JP2004262171A - Printing method and printing system by ink jet printer, as well as host computer or printer driver equipped with the method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To shorten time required until a page can be used by shortening a drying latency time after completion of printing an image on one page when the one page is printed by an inkjet printer for recording the image by jetting the ink on a recording medium. <P>SOLUTION: A printer driver 101 for diving the ink jet printer is comprised of a means for calculating an ink ejection amount, a means for judging which of a first half and a latter half of the page requires a larger ink ejection amount, and a 180-degree rotating means for rotating plotting data on the one page through 180 degrees. According to the printer driver, if the first half of the page requires the larger ink ejection amount, print data is created by rotating the plotting data on the one page through 180 degrees. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

となる。
【００４０】
プリンタドライバ１０１はバンドの処理を行う際、Ｂｉ（ｋ）を記憶しておき、１ページ分の処理を完了後、上記の式にしたがってページの前半のインク打ち込み量とページの後半のインク打ち込み量を計算する。
【００４１】
ここでは、簡単のために１ページは偶数個のバンドに分割されるとしたが、奇数個に分割される場合には、ページの真中にまたがるバンドについてはバンドの前半と後半のインク打ち込み量をページの前半と後半のインク打ち込み量に加えるものとする。
【００４２】
このために、インクの打ち込み量をライン単位で管理するものとする。
【００４３】
すなわち、１バンドがＭラインで構成されるとして、１ラインにおけるインク打ち込み量を
Ｌｉ（ｊ） （ｊはｊ番目のラインを表す）
で表すことにすると、

となる。
【００４４】
上記式で求めたバンドの前半のインク打ち込み量とバンドの後半のインク打ち込み量をページの前半のインク打ち込み量とページの前半のインク打ち込み量の計算の際に使用する。
【００４５】
上記の計算式にしたがって、ページ前半のインク打ち込み量とページ後半のインク打ち込み量とを求める。その値が大きい方がインクの打ち込み量が多いと判定する。
【００４６】
［印刷データの１８０度回転手段］
次に印刷データを１８０度回転する方法について説明する。
【００４７】
１ページの印刷データを１８０度回転するには、上下反転と左右反転を連続して行えばよい。
【００４８】
上下反転は、図４に示すラインデータ位置管理テーブル４００を使って行う。
【００４９】
描画イメージ用ワークファイル１０７に描画データを書き出す際に、各ラインのファイル上での位置をメモリ内のラインデータ位置管理テーブル４００に記録しておく。ラインデータ位置管理テーブル４００の構造は、先頭に総ライン数が記録されており（４０１）、その後に各ラインの位置が記録されている（４０２〜４０３）。
【００５０】
上下反転のために描画イメージの記録された描画イメージ用ワークファイル１０７からラインデータを最後のラインから最初のラインまで１ラインずつ読み出して回転イメージ用ワークファイル１０８に書き出せばよい。これは上記ラインデータ位置管理テーブル４００を参照すれば可能である。
【００５１】
左右反転のためには１ラインのデータに対してバイト単位の左右反転と各バイトにおけるビット単位の反転を行えばよい。すなわち、
Ｌｄ（ｋ）を１ラインにおけるｋバイト目のデータであるとすると、次のようにＬｄ（ｋ）とＬｄ（Ｎ−ｋ）との入れ替えをｋ＝１からｋ＝Ｎ／２まで繰り返す。
Ｌｄ（１） と Ｌｄ（Ｎ） との入れ替え
Ｌｄ（２） と Ｌｄ（Ｎ − １） との入れ替え
．．．．．．．．．．．．
Ｌｄ（Ｎ／２） と Ｌｄ（Ｎ／２ ＋ １） との入れ替え
バイト単位の左右反転が終わったので次に各バイトのビット単位の反転を行う。すなわち次の操作を実行する。
ｂｉｔ０ と ｂｉｔ７の入れ替え
ｂｉｔ１ と ｂｉｔ６の入れ替え
ｂｉｔ２ と ｂｉｔ５の入れ替え
ｂｉｔ３ と ｂｉｔ４の入れ替え
【００５２】
［印刷処理］
図５は本発明における印刷処理の流れを示すフローチャートである。
【００５３】
プリンタドライバ１０１は、１ページの印刷データを作成する際、オペレーティングシステムのグラフィックスサブシステムから渡されたバンド単位で行う。
【００５４】
全バンドの処理が終了していない場合（Ｓ５１０−Ｎｏ）には、プリンタドライバ１０１はホストコンピュータ１００のメモリ内に描画手段１０２により１バンド分の描画イメージデータを作成し（Ｓ５２０）、インク打ち込み量計算手段１０３によりそのバンドあたりのインク打ち込み量を計算して記憶する（Ｓ５３０）。作成した描画イメージデータは描画イメージ用ワークファイル１０７に書き込む（Ｓ５４０）。この際、ラインデータ位置管理テーブル４００に各ラインの描画イメージデータのファイル上での位置を記録する。
【００５５】
全バンドの処理が終了した場合（Ｓ５１０−Ｙｅｓ）には、プリンタドライバ１０１はＳ５３０で記憶している各バンドのインク打ち込み量からインク打ち込み量判定手段によりページの前半と後半の打ち込み量を計算する（Ｓ５５０）。いずれがインク打ち込み量が多いかを判定する。
【００５６】
ページ前半のインク打ち込み量が多い場合（Ｓ５６０−Ｙｅｓ）には、プリンタドライバ１０１は描画イメージ用ワークファイル１０７から描画イメージデータを読み出し、描画イメージを回転せずにそのまま、印刷データ作成手段１０６によりプリンタコマンドを付加した印刷データを作成しインクジェットプリンタ１２０に送信する。
【００５７】
ページ後半のインク打ち込み量が多い場合（Ｓ５６０−Ｎｏ）には、描画イメージデータ回転手段１０５により描画イメージを１８０度回転して、印刷データ作成手段１０６によりプリンタコマンドを付加した印刷データを作成しインクジェットプリンタ１２０に送信する。
【００５８】
インクジェットプリンタ１２０は上記印刷データに基づき記録媒体にインクを吐出して画像を記録する（Ｓ５９５）。
【００５９】
［描画データの１８０度回転処理］
図６は、描画データの１８０度回転処理の流れを示すフローチャートである。
【００６０】
プリンタドライバ１０１は、ラインデータ位置管理テーブル４００から１ページの描画イメージデータの最終ラインのデータの描画イメージ用ワークファイル内での位置を取得し（Ｓ６１０）、描画イメージ用ワークファイルからその１ラインのデータを読み込み（Ｓ６２０）、１ラインのデータの左右反転を行い（Ｓ６３０）、回転イメージ用ワークファイルに１ライン分の左右反転データ書き出す（Ｓ６４０）。
【００６１】
まだ最初のラインの処理が終了していなければ（Ｓ６５０−Ｎｏ）、ラインデータ位置管理テーブル４００から１ライン手前のデータの描画イメージ用ワークファイル内での位置を取得し（Ｓ６６０）、そのラインの処理に移る（Ｓ６２０）。
【００６２】
最初のラインまで処理が終了したら（Ｓ６５０−Ｙｅｓ）処理を終了する。回転イメージ用ワークファイルに描画イメージデータを１８０度回転したデータが出来上がる。
【００６３】
【実施例２】
実施例１のインク打ち込み量判定方法が最もインク打ち込み量が多いバンドがページの前半にあるか後半にあるかで行うもの。
【００６４】
最もインク打ち込み量が多いバンドがページの後半にある場合に描画イメージデータの１８０度回転処理を行ってプリンタに送信する。
【００６５】
【実施例３】
実施例１の描画データの１８０度回転処理において１ラインの左右反転を行った後、回転イメージ用ワークファイルに書き込まず、直接プリンタコマンドを付加してプリンタに送信する。
【００６６】
【発明の効果】
本発明により、記録媒体にインクを吐出して画像を記録するインクジェットプリンタでひとつのページに印刷する場合に１ページの印刷完了後の乾燥待ち時間を短縮してそのページが利用可能になるまでの時間を短縮することができる。
【図面の簡単な説明】
【図１】本発明のシステム構成を示す図
【図２】印刷ページの例、および、それを上下反転した図と更に左右反転した図
【図３】印刷データの構成の例を示す図
【図４】ラインデータ位置管理テーブルを示す図
【図５】印刷処理の流れを示すフローチャート
【図６】描画データの１８０度回転処理の流れを示すフローチャート
【符号の説明】
１００ ホストコンピュータ
１０１ プリンタドライバ
１０２ 描画手段
１０３ インク打ち込み量計算手段
１０４ インク打ち込み量判定手段
１０５ 描画イメージデータ回転手段
１０６ 印刷データ作成手段
１０７ 描画イメージ用ワークファイル
１０８ 回転イメージ用ワークファイル
１１０ 通信手段
１２０ インクジェットプリンタ
２００ １ページにおける描画データの例
２０１ ビットマップデータ
２０２，２０３ 図形データ
２１１〜２１６ バンド
２２０ ２００を上下反転したもの
２３０ ２２０を左右反転したもの
３００ １ラインの印刷データの例
３０１ ３００を構成するＫ １ラインの印刷データ
３０２ ３００を構成するＣ １ラインの印刷データ
３０３ ３００を構成するＭ １ラインの印刷データ
３０４ ３００を構成するＹ １ラインの印刷データ
３１０ １ピクセルの印刷データの例
３１１ ３１０を構成するＫ １ピクセルの印刷データ
３１２ ３１０を構成するＣ １ピクセルの印刷データ
３１３ ３１０を構成するＭ １ピクセルの印刷データ
３１４ ３１０を構成するＹ １ピクセルの印刷データ
４００ ラインデータ位置管理テーブル
４０１ ４００における総ライン数の記録エントリ
４０２ ４００における１ライン目の位置の記録エントリ
４０３ ４００における最終ラインの位置の記録エントリ[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an ink jet printer printing method and printing system, and a host computer or a printer driver having the method. The present invention relates to a method for ejecting ink onto a recording medium (usually a sheet of paper; The present invention relates to a method of performing printing on an ink jet printer for recording the image.
[0002]
[Prior art]
When printing is performed by an ink jet printer that discharges ink onto a recording medium and records an image, it takes a certain amount of time until the ink discharged on paper is completely dried. This drying time differs depending on the type of ink, the type of paper, and the like.
[0003]
When printing with an ink-jet printer, if the printed paper is touched before the ink dries, the paper surface is rubbed, and the rubbed ink stains the paper surface. Also, if another paper is stacked on the printed paper before the ink dries, the surface of the printed paper becomes dirty with the rubbed ink, and the ink of the printed paper adheres to the back of the stacked paper and becomes dirty. .
[0004]
For this reason, when printing is performed by an inkjet printer, even after printing of one page is completed, the sheet cannot be used until the ejected ink dries.
[0005]
Conventionally, printing has been performed unconditionally sequentially from the top of one page.
[0006]
[Problems to be solved by the invention]
The longer the print data, such as characters and images, is on the back of the page, the shorter the elapsed time from the ejection of the ink to the paper to the completion of printing of one page, the harder it is to dry. For this reason, as the number of print data such as characters and images behind the page increases, the drying wait time after printing is completed becomes longer.
[0007]
Conventionally, since printing is sequentially performed unconditionally from the top of one page, the drying wait time after printing is longer as the number of print data such as characters and images is larger at the back of the page.
[0008]
According to the present invention, when printing on one page with an ink jet printer that discharges ink onto a recording medium and prints an image, the drying wait time after completion of printing of one page is shortened until the page becomes usable. It aims to provide a way to save time.
[0009]
[Means for Solving the Problems]
There is a difference between the time printed from the ink on the paper and the completion of printing one page between the one printed on the first part of the page and the one printed on the last part of the page. The portion printed in the portion is easier to dry because the elapsed time after printing is longer.
[0010]
For this reason, when the amount of ink to be applied is larger in the latter half than in the first half of the page, if the latter half of the page is printed first, the drying wait time after printing of one page can be shortened.
[0011]
According to the present invention, a printer driver calculates an amount of ink applied to a portion of a page on the paper surface, a unit that determines which one of the first half and the second half of the page has a larger amount of ink applied, and a method of drawing one page. A means for rotating the data by 180 degrees is provided. When the first half of the page has a larger amount of ink applied than the latter half, the page is rotated by 180 degrees to create print data, so that drying of one page after completion of printing is completed. Be able to reduce waiting time.
[0012]
As described above, the present invention can be summarized into the following configuration by organizing and summarizing the present invention.
[0013]
(1) A system for printing on an inkjet printer that records an image by discharging ink on a recording medium,
In the printer driver in the host computer,
Drawing means for drawing characters, graphics (graphics) and images (bitmaps) on a computer memory;
Means for calculating the amount of ink applied to a portion of the page on the recording medium surface;
Means for determining which of the first half and the second half of the page has the larger amount of ink applied;
Means for rotating one page by 180 degrees to create print data;
A print data generating means for generating print data by adding a printer command to the drawing data is provided. When the first half of the page has a larger amount of ink applied than the latter half, the page is rotated by 180 degrees to generate the print data. A printing wait time after printing of one page is completed.
[0014]
(2) A printer driver in a host computer provided with the inkjet printer printing method according to (1).
[0015]
(3) A host computer provided with the inkjet printer printing method according to (1).
[0016]
(4) An inkjet printer printing system including the inkjet printer printing method according to (1).
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0018]
Embodiment 1
FIG. 1 shows the system configuration of the present invention.
[0019]
[System configuration]
In the host computer 100, based on a print request of characters, graphics (graphics), and image (bitmap) data from an application transmitted through a graphics subsystem of the operating system, the printer driver 101 102 is used to create drawing image data. The printer driver 101 calculates the first half and the second half of the page based on the drawing image data based on the drawing image data, and the first and second half of the page uses the larger amount of the ink based on the determined amount. Is determined. In this process, if the drawing image data does not fit in the memory of the host computer 100, the drawing image is written and saved in the drawing image work file 107.
[0020]
When the ink ejection amount in the latter half of the page is large, the drawing image is rotated by 180 degrees by the drawing image data rotating means 105, and the print data with the printer command added thereto by the print data creating means 106 is transmitted to a communication means such as a centro or a network. The data is transmitted to the inkjet printer 120 connected by 110. In the process of rotating the drawing image by 180 degrees, the drawing image data rotated by 180 degrees is written and stored in the rotation image work file 108 as necessary. If the ink ejection amount in the first half of the page is large, the print data to which the printer command is added is transmitted to the printer 120 without rotating the drawing image.
[0021]
The inkjet printer 120 records an image by discharging ink onto a recording medium based on the print data.
[0022]
FIG. 2 shows an example of the drawing data of one page.
[0023]
Reference numeral 200 denotes an original image requested to be drawn by the application. Here, figures 202 and 203 and bitmap data 201 are drawn. In this example, no characters are drawn.
[0024]
The printer driver 101 draws characters, graphics (graphics), and images (bitmaps) requested by the application program on the memory of the computer 100 while using the functions of the graphics subsystem of the operating system. To bitmap data of Unless there is plenty of memory, the size of bitmap data for printing is usually enormous, and one page of data cannot fit in the memory of the computer 100 where the printer driver 101 can be used. For this reason, the graphics subsystem divides a drawing request for one page from the application program into strips of the same size called bands, which are passed to the printer driver 101. In this example, the band is divided into six bands, band 1 to band 6 (211 to 216). The printer driver 101 creates bitmap data for printing in band units and temporarily converts the bitmap data for printing into a drawing image work in order to output the page rotated 180 degrees as needed. It shall be stored in the file 107. Of course, if the host computer 100 has abundant memory and the bitmap data for printing for one page fits in the memory, there is no need to write it out to a file.
[0025]
To rotate the printing bitmap data of one page by 180 degrees, the upside down and left / right inversions may be performed continuously. Reference numeral 220 denotes an image obtained by inverting the original image 200 for one page, and reference numeral 230 denotes an image obtained by further inverting the image 220 obtained by inverting the image. From this, it can be seen that 230 is obtained by rotating 200 by 180 degrees.
[0026]
[Calculation method of ink ejection amount]
Next, a calculation method of the ink ejection amount performed by the ink ejection amount calculation unit 103 will be described.
[0027]
This is an example, and another method may be used.
[0028]
The method for calculating the ink ejection amount depends on the image format. Here, it is assumed that a printer that supports four ink colors of black (K), cyan (C), magenta (M), and yellow (Y) is used.
[0029]
The color designation of the print data is performed as follows.
[0030]
One bit of each data of KCMY corresponds to one pixel of the print output on the paper. That is, one pixel is composed of four bits of K 1 bit, C 1 bit, M 1 bit, and Y 1 bit. When the bit is 1, the corresponding ink is ejected on the paper. The print data is line-sequential data. That is, one line of print data output on paper is composed of four colors of KCMY, and each line of K, C, M, and Y data is sent to the printer 120 in this order for each line.
[0031]
FIG. 3 illustrates this. That is, one line of print data 300 is composed of one line of K data 301, one line of C data 302, one line of M data 303, and one line of Y data 304. The data of one pixel 310 is composed of four bits: one bit 311 of K, one bit 312 of C, one bit 313 of M, and one bit 314 of Y.
[0032]
The ink is ejected when one of the data bits K, C, M, and Y in the image data per pixel is 1, so the amount of ink ejected per pixel is equal to the number of bits per pixel. Is determined by counting the number of K, C, M, or Y in which the value of is 1.
[0033]
Ink ejection amount per pixel = (K) + (C) + (M) + (Y)
here,
(<Color>) represents the value of the color data <color> (one of K, C, M, and Y) in the print data of this pixel. That is,
(<Color>) = 0 When <bit> of <color> = 0 (<color>) = 1 When bit of <color> = 1 For example, if all bits of KCMY in a pixel having print data = 1,
(K) = (C) = (M) = (Y) = 1
Therefore, the ejection amount of ink in this pixel is 4.
[0034]
If a plurality of inks are ejected at the same position, it becomes more difficult to dry. Therefore, in the above calculation, weighting is performed according to the amount of the plurality of inks ejected to the same pixel.
[0035]
The ink ejection amount in a specific area of the paper is obtained as follows.
Ink ejection amount in specific area = sum of ink ejection amounts per pixel in all pixels in specific area
[Ink ejection amount determination method]
Next, a description will be given of a method of determining which of the first half and the second half of one page has the larger amount of ink to be applied, which is performed by the ink application amount determination unit 104. This is an example, and another method may be used.
[0037]
As described in the description of the ink ejection amount calculation method, drawing data is created in band units.
[0038]
When processing the band, the printer driver 101 calculates and stores the ink ejection amount in the band according to the above-described “ink ejection amount in a specific area” calculation method. After the processing for one page is completed, the ink application amounts of the bands belonging to the first half and the second half of the page are totaled.
[0039]
That is, assuming that one page is divided into 2N bands, the ink ejection amount in the band is represented by Bi (k) (k represents the k-th band).
Expressing it as

It becomes.
[0040]
When performing the band processing, the printer driver 101 stores Bi (k), and after completing the processing for one page, according to the above formula, the first half of the page and the second half of the page. Is calculated.
[0041]
Here, for simplicity, it is assumed that one page is divided into an even number of bands. However, if the page is divided into an odd number of bands, the first and second half of the band for the band extending in the middle of the page must have the amount of ink applied. It is to be added to the first and second half of the page.
[0042]
For this purpose, the amount of ink to be applied is managed in line units.
[0043]
That is, assuming that one band is composed of M lines, the ink ejection amount in one line is represented by Li (j) (j represents the j-th line).
Expressing it as

It becomes.
[0044]
The ink ejection amount in the first half of the band and the ink ejection amount in the second half of the band obtained by the above equation are used in calculating the ink ejection amount in the first half of the page and the ink ejection amount in the first half of the page.
[0045]
According to the above formula, the ink ejection amount in the first half of the page and the ink ejection amount in the second half of the page are obtained. It is determined that the larger the value is, the larger the ink ejection amount is.
[0046]
[180-degree rotation means for print data]
Next, a method of rotating the print data by 180 degrees will be described.
[0047]
To rotate the print data of one page by 180 degrees, the upside down and left and right inversions may be performed continuously.
[0048]
The upside down is performed using the line data position management table 400 shown in FIG.
[0049]
When writing drawing data to the drawing image work file 107, the position of each line on the file is recorded in the line data position management table 400 in the memory. In the structure of the line data position management table 400, the total number of lines is recorded at the beginning (401), and thereafter the position of each line is recorded (402 to 403).
[0050]
The line data may be read line by line from the last line to the first line one by one from the drawing image work file 107 in which the drawing image is recorded, and written to the rotation image work file 108 for upside down. This is possible by referring to the line data position management table 400.
[0051]
For horizontal reversal, horizontal reversal in units of bytes and bit inversion in each byte may be performed on one line of data. That is,
Assuming that Ld (k) is the k-th data in one line, replacement of Ld (k) and Ld (N−k) is repeated from k = 1 to k = N / 2 as follows.
Replacement of Ld (1) and Ld (N). Replacement of Ld (2) and Ld (N-1). . . . . . . . . . . .
Since Ld (N / 2) and Ld (N / 2 + 1) have been interchanged, left-right inversion in byte units has been completed, and bit-by-bit inversion of each byte is performed next. That is, the following operation is performed.
exchange of bit0 and bit7 exchange of bit1 and bit6 exchange of bit2 and bit5 exchange of bit3 and bit4
[Print processing]
FIG. 5 is a flowchart showing the flow of the printing process in the present invention.
[0053]
The printer driver 101 creates one page of print data in band units passed from the graphics subsystem of the operating system.
[0054]
If the processing for all the bands has not been completed (S510-No), the printer driver 101 creates drawing image data for one band by the drawing means 102 in the memory of the host computer 100 (S520), and sets the ink ejection amount. The calculation means 103 calculates and stores the ink ejection amount per band (S530). The created drawing image data is written into the drawing image work file 107 (S540). At this time, the position of the drawing image data of each line on the file is recorded in the line data position management table 400.
[0055]
When the processing for all bands is completed (S510-Yes), the printer driver 101 calculates the first half and second half of the page by the ink ejection amount determination unit from the ink ejection amount of each band stored in S530. (S550). It is determined which of the ink ejection amounts is large.
[0056]
If the ink ejection amount in the first half of the page is large (S560-Yes), the printer driver 101 reads out the drawing image data from the drawing image work file 107, and prints the printer image by the print data creating unit 106 without rotating the drawing image. The print data to which the command is added is created and transmitted to the inkjet printer 120.
[0057]
If the ink ejection amount in the second half of the page is large (S560-No), the drawing image is rotated by 180 degrees by the drawing image data rotating unit 105, and the print data creating unit 106 creates print data to which a printer command is added, and prints the image. Send it to printer 120.
[0058]
The ink jet printer 120 records an image by discharging ink onto a recording medium based on the print data (S595).
[0059]
[180 degree rotation processing of drawing data]
FIG. 6 is a flowchart showing the flow of the 180-degree rotation processing of the drawing data.
[0060]
The printer driver 101 acquires the position of the data of the last line of the drawing image data of one page in the drawing image work file from the line data position management table 400 (S610), and acquires the position of the one line from the drawing image work file. The data is read (S620), the left / right inversion of the data of one line is performed (S630), and the left / right inverted data of one line is written to the work file for the rotated image (S640).
[0061]
If the processing of the first line has not been completed yet (S650-No), the position in the drawing image work file of the data one line before is acquired from the line data position management table 400 (S660). The process moves to (S620).
[0062]
When the processing is completed up to the first line (S650-Yes), the processing is ended. Data obtained by rotating the drawing image data by 180 degrees is obtained in the work file for the rotation image.
[0063]
Embodiment 2
The ink ejection amount determination method according to the first embodiment is performed based on whether the band having the largest ink ejection amount is in the first half or the second half of the page.
[0064]
If the band with the largest amount of ink ejection is in the latter half of the page, the drawing image data is rotated by 180 degrees and transmitted to the printer.
[0065]
Embodiment 3
In the 180-degree rotation process of the drawing data in the first embodiment, after performing one line left / right inversion, a printer command is directly added and transmitted to the printer without writing to the work file for the rotation image.
[0066]
【The invention's effect】
According to the present invention, when printing on one page with an ink jet printer that records an image by discharging ink on a recording medium, the drying waiting time after completion of printing of one page is shortened until the page becomes usable. Time can be reduced.
[Brief description of the drawings]
FIG. 1 is a diagram showing a system configuration of the present invention; FIG. 2 is an example of a print page, and FIG. 3 shows an example of a print page, and FIG. 4 is a diagram showing a line data position management table. FIG. 5 is a flowchart showing a flow of a printing process. FIG. 6 is a flowchart showing a flow of a 180 ° rotation process of drawing data.
REFERENCE SIGNS LIST 100 Host computer 101 Printer driver 102 Drawing unit 103 Ink ejection amount calculation unit 104 Ink ejection amount determination unit 105 Drawing image data rotation unit 106 Print data creation unit 107 Work file for drawing image 108 Work file for rotation image 110 Communication unit 120 Inkjet printer 200 Example of drawing data on one page 201 Bit map data 202, 203 Graphic data 211 to 216 Band 220 200 vertically inverted 230 220 left and right inverted 300 1 line print data example 301 K 1 constituting 300 C1 line print data 303 300 forming line print data 302 300 M1 line print data 304 300 forming line 1 print data 304 300 Data 310 One-pixel print data example 311 One-pixel print data 313 constituting 310 one-pixel print data 312 310 One-pixel print data 313 constituting 310 pixel data 313 310 One-pixel print data 314 310 forming one pixel print data 314 310 Print data 400 The record entry 402 of the total number of lines in the line data position management table 401 400 The record entry 403 of the position of the first line in the record entry 403 The record entry of the position of the last line in the record entry 403 400

Claims (4)

A system that performs printing on an inkjet printer that records an image by discharging ink on a recording medium,
In the printer driver on the host computer,
Drawing means for drawing characters, graphics (graphics), and images (bitmaps) on a computer memory;
Means for calculating the amount of ink applied to a portion of the recording medium surface of one page;
Means for determining which of the first half and the second half of the page has the larger amount of ink ejection;
Means for rotating one page by 180 degrees to create print data;
A print data generating means for generating print data by adding a printer command to the drawing data is provided, and when the first half of the page has a larger ink ejection amount than the latter half, the page is rotated by 180 degrees to generate the print data. A printing wait time after printing of one page is completed. A printer driver in a host computer comprising the inkjet printer printing method according to claim 1. A host computer comprising the inkjet printer printing method according to claim 1. An inkjet printer printing system comprising the inkjet printer printing method according to claim 1.

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