, the influences of formats, wrongly written characters, punctuation marks and the like are eliminated, the occurrence of errors in the printed documents is prevented, the damage caused by batch printing is effectively avoided, meanwhile, the problem of color difference is easy to occur in the printing of some color patterns, in the prior art, the problems need to be solved by people, although the efficiency of the current printing equipment is high, but the problem before and in the printing process needs to spend a great deal of time, thereby reducing the efficiency of digital printing production to some extent.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects in the prior art, the invention provides an efficient digital printing production work flow, and overcomes the defects and shortcomings in the prior art.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: an efficient digital printing production workflow comprises the following steps:

s1, designing and typesetting: preparing an original document of printing information, typesetting the data to be printed by using typesetting software, checking the logic of the typesetting file after typesetting, repeatedly adjusting the typesetting mode, and generating a final typesetting mode;

s2, content query: the operator checks the format, the typeface, the image resolution, the precision and other problems of the printing information according to the prepared original manuscript of the printing information, performs raster processing and electronic makeup after the checking is finished, and then transmits the final layout to a system of a digital printer;

s3, proofing test: printing the uploaded typesetting document by a digital printer, comparing the printed document with an original manuscript, analyzing the conditions of image resolution, color difference and the like between the printed document and the original manuscript, correcting in time and generating a final printed manuscript;

s4, printing: establish digital printing machine terminal and mobile terminal's communication mode, on digital printing machine terminal can be with data synchronization to mobile terminal APP, can look over the effect of printing document on mobile terminal APP, steerable digital printing machine gets into the printing operation simultaneously.

Preferably, in step 2, the manner of detecting the original document is as follows:

1) establishing a document query model and a database system, and generating the relevance between the document query model and the database system;

2) acquiring a large number of long manuscripts and easily confused phrases, and importing the long manuscripts and the easily confused phrases into a database system, wherein the database system synchronizes data into a document query model;

3) establishing a training sample set, wherein the training sample set adopts test documents, sets wrong formats, wrongly written characters, punctuation marks and the like in correct documents, and guides the training sample set into a document query model for training until the document query model can accurately position the wrong formats, wrongly written characters, punctuation marks and the like;

4) and importing the printed document into a document query model, generating an error format, an error word, a punctuation mark and the like by using the document query model, then labeling and correcting the error format, the error word, the punctuation mark and the like, and finally confirming the document by an operator.

Preferably, the proofing test in step 3 is as follows:

1) firstly, acquiring an image of a printed document and an image of an original document, measuring the resolution of the two images and analyzing the color data of the two images;

2) calculating the difference value of the two image resolutions by a computer, correcting the image resolution of the printed document by using software such as ps and the like, and adjusting the working parameters of the digital printer according to the corrected parameters;

3) acquiring color data of the two images, calculating a color difference value between the two images, and adjusting and controlling the color of the digital printer according to the color difference value;

4) the printed document is repeatedly compared with the original document in the above manner, and the difference between the printed document and the original document is corrected a plurality of times until the proximity between the two reaches 99% or more.

Preferably, the step 4 includes the following steps:

1) setting of calibration paper;

2) the color and fine adjustment precision are controlled by adjusting the size of the dot, so that the file is ensured to be correctly set;

3) the ink or toner is checked, and whether the paper feeding operation is normal is checked.

(III) advantageous effects

The invention provides a high-efficiency digital printing production work flow. The method has the following beneficial effects:

according to the invention, the digital printing machine and the artificial intelligence are combined, the original document is detected in an artificial intelligence mode, the detection result of the original document can be generated in a one-key mode, the error in the original document is quickly corrected, the workload before printing is greatly reduced, meanwhile, the resolution and the color value between the printed document and the original document are quickly obtained, the digital printing machine can be accurately controlled, the debugging time of the digital printing machine is shortened, and therefore, the digital printing can be efficient, continuous and accurate.

Detailed Description

The following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b):

the embodiment of the invention provides a high-efficiency digital printing production work flow, which comprises the following steps:

s1, designing and typesetting: preparing an original document of printing information, typesetting the data to be printed by using typesetting software, checking the logic of the typesetting file after typesetting, repeatedly adjusting the typesetting mode, and generating a final typesetting mode;

s2, content query: the operator checks the format, the typeface, the image resolution, the precision and other problems of the printing information according to the prepared original manuscript of the printing information, performs raster processing and electronic makeup after the checking is finished, and then transmits the final layout to a system of a digital printer;

the original document detection method comprises the following steps:

1) establishing a document query model and a database system, and generating the relevance between the document query model and the database system;

2) acquiring a large number of long manuscripts and easily confused phrases, and importing the long manuscripts and the easily confused phrases into a database system, wherein the database system synchronizes data into a document query model;

3) establishing a training sample set, wherein the training sample set adopts test documents, sets wrong formats, wrongly written characters, punctuation marks and the like in correct documents, and guides the training sample set into a document query model for training until the document query model can accurately position the wrong formats, wrongly written characters, punctuation marks and the like;

4) importing the printed document into a document query model, generating wrong formats, wrongly written characters, punctuation marks and the like by using the document query model, then labeling and correcting the wrong formats, wrongly written characters, punctuation marks and the like, and finally confirming the document by an operator;

s3, proofing test: printing the uploaded typesetting document by a digital printer, comparing the printed document with an original manuscript, analyzing the conditions of image resolution, color difference and the like between the printed document and the original manuscript, correcting in time and generating a final printed manuscript;

wherein, the proofing test is as follows:

1) firstly, acquiring an image of a printed document and an image of an original document, measuring the resolution of the two images and analyzing the color data of the two images;

2) calculating the difference value of the two image resolutions by a computer, correcting the image resolution of the printed document by using software such as ps and the like, and adjusting the working parameters of the digital printer according to the corrected parameters;

3) acquiring color data of the two images, calculating a color difference value between the two images, and adjusting and controlling the color of the digital printer according to the color difference value;

4) repeatedly comparing the printed document with the original manuscript according to the mode, and correcting the difference between the printed document and the original manuscript for many times until the proximity between the printed document and the original manuscript reaches more than 99%;

s4, printing: the method comprises the steps that a communication mode of a digital printer terminal and a mobile terminal is established, the digital printer terminal can synchronize data to a mobile terminal APP, the effect of printed documents can be checked on the mobile terminal APP, meanwhile, the digital printer can be controlled to enter printing operation, and after the mobile terminal APP sends a printing instruction, the digital printer terminal starts printing, so that the intermediate waiting time is saved;

in the present invention, the following are included in printing:

1) setting of calibration paper;

2) the color and fine adjustment precision are controlled by adjusting the size of the dot, so that the file is ensured to be correctly set;

3) the ink or toner is checked, and whether the paper feeding operation is normal is checked.

According to the invention, the digital printing machine and the artificial intelligence are combined, the original document is detected in an artificial intelligence mode, the detection result of the original document can be generated in a one-key mode, the error in the original document is quickly corrected, the workload before printing is greatly reduced, meanwhile, the resolution and the color value between the printed document and the original document are quickly obtained, the digital printing machine can be accurately controlled, the debugging time of the digital printing machine is shortened, and therefore, the digital printing can be efficient, continuous and accurate.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. A high-efficient digital printing production work flow, its characterized in that: the method comprises the following steps:

s1, designing and typesetting: preparing an original document of printing information, typesetting the data to be printed by using typesetting software, checking the logic of the typesetting file after typesetting, repeatedly adjusting the typesetting mode, and generating a final typesetting mode;

s2, content query: the operator checks the format, the typeface, the image resolution, the precision and other problems of the printing information according to the prepared original manuscript of the printing information, performs raster processing and electronic makeup after the checking is finished, and then transmits the final layout to a system of a digital printer;

s3, proofing test: printing the uploaded typesetting document by a digital printer, comparing the printed document with an original manuscript, analyzing the conditions of image resolution, color difference and the like between the printed document and the original manuscript, correcting in time and generating a final printed manuscript;

s4, printing: establish digital printing machine terminal and mobile terminal's communication mode, on digital printing machine terminal can be with data synchronization to mobile terminal APP, can look over the effect of printing document on mobile terminal APP, steerable digital printing machine gets into the printing operation simultaneously.

2. An efficient digital printing production workflow as recited in claim 1, wherein: the method for detecting the manuscript in the step 2 is as follows:

1) establishing a document query model and a database system, and generating the relevance between the document query model and the database system;

2) acquiring a large number of long manuscripts and easily confused phrases, and importing the long manuscripts and the easily confused phrases into a database system, wherein the database system synchronizes data into a document query model;

3) establishing a training sample set, wherein the training sample set adopts test documents, sets wrong formats, wrongly written characters, punctuation marks and the like in correct documents, and guides the training sample set into a document query model for training until the document query model can accurately position the wrong formats, wrongly written characters, punctuation marks and the like;

4) and importing the printed document into a document query model, generating an error format, an error word, a punctuation mark and the like by using the document query model, then labeling and correcting the error format, the error word, the punctuation mark and the like, and finally confirming the document by an operator.

3. An efficient digital printing production workflow as recited in claim 1, wherein: the sample making test in the step 3 is as follows:

1) firstly, acquiring an image of a printed document and an image of an original document, measuring the resolution of the two images and analyzing the color data of the two images;

2) calculating the difference value of the two image resolutions by a computer, correcting the image resolution of the printed document by using software such as ps and the like, and adjusting the working parameters of the digital printer according to the corrected parameters;

3) acquiring color data of the two images, calculating a color difference value between the two images, and adjusting and controlling the color of the digital printer according to the color difference value;

4) the printed document is repeatedly compared with the original document in the above manner, and the difference between the printed document and the original document is corrected a plurality of times until the proximity between the two reaches 99% or more.

4. An efficient digital printing production workflow as recited in claim 1, wherein: the step 4 comprises the following steps:

1) setting of calibration paper;

2) the color and fine adjustment precision are controlled by adjusting the size of the dot, so that the file is ensured to be correctly set;

3) the ink or toner is checked, and whether the paper feeding operation is normal is checked.