KR100247394B1 - Protecting method for bending in inkjet printer - Google Patents

Abstract

The present invention relates to a method for preventing banding caused by printing gaps due to irregular line feeding generated at the bottom of an inkjet printer.

The top margin search process for searching the size of the user margin in the maximum printable section of the printer, the image composition process of forming the image up to the last printing line, and the result value of the top margin search process in the final printing line It takes into consideration the final line processing that adjusts the line feed amount and the position of the image, and the printing is terminated with the pinch roller and the feed roller fixed at all times, thus improving the printing state near the bottom margin. Have

Description

How to prevent banding in inkjet printers4

The present invention relates to an inkjet printer, and more particularly, to a bending development method of an inkjet printer capable of eliminating the banding phenomenon generated when printing the bottom of a sheet of paper.

Among the peripheral devices of the computer, the printer is a representative output device displayed on a medium such as paper so that the user can recognize the contents according to the operation of the computer.

Among these printers, inkjet printers are typical printers that can be purchased at a low price and have excellent print quality.

First, the configuration and operation principle of a general inkjet printer will be described with reference to FIG. 1.

Built-in CPU 10 that executes a system program in the EEPROM 21 that stores initial setting values required for printer operation and values required for the system, and outputs control signals according to the program contents, programs necessary for control, and various fonts. The ROM 12, the RAM 11 used to temporarily store data during system operation, an ASIC circuit section 20 for performing data transfer with the CPU 10, and the ASIC circuit 20 A head driver 30 for controlling the driving of the ink cartridge 31 and a carriage return motor driver 40 for controlling the operation of the carriage return motor 41 according to the control signal of the CPU 10 transmitted from And a line feed motor driver 50 for controlling the drive of the line feed motor 51 for feeding and discharging paper, and a power supply 60 for providing a driving voltage necessary for the entire printer apparatus.

In accordance with the control signal of the CPU 10 which receives the print signal from the computer through the printer interface, each of the motors 41 and 51 is driven to perform printing. At this time, the ink cartridge 31 is a method of forming a dot (Dot) by spraying a fine ink drop (Drop) from a nozzle having a plurality of openings.

Looking at the configuration of such a system as a whole can be represented as shown in Figs.

The ink cartridge 31 is driven using the moving belt 15 and the carriage return motor 41 and reciprocates left and right along the moving shaft 14.

The paper 1 accommodated in the paper cassette 70 is drawn in between the line feed roller 73 and the pinch roller 72 by the paper feed roller 75. After the printing operation is completed by the nozzle 33 of the ink cartridge 31, the ink is discharged by the rotational force of the discharge roller 73 and the pinch roller 74.

While the ink cartridge 31 moves left and right, the ink ejected through the plurality of nozzles 33 located on the back of the ink cartridge 31 head 32 is transferred to the paper 1 and printed.

Most modern computer environments are implemented in Windows mode. Inkjet Print's Windows drive creates a print image based on the location of the first nozzle 33, nozzle size, spacing, etc. that the printer is using.

The image data transmitted from the computer to the inkjet printer is sequentially divided by the range of the nozzles 32 of the ink cartridge 31 from the top of the sheet 1 and transmitted to the printer. At this time, a series of operations are performed such as the amount of entry and progress of the paper 1 and the discharge of the paper from the printer after printing.

4 shows an ideal printing operation, in which the paper 1 has two line feed rollers 71 even when the first printing line (nozzle range: L _T ) reaches the final printing line (nozzle range: L _B ). It is fixed by 71. Where L _T and L _B denote a range of the plurality of nozzles 33 installed in the head 32 of the ink cartridge 31, t denotes the top margin of the sheet, and b denotes the bottom margin of the sheet.

인치이라고 할 때, 한 번에 인자 가능한 최대 범위는

인치(수직방향)이며 인자후의 종이 이동거리(라인피드)도

인치가 된다.In addition, the number of head nozzles of the inkjet printer is 56, and the arrangement interval is

In terms of inches, the maximum range that can be printed at one time is

Inch (vertical) and the paper travel (line feed) after printing

It will be inches.

× n 인치가 되며 사용자가 별도의 상/하단 여백을 지정하지 않고 최대 인자 구간 내에 이미지를 모두 채우게 되면 도 4와 같이 이상적인 프린팅이 이루어 질 수 있다.At this time, the maximum printing interval is

If x n inches and the user fills the image within the maximum printing interval without specifying a separate upper / lower margin, ideal printing may be performed as shown in FIG. 4.

On the other hand, if the user adds the top margin will cause a problem.

인치의 상단 여백(U)을 추가한 경우의 예를 나타내고 있다. 윈도우즈 드라이브는 항상 첫 번째 노즐(33t)을 기준으로 프린팅 이미지를 만든다. 따라서 최종 인자 라인(노즐범위 33b)에서 실제 인자 높이가

인치가 되지 않더라도 종이를

인치를 이동시킨후(노즐범위: 33b_-1), K높이 만큼에 해당되는 헤드(3a)의 노즐(33b_-1:

부위)들로만 프린팅을 수행하게 된다.In Figure 5 the user

The example in the case of adding the top margin U of inches is shown. Windows drives always create a print image based on the first nozzle (33t). Therefore, the actual print height in the final print line (nozzle range 33b)

Even if it is not an inch

After moving the inch (nozzle range: 33b _-1 ), the nozzle 33b _-1 of the head 3a corresponding to the height of K:

Printing).

At this time, the paper 1 is out of the line feed rollers 71 and 71, which makes it difficult to precisely control the position, resulting in a factor gap that causes irregular intervals between factors in the vicinity of the lower margin b.

The present invention is to solve this problem is to eliminate the banding phenomenon by adjusting the amount of data transmitted from the computer to be printed in the state that the paper is stuck in the roller.

A feature of the present invention for achieving the above object is the upper margin search process for searching the size of the user margin in the maximum printable section of the printer, the image composition process of forming the image up to the last printing line, and the final printing In the line, the final line processing is performed to adjust the line feed amount and the position of the image in consideration of the result value according to the top margin search process.

1 is a block diagram showing the configuration of a general inkjet printer,

2 to 3 are views showing the operation of the configuration of FIG.

4 is a printing example showing an ideal printing operation,

5 is a printing result in the case of having a user margin according to the prior art,

6 is a flow chart showing the progress of the present invention,

7 is an exemplary view of a printing result with user margins according to the practice of the present invention.

Hereinafter, the configuration of the present invention and its operation will be described with reference to the accompanying drawings.

6 is a flowchart illustrating a process of performing a banding phenomenon prevention operation according to the present invention.

인치가 노즐의 간격이고 이 비트맵 하나가 노즐단위의 인자 데이터로 사용된다.First, Windows Drive analyzes images created on a computer in bitmap format to form printed images. The size of this bitmap means the spacing of the nozzles 33. I.e. 300 dpi

Inch is the nozzle spacing, and one bitmap is used as the nozzle data.

It searches for how much the user margin is set in the bitmap unit in the maximum printable section of the printer. This result is the basic data for determining how much line feeding will be performed during the final print line processing (step S11).

인치인 모노 헤드일 경우 한 줄당 최대 인자 가능한 높이는

인치이다. 즉 세로로 동시에

인치만큼을 인쇄할 수 있음을 의미한다.The image is printed until the final argument line is reached. 56 nozzles and nozzle spacing

For mono head in inches, the maximum printable height per line is

Inches. Vertically and simultaneously

That means you can print as many inches.

Therefore, Windows Drive scans 56 bitmaps vertically and stores the search results in a 56-bit image buffer. Send it to the printer.

The search result is a logical value consisting of "0" and "1", where "0" means no image to print, and "1" and vice versa. Since the image buffer data transmitted to the printer is actual nozzle data corresponding to the nozzle one-to-one, it is output to the print head.

인치라면 최종 라인(노즐범위: 33b_-1)의 최대 인자 높이(K)는

인치

인치이므로

인치가 된다. 따라서 노즐(33b_-1)의 인자 위치도 36번째 노즐(33b_-1:

부위)부터 인자하게 되도록 이미지 버퍼의 결과값을 20 비트 순차적으로 이동시켜 준다.Immediately before reaching the final printing line, line feeding is performed with reference to the user space retrieved in step S11. As shown in FIG. 7, if the user space U

Inches, the maximum print height (K) of the final line (nozzle range: 33b _-1 ) is

inch

As it is inches

It will be inches. Therefore, the printing position of the nozzle 33b- ₁ is also 36th nozzle 33b- ₁ :

The result of the image buffer is shifted 20 bits sequentially so as to print from the part).

인치

인치(U)이므로

인치(K)가 된다.(S13 과정)In addition, the line feeding amount moved to the last line at the previous stage of the last line is as shown in FIG.

inch

As it is inch (U)

It becomes inch (K) (S13 process).

As described above, the present invention has the effect of improving the printing state in the vicinity of the bottom margin because the printing is always terminated in the state where the paper is fixed to the pinch roller and the feed roller.

Claims (2)

A top margin search process that searches for the size of the user margin in the maximum printable section of the printer; The image composition process that composes the image up to the final printing line And a final line processing step of adjusting the line feed amount and the position of the image in consideration of the result value of the upper margin search process in the final printing line. The method of claim 1; The final line process is a method for preventing the banding phenomenon of the inkjet printer, characterized in that the line-feeding by subtracting the size of the user margin at the maximum printable height.

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