KR20060088599A - Rip printing method for large format printer which have combined two or more printers, especially enhance printing speed and reducing and protecting image banding - Google Patents

Abstract

The present invention relates to a hardware and software configuration method for improving the printing speed of a large printer, and a basic method for improving the printing speed, and a method for solving the banding phenomenon generated when combining multiple printers by a software method. to be. In order to improve the printing speed of a large printer, two or more printers are connected in parallel to divide the output area, and at the same time, the data for printing is output to two or more printers through RIP (Raster Image Processing) SW. . Since two or more printers print on one sheet of paper, one data to be printed must be separated and sent for each printer. When hardware is implemented, it is a method of artificially removing the banding phenomenon that is inevitable in RIP (Raster Image Processing) SW. By artificially decomposing the data information that the printer should print at the same time by printing the overlapping areas of Printer A and Printer B and dividing the overlapping areas, the banding phenomenon occurring at the boundary portion taken by the AB printer can be eliminated. You can also eliminate banding by always dividing the halftone from the beginning. The present invention intends to patent the technology of dividing the halftone and the technology of disassembling and outputting the same output data to two or more printers during RIP SW operation.

Large Format Printer, Large Format Printer, RIP (Raster Image Processing) SW, Digital Printing, Banding, Dot, Textile, Pass, Firmware

Description

RRI Printing Method for Large Format Printer which have combined two or more printers, especially enhance printing speed and reducing and protecting image banding}

Representative diagram is a drawing constituting one printer with two printers

1 is a diagram constituting one printer with two printers

FIG. 2 shows the result of printer A in the figure of combining two printer outputs to complete one output. FIG.

FIG. 3 shows the results of printer B of the figure that combines two printer outputs to complete one output. FIG.

4 is a filter mask for resolving halftone dots

5 is for the printer A of the results of taking pictures when divided in A, B printer

6 is for the B printer of the results of taking pictures when divided in A, B printer

The present invention is a technology for the function of the RIP (Raster Image Processing) SW for controlling a large format printer (Large Format Printer) used in sign companies, textile companies, etc. Previously, graphic printer control technology, halftone implementation technology, RIP (Raster Image) Processing) As a SW technology, the prior art was a general RIP SW and a printer driver type, and only a general technology of transmitting a print command to a general printer to print.

The field of using large-format printers is called digital printing and is used in advertising, sign industry and textile industry.

In particular, the textile industry is producing cloth by the traditional printing method, and is rapidly moving to digital printing recently. Due to the scale of production, the speed of large printers is required.

The concept of the present invention has been conceived by introducing the concept of pass of the output method of a large-format printer. The pass concept is a method in which the printer divides the number of printer nozzles at once without printing them. For example, if it is 4 Pass, the nozzles of 1 5 9 13 are taken first, and then the output is divided into 2 6 10 14 in this order. This pass concept prevents banding from taking one band and the next compared to taking all the nozzles from the beginning.

However, the pass concept is controlled by the controller board directly when controlling one printer. When printing by combining two or more printers, the exclusive hardware controller board is designed and the SW method is used before designing a completely new firmware. There was no way to fix it. This is to operate the minimum control in the existing hardware configuration and the rest by SW method to operate with the desired result and efficient development cost investment in a short time.

The main object of the present invention is to combine two or more large printers to make one fast printer, and to send printing commands to two or more printers simultaneously and multi-threaded, and to configure the printer by combining two or more printers. In order to solve the inevitable banding phenomenon, in the area where banding will occur (where A and B printer's output results meet), A printer and B printer take one area in RIP SW and divide the dots. The purpose of this method is to remove the banding phenomenon and obtain a high quality output result by disassembling the data into a form of overlapping at the end of the data taken by printer A and at the beginning of data that printer B starts to print.

Another method is that A and B printers divide one area from the beginning, and A and B print half the halftone dot and B printer takes the other half and combine them. As the output is divided, the possibility of banding is further reduced.

In order to achieve the above object, the present invention has a built-in RIP (Raster Image Processing) SW to control a large printer as a base, and the ability to decompose one data according to the output form, the ability to extract only a part of the half point half point meets, It implements the ability to disassemble and extract halftone dots by A and B printers.

1 is a diagram constituting one printer with two printers.

Two printers are connected in parallel to output a single sheet of paper. If the two printers output the same and the paper feeds A and B printers can move in the same way in hardware, after that, only the SW can be controlled to implement the high speed printer.

2 is a view showing a combination of two printer outputs to complete one output. In the drawing, when the printer A prints first and the printer B prints the next output, it prints the A area and the B area at the same time, and outputs only the area where A and B meet. We will build a way to eliminate the banding.

Or, instead of printing the existing pass concept, divide the dots and output the A and B printers. In this case, even if you use less pass concept than the existing pass, banding does not occur, so the speed can be compensated by reducing the number of passes.

FIG. 4 is a filter mask for decomposing a halftone, and when the halftone is decomposed, it may be divided into A and B halftones according to an area where the halftone is shifted when combined with the two-dimensional mask as shown in FIG. After that, it is combined with one position on the paper, but the area taken by A and B can be printed in the same way as the halftone when taken by one printer.

5 and 6 show the results of each shot when divided by A and B printers.

Specifically, this is a result showing the area to be divided by the A and B printers. As shown in Fig. 4, the original data is firstly divided in the RIP SW to generate the data to be received by the A and B printers respectively. As shown in Fig. 2, the overlapping area is decomposed to process the data to prepare for banding in the overlapping area.

Large format printers are revolutionizing speed. However, Korea does not have the original technology for large-scale printers, and the speed improvement is currently at a limit.

The present invention is a data distribution and banding elimination function that plays an important role in forming a multi-printer by combining only a part of the existing printer to combine the multiple printers can be expected to increase the speed as much as n printers are combined in the existing large-format printer It takes up the core function of RIP SW of printing system and can increase productivity due to the speed increase, especially it will contribute to digitalization of domestic and overseas textile industry.

Claims (1)

It is a technology that transmits print data by dividing halftone dots and dividing one output data into multiple printers to different printers.It creates data by decomposing the output area for basic A and B printers, and the RIP SW for the overlapping data. After the original data is made of halftone data of each color in CMYK, it generates image data to be sent to A and B printers through two-dimensional image masks of 0 and 1.

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