JP3734006B2 - Print control method, print control apparatus, and medium on which print control program is recorded - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a print control method, a print control apparatus, and a medium on which a print control program is recorded, and more particularly, to a print control method, a print control apparatus, and a medium on which a print control program is recorded.
[0002]
[Prior art]
In a color printing apparatus such as an ink jet printer, a color image is formed with three color inks of cyan (C), magenta (M), and yellow (Y), or four color inks obtained by adding black (K) thereto. Print. The print heads that discharge these color inks can be integrated into one that discharges all the color inks. However, since the yield deteriorates, a plurality of print heads are often used separately for each color. . In the case of the integrated type, although there is an error of whether the discharge amount of the color ink is large or small as a whole, the balance among the color inks is maintained. However, when a plurality of print heads are used, the balance among the color inks is lost due to variations among the print heads.
For this reason, in the conventional color printing apparatus disclosed in Japanese Examined Patent Publication No. 6-79853, the drive signal can be adjusted for each drive circuit for driving the print head. The balance can be maintained.
However, depending on such a configuration, factory adjustment is required for each color printing apparatus, so that there is a problem that the manufacturing process increases and becomes complicated.
[0003]
In view of this problem, the applicant of the present application develops a configuration capable of eliminating the color balance deviation corresponding to the print head without depending on hardware, as shown in Japanese Patent Application No. 9-84230. It came to.
In the above publication, a calibration sheet of a first test pattern composed of a plurality of gray patches in which the RGB intensity balance is changed with reference to the gradation value “128” is printed, and the user is achromatic. Select a gray patch and let it enter the computer. Originally, if there is no deviation in color balance, a gray patch with RGB gradation values of “128” is selected. If the deviation is large, another gray patch is selected as an achromatic color. become. In other words, by causing the user to select an achromatic gray patch, the color balance shift will be revealed, and it would be good if correction is made during color conversion based on this.
[0004]
However, even if the color balance is corrected here, the color balance just happens to be in the vicinity of the RGB gradation value near “128”, and the color balance is not always maintained linearly over all gradations. . Therefore, 27 gray patches were prepared in which the gradation values of RGB were slightly changed in the selected gray patch, and the gradation values of RGB were changed substantially uniformly in each gray patch. A calibration sheet of a second test pattern made up of gray patches in a gradation style is printed, and the user selects gray patches that appear achromatic over all gradations. Then, a color balance shift is detected based on the gray patch selected here, and finally the color conversion table is corrected.
[0005]
[Problems to be solved by the invention]
The conventional techniques described above have the following problems.
In the printed calibration sheet, the user selects an achromatic gray patch and corrects the color conversion table based on the actually selected gray patch. Due to individual differences, gray patches that are objectively neutral are not always selected. If this is the case, the color conversion table was changed because the wrong gray patch was selected even though the color balance was not originally shifted, resulting in a shift in the color balance. It could have been.
[0006]
The present invention has been made in view of the above problems, and prints a plurality of patches having different concentrations of color inks as element colors and allows a user to select achromatic patches, thereby acquiring a color balance deviation. In this case, a printing control method, a printing control apparatus, and a printing control program that can reduce the possibility that a normal color balance state is lost due to the user selecting an incorrect patch are recorded. The purpose is to provide a medium.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, the invention according to claim 1 obtains a deviation from the reference value of the usage amount of each color ink for a printing apparatus having a plurality of independent print heads for each available color ink. A print control method for reproducing and printing an original image so as to eliminate the deviation, and a guide patch printing step for printing a guide patch for allowing a user to determine whether or not the deviation occurs. A deviation presence / absence determination step for determining whether or not the deviation has occurred based on the guide patch printed in the guide patch printing step, and a determination that the deviation has occurred in the deviation presence / absence determination step. A patch printing process for printing a plurality of patches in which the density of each color ink is gradually changed, and an achromatic color pattern selected from the plurality of patches printed in the patch printing process. It acquires the deviation based on the switch, and a color shift eliminating printing step of printing to reproduce the original image so as to eliminate the deviation The guide patch is reduced to a single sheet by reducing a plurality of patches for correcting the total luminance and a plurality of patches for selecting a gray patch close to an achromatic color included in the plurality of patches. In addition to the printed patches, the above-mentioned guide patch printing process prints reference patches with black ink on the background of these patches. As a configuration. In other words, when a plurality of patches with different color ink densities as the element colors are printed and the user selects an achromatic color patch to acquire and correct a color balance deviation, the patch that is erroneous by the user By selecting, it is possible to reduce the possibility that the normal color balance will be lost.
In order to achieve the above object, the invention according to claim 2 obtains a deviation from the reference value of the usage amount of each color ink for a printing apparatus having a plurality of independent print heads for each available color ink. A print control method for reproducing and printing an original image so as to eliminate the deviation, and a guide patch printing step for printing a guide patch for allowing a user to determine whether or not the deviation occurs. A deviation presence / absence determination step for determining whether or not the deviation has occurred based on the guide patch printed in the guide patch printing step, and a determination that the deviation has occurred in the deviation presence / absence determination step. A patch printing process for printing a plurality of patches in which the density of each color ink is gradually changed, and an achromatic color pattern selected from the plurality of patches printed in the patch printing process. It acquires the deviation based on the switch, and a color shift eliminating printing step of printing to reproduce the original image so as to eliminate the deviation In the guide patch printing process, a reference patch is printed with black ink on the background of the plurality of patches, and a line surrounding the patch for determining whether or not the hue with the reference patch is substantially matched is printed. As a configuration.
[0008]
Configured as above Claim 1 and In the invention according to claim 2, the printing apparatus includes a plurality of independent print heads for each of the available color inks, and the amount of color ink used in each print head may deviate from a reference value. It is determined whether or not this deviation has occurred, and the deviation is eliminated as necessary. In this case, since a predetermined guide patch is first printed in the guide patch printing process, the user determines whether or not the above-mentioned shift has occurred based on this guide patch, and the determination result is used as a shift presence / absence determination input process. Enter in. Here, when a judgment result indicating that the same misregistration has occurred is input, a plurality of patches with gradually different ink concentrations are printed in the patch printing process, and the user is not required in the misregistration elimination printing process. Select a colored patch. In this color misregistration elimination printing step, the misregistration is acquired based on the patch selected by the user, and the original image is reproduced and printed by the printing apparatus so as to eliminate the misregistration.
[0009]
In other words, in order to eliminate the deviation of the usage amount of each color ink from the reference value, a plurality of patches with gradually different concentrations of each color ink are printed, and the user is allowed to select an achromatic patch from the plurality of patches. It is an object of the present invention to eliminate the above-described deviation based on the selected patch. Here, the user has to select only one achromatic patch from a plurality of patches. However, since there are individual differences in the user's color sensation, an achromatic patch is always selected objectively. Is not limited. If this is the case, it is possible to assume that the original image is changed and the color balance is lost as a result of the occurrence of the deviation although the above-mentioned deviation has not occurred. For this reason, before printing the plurality of patches, a guide patch is always printed to allow the user to determine whether or not the deviation has occurred. If it is determined that the same deviation has not occurred and a message to that effect is input, the plurality of patches are not printed, and the original image is not changed. Therefore, the color balance is maintained as normal.
[0010]
In this case, as a printing mechanism provided in the printing apparatus, for example, an ink jet method in which a minute amount of color ink is ejected by a piezo element or a bubble can be adopted. In this case, assembly is performed separately for each color ink or the like. It can be said that there is a deviation in the discharge amount of the recording material by using the printed head. Also, a difference in mechanical energy given by individual differences in the drive circuit can occur.
Furthermore, as another example, an electrophotographic system in which toner is attached by static electricity may be adopted. In this case, the difference in individual drums, the difference in the mechanical arrangement of drive circuits or discharge wires, etc. Differences in the amount of color ink used can occur.
[0011]
The guide patch allows the user to determine whether or not the above deviation has occurred, but its original purpose is to absorb the difference in the determination result due to the difference in the color sensation of each user. Various configurations can be applied as long as they are intended. As an example thereof, the invention according to claim 3 is the printing control method according to claim 1 or 2, wherein the guide patch printing step prints an achromatic guide patch, and the guide patch is achromatic. It is configured to determine whether or not the above-described deviation occurs depending on whether or not it is visible.
In the invention according to claim 3 configured as described above, an achromatic guide patch in which each color ink is mixed at a predetermined density is printed in the guide patch printing step. If the color appears to be chromatic, it is determined that the above-described deviation has not occurred, and if it does not appear to be an achromatic color, it is determined that the above-described deviation has occurred. Of course, such a guide patch may be any one that is determined to be an achromatic color on the print data although there may be a deviation in the reference amount of each color ink.
[0012]
In other words, rather than selecting the patch that looks the most achromatic from a plurality of patches that have different ink densities for each color, it is better to ask each user whether or not they appear achromatic by printing the achromatic patch. It can be said that the difference is difficult to appear. In addition, another patch with a slightly different color ink density balance is printed around the guide patch, and the guide patch is compared with the guide patch to determine whether the guide patch looks achromatic. A configuration may be used, and in such a configuration, a guideline for determining whether or not an achromatic color can be seen can be shown. As an example, a patch that is originally achromatic may be marked with a plurality of patches printed in the patch printing process, and it may be determined whether or not the marked patch looks achromatic.
[0013]
As described above, when an achromatic guide patch is printed and it is determined whether or not it looks like an achromatic color, it can be easily determined by printing a reference achromatic color patch and comparing it. For this reason ,Up When the printing apparatus is capable of printing using black ink, the guide patch printing step is configured to print a horizontal stripe pattern reference patch on the background of the guide patch.
As above Configuration In the guide patch printing process, since the reference patch of the horizontal stripe pattern is printed with black ink on the background of the guide patch, the user is achromatic depending on whether or not the color of the guide patch matches the reference patch Determine whether or not.
That is, the horizontal stripe pattern made of black ink is suitable as such a reference patch because a difference in luminance hardly occurs between printing apparatuses.
[0014]
As described above, when the user visually recognizes the guide patch and determines that the above-described deviation has occurred, and inputs the determination result, a plurality of patches in which the density of each color ink gradually differs is printed in the patch printing process. . A patch that appears achromatic is selected from the plurality of patches, and it is preferable if the patch arrangement is such that an achromatic patch can be easily selected at this time. As an example, Claim 4 The invention according to claims 1 to Claim 3 In the printing control method according to any one of the above, the patch printing step arranges the patch of a predetermined density in the center, and adjusts the density of each color ink toward the outside while corresponding each color ink from the patch in a predetermined angle direction. A plurality of combinations of patches that are gradually changed are arranged and printed.
[0015]
Configured as above Claim 4 In the invention, a patch in which the density of each color ink is expressed by a predetermined density is arranged at the center, an axis is taken from the center in a predetermined angle direction, and each color ink is made to correspond to this axis. Then, the color ink corresponding to the axis is regularly arranged with patches changed so as to gradually increase the density from the center toward one side of the axis, and the density is adjusted toward the other side. Regularly arrange patches that have been changed so that they gradually decrease.
[0016]
That is, since a plurality of patches are regularly arranged and printed in response to changes in the component data, it is possible to easily understand the comparison work sensuously from the nature of human vision. In addition, the color balance may change slightly, and it may be difficult to identify an achromatic patch. The color balance can be compared, and it becomes easy to select achromatic patches. Here, the arrangement of the patch can grasp the change in each element color integrally, and adopts the above-mentioned form from the viewpoint of facilitating comparison, but of course, it is not limited to such form. Alternatively, patches whose density is gradually changed for each color ink may be arranged in a row, and can be changed as appropriate. Since an achromatic color patch is selected from the plurality of patches, it is preferable to arrange the reference patch as described above in the background.
[0017]
As described above, a plurality of independent print heads are provided for each of the available color inks, and a guide is provided to determine whether or not the same deviation has occurred in eliminating the deviation from the reference value of the color ink usage amount in each print head. It can be easily understood that the method of making a determination based on the patch is realized in a substantial apparatus, and also functions as an apparatus incorporating this technique. For this reason, Claim 5 The invention according to the present invention is directed to a printing apparatus having a plurality of independent print heads for each available color ink so as to eliminate the deviation by acquiring a deviation from the reference value of the usage amount of each color ink. A printing control apparatus that reproduces and prints an image, and prints a guide patch printing unit that prints a guide patch for allowing a user to determine whether or not the above-described deviation occurs, and the guide patch printing unit The presence / absence judging means for judging whether or not the above-described deviation has occurred based on the guide patch, and the density of each color ink is gradually increased when the judgment that the deviation has occurred is made by this deviation presence / absence judging means. Based on a patch printing unit that prints a plurality of changed patches and an achromatic patch selected from the plurality of patches printed by the patch printing unit, the deviation is acquired, And a color shift eliminating printing means for printing to reproduce the original image so as to eliminate the Le The guide patch is reduced to a single sheet by reducing a plurality of patches for correcting the total luminance and a plurality of patches for selecting a gray patch close to an achromatic color included in the plurality of patches. In addition to the printed patches, the guide patch printing unit is configured to print the reference patches with black ink on the background of these patches. In the invention according to claim 6, the guide patch printing unit includes the plurality of patches. A reference patch is printed with black ink on the background, and a line surrounding the patch is printed to determine whether the color of the reference patch is almost the same. As a configuration.
That is, the present invention is not necessarily limited to a method, and there is no difference in that it is effective even in a substantial apparatus that incorporates the method.
[0018]
By the way, in order to eliminate the deviation from the reference value of the usage amount of the color ink in each print head and to provide a plurality of independent print heads for each of the available color inks, it is determined whether or not the same deviation has occurred. The method of making a determination based on the guide patch may exist alone or may be used in a state incorporated in the apparatus. Including embodiments. Therefore, it can be changed as appropriate, such as software or hardware.
[0019]
In the case of software as an embodiment of the idea of the invention, the above method naturally exists on a recording medium on which such software is recorded, and it must be used.
As an example, the invention according to claim 7 obtains a deviation from the reference value of the usage amount of each color ink for a printing apparatus having a plurality of independent print heads for each available color ink. A guide patch printing function for printing a guide patch for recording a print control program for reproducing and printing an original image so as to eliminate the deviation, and for allowing the user to determine whether or not the deviation occurs. And a shift presence / absence determination input function that allows the user to input a determination result of whether or not the shift has occurred based on the guide patch printed by the guide patch printing function, and the shift presence / absence determination input function A patch printing function that prints multiple patches with gradually changing the density of each color ink when a judgment result indicating that a deviation has occurred is input, and this patch printing function Color misregistration that allows the user to select an achromatic color patch from a plurality of printed patches, obtains the misregistration based on the selected patch, and reproduces and prints the original image to eliminate the misregistration Realize printing function on computer The guide patch includes a plurality of patches for correcting the total luminance included in the plurality of patches and a plurality of patches for selecting a gray patch close to an achromatic color, and is printed on a single sheet. In the guide patch printing function, the reference patch is printed with black ink on the background of these patches. In the invention according to claim 8, the guide patch printing function uses the background of the plurality of patches as a background. A reference patch is printed with black ink, and a line surrounding the patch for determining whether or not the color of the reference patch is almost the same is printed. As a configuration.
[0020]
Of course, the recording medium may be a magnetic recording medium, a magneto-optical recording medium, or any recording medium that will be developed in the future. In addition, the duplication stages such as the primary duplication product and the secondary duplication product are equivalent without any question. In addition, even when the communication method is used as a supply method, the present invention is not changed.
Further, even when a part is software and a part is realized by hardware, the idea of the invention is not completely different, and a part is stored on a recording medium and is appropriately changed as necessary. It may be in the form of being read.
[0021]
【The invention's effect】
As described above, according to the first aspect of the present invention, it is possible to reduce the possibility that the normal color balance state is lost due to the user selecting an incorrect patch.
According to the second aspect of the present invention, a plurality of patches having gradually different densities of the respective color inks are printed to allow the user to select an achromatic color patch, and the color balance is adjusted based on the actually selected patch. In order to eliminate the deviation, a predetermined guide patch is printed to determine whether or not a color balance deviation has occurred, and when it is determined that the same deviation has not occurred, the color balance is not changed. It is possible to provide a print control method capable of reducing the possibility that the normal color balance state will be lost due to the user selecting an incorrect patch.
Further, according to the invention of claim 3, since the achromatic color guide patch is printed, and it is determined whether or not the deviation is caused by whether or not the guide patch looks achromatic, the determination result In addition, the influence of the difference in color sensation among each user is difficult to appear.
[0022]
further , Since the reference patch of horizontal stripe pattern with black ink is printed on the background of the guide patch, it is easy to judge whether the guide patch is achromatic, and the reference patch has a difference in brightness between printing devices. Since it is difficult, it is suitable as a reference patch.
further, Claim 4 According to the invention, since the plurality of patches in which the density of each color ink is gradually changed are regularly arranged corresponding to the change, it is possible to select a more accurate achromatic patch.
further, Claims 5 and 6 According to the invention, it is possible to provide a print control apparatus that can reduce the possibility that the normal color balance will be lost due to the user selecting an incorrect patch in the same manner. Claim 7 And claim 8 According to the invention, a medium on which a print control program is recorded can be provided.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram illustrating a printing system to which a printing control method according to an embodiment of the present invention is applied. FIG. 2 is a block diagram illustrating a specific hardware configuration example.
In the figure, an image input device 10 inputs color image data of a color image to the print control device 20, and the print control device 20 performs predetermined image processing on the same color image data, generates print data, and sends it to the printing device 30. Output. Here, the color image data represents the strength of each element color while color-separating the color image for each predetermined element color, and is represented by gray when it is a chromatic color and mixed at a predetermined ratio. Consists of achromatic and black.
[0024]
Here, a specific example of the image input device 10 corresponds to the scanner 11, the digital still camera 12, or the video camera 13, and a specific example of the print control device 20 includes a computer 21, a hard disk 22, a keyboard 23, and a CD-ROM drive 24. A computer system including a floppy disk drive 25 and a modem 26 is applicable, and a specific example of the printing apparatus 30 is a printer 31 or the like. The modem 26 is connected to a public communication line, connected to an external network via the public communication line, and can be installed by downloading software and data.
[0025]
The computer 21 includes an electronic device such as a CPU 21a that is the center of arithmetic processing, a ROM 21b that records a non-rewritable program, a RAM 21c that secures a work area, and a predetermined I / O 21d. It can be used to access external devices and execute programs. Of these programs, an operating system (OS) 21e is operating as a basic program, and the operating system 21e displays on the printer 32 (PRT DRV) 21f that causes the printer 31 to print out and on the display 32. A display driver (DSP DRV) 21g is installed. These types of drivers 21f and 21g depend on the models of the printer 31 and the display 32, and can be additionally changed to the operating system 21e according to the respective models. In addition, depending on the model, additional functions beyond standard processing can be realized. That is, various additional processes within an allowable range can be realized while maintaining a common processing system on the standard system called the operating system 21e. Further, an application (APL) 21h or the like is executed on the operating system 21e as a basic program, and the processing result or the like is output from the printer 31 or the display 32 as described above.
[0026]
On the other hand, FIG. 3 shows a schematic configuration of a color ink jet printer 31. As printing ink, cyan (C), light cyan (c), magenta (M), light magenta (m), yellow (Y), black ( K) six color inks are used, and it is composed of six print head units 31a1 having one row of print nozzles. As described above, since the print head unit 31a1 is independent for each color, the output characteristics vary due to the machine difference of each print head unit 31a1, and the color balance is lost. In addition to the print head 31a including the six print head units 31a1, the print head controller 31b for controlling the print head 31a, the print head digit moving motor 31c for moving the print head 31a in the digit direction, and the printing paper A paper feed motor 31d for feeding the image in the row direction, a print controller 31b, a print head digit moving motor 31c, and a printer controller 31e corresponding to an interface with an external device in the paper feed motor 31d.
[0027]
Here, FIG. 4 shows a correspondence table of the ink weight of the color ink used in one shot in each print head unit 31a1 and the classification by the ID. Hereinafter, when simply referred to as ID, it indicates the ink weight of the ID corresponding to each CcMmY. As shown in the figure, the ID range is “1” to “21”, and the middle “11” is the reference value. In such a case, it is desirable that the reference amount of the ink weight used in one shot is in the range of 20.0 to 20.5 nanogram (ng). This is because, in the case of the printer 31, printing is performed on the RGB data used inside the computer 21 by using the above-described CcMmY color ink, but color conversion is executed because the color space is different at that time. is doing. Therefore, in order to perform conversion while maintaining the same color, it is assumed that the weight of ink used for one shot in the print head unit 31a1 of CcMmY is a constant predetermined amount. As a result, the output characteristics vary and the color balance is lost. In the case of expressing gray, K component data may be mixed by color conversion. Therefore, if there is a variation in the output characteristics of the K print head unit 31a1 between the airframes, the color balance for the same reason. Will collapse. For this reason, although not shown, it is assumed that the ink weight of K is also classified by ID.
[0028]
Although it is possible to reduce the difference in the use amount of the ink weight, the manufacturing yield of the print head unit 31a1 is deteriorated. Therefore, by correcting the deviation between the reference amount and the ink weight in the actually specified ID in the data state in the print control device 20, it is possible to eliminate the color balance deviation. As is apparent from the figure, the smaller the ID, the heavier the ink weight, the greater the amount of color ink used. Conversely, the larger the ID, the smaller the color ink used. Therefore, when the ID is large, the color balance shift can be corrected by increasing the density represented by the data. Conversely, when the ID is small, the color balance can be corrected by decreasing the density. It becomes like this. Therefore, a function for converting between input data and output data corresponding to the ID as shown in FIG. 5 is prepared in advance, and color conversion can be achieved by performing data conversion according to this function. .
[0029]
The function shown in FIG. 5 is a well-known tone curve for γ correction. Assuming 256-gradation RGB data, the γ curve is Y = 255 × (X / 255) ** γ (“ ** "indicates a power)), and no correction is made between the input and output when γ = 1, the output is weaker than the input when γ> 1, and the input is input when γ <1. The output becomes stronger.
In this embodiment, the γ value of the tone curve where the printing result is the most linear corresponding to the ID is obtained in advance by experiment, and lookup tables LUT1 to LUT21 corresponding to each ID are generated. Of course, the tone curve to be corrected according to a predetermined tendency while changing the degree of correction is not limited to γ correction, and may be another method such as a spline curve.
[0030]
In the present embodiment, the print head unit 31a1 is assigned to each of the six color inks. However, the six color inks are used by using the same print head unit 31a2 as shown in FIG. It is also good. In addition, the ink-jet color printer 31 has been described. However, a micro-pump mechanism using a piezo element may be employed to discharge color ink, and bubbles are generated by a heater provided on the inner wall surface of the ink discharge hole. The ink may be ejected with the expansion pressure. Of course, it is also possible to eject color ink by a method other than these, or thermal transfer type printing in which the color ink attached to the ink ribbon is melted and transferred by a heater instead of ejecting the color ink. It can also be applied to a head or the like. However, in this case, the print head is different for each ink ribbon, and the present invention is applied to a case in which there is a machine difference for each print head.
[0031]
In this embodiment, a printer 31 capable of color printing is used as the printing apparatus 30. However, the present invention is applicable to the color facsimile machine 33 shown in FIG. 7, the color copier 34 shown in FIG. That is, in the color facsimile machine 33, the color copier 34, and the like, as in the printer 31, deviations may occur in the amount of color ink and toner used. Furthermore, in the present embodiment, a computer system for correcting color image data is used for the printer 31. However, as shown in FIG. A configuration in which the supplied color image data is directly input and printed is also possible.
[0032]
On the other hand, the computer 21 constituting the print control apparatus 20 includes the color balance adjustment program shown in the flowchart of FIG. 10 in the hard disk 22 and can be executed when necessary. In the figure, a predetermined guide pattern is printed in step S105. This guide pattern will be described in detail later for the sake of convenience of explanation, but is for confirming whether or not there is a deviation in color balance by visual observation. The user visually recognizes this guide pattern to determine whether or not a color balance shift has occurred, and inputs the determination result from the keyboard 23 to the computer 21 in the next step S110. Of course, in this embodiment, a guide patch printing unit is configured by software and a hardware configuration for executing step S105, and a deviation presence / absence determination input unit is configured by a software configuration and a hardware configuration for executing step S110.
[0033]
In the next step S115, the process branches according to the input determination result, and if it is determined that there is no deviation in color balance, the process ends without executing subsequent processing. On the other hand, if it is determined that there is a deviation in the color balance, the custom A pattern, which is the first-stage test pattern, is printed in the next step S120. As shown in FIG. 11, the custom A pattern includes a custom A1 pattern and a custom A2 pattern that are printed in parallel with each other. The custom A1 pattern further includes cmY component data as shown in FIG. Are provided with circular gray patches “A1” to “D18” which are slightly different from each other, and the circular gray patches “A1 ′” to “D18 ′” whose CMY component data are slightly different as shown in FIG. 13 are included in the custom A2 pattern. Is provided. In FIGS. 12 and 13, the component data of cmY and CMY are shown in%, respectively, and FIGS. 14 and 15 show them in a table format.
[0034]
Referring to FIG. 12, the cmY component data of each gray patch is changed little by little according to a predetermined regularity, and the gray patch “A1” in the center is essentially achromatic. The red (R) component increases as it goes upward on the page, and the red component decreases as it goes downward. In addition, the green (G) component increases as it goes to the lower left direction on the page, and the green component decreases as it goes to the upper right direction. Further, the blue (B) component increases and goes to the upper left direction as it goes to the lower right side of the page. The blue component becomes smaller as it goes.
[0035]
That is, the coordinate axis of the red component that is the element color is set in the direction from the upper side to the lower side, the coordinate axis of the green component that is the element color is set in the direction from the lower left side to the upper right side, and The coordinate axis of the blue component, which is the element color, is set in the direction toward, and each component data is increased or decreased in proportion to the coordinates determined by these coordinate axes. Accordingly, all sets in which the color balance of all the element colors is changed within a certain range in the custom A1 pattern are displayed. In the custom A2 pattern, the component data is CMY, but shows the same tendency as the custom A1 pattern.
[0036]
For the custom A1 pattern shown in FIG. 12, the gray patch is centered “A1”, “B1” to “B6” outside the circle, and “C1” to “C12” outside the circle. Although it is composed of “D1” to “D16” on the outer periphery, the hardware check always prevents it from deviating outward from “C1” to “C12”. Nevertheless, printing of “D1” to “D16” can be accurately determined by comparing with gray patches on both sides in a plurality of gray patches in which component data deviates with a certain tendency when selecting an achromatic color. In view of the facts, there is always a gray patch on both sides. Needless to say, the same applies to the custom A2 pattern of FIG.
[0037]
When there is a bias in the amount of ink used in the print head unit 31a1, the color ink is not ejected as planned, so that the color balance is not normal in the other gray patches instead of the gray patches “A1” or “A1 ′”. That is, an achromatic patch. FIG. 16 shows an example of a correspondence relationship obtained by calculating back the relationship. For example, if the gray patch “A1 ′” looks achromatic in the custom A2 pattern, the usage amount ID of cyan color ink is “11”, and the usage amount ID of magenta color ink is “11”. Thus, the usage amount ID of yellow color ink is “11”, which means that the usage amount of each element color is exactly balanced. However, if the gray patch “C4 ′” looks achromatic, the usage amount ID for cyan color ink is “11”, the usage amount ID for magenta color ink is “15”, and the yellow color It can be seen that the usage amount ID for ink is “7”. That is, the weight of ink ejected in the order of yellow, cyan, and magenta is gradually reduced, and the strength of the actual ejection amount between each element color can be seen.
[0038]
By the way, if many gray patches are arranged in the custom A pattern, it may be difficult to determine whether or not the color is achromatic. For this reason, as shown in FIGS. 12 and 13, a reference patch having a horizontal stripe pattern is printed on the background of the gray patch, which has a predetermined brightness with black ink and is unlikely to cause a difference in brightness between the airframes. By contrasting, the achromatic color is selected while being confirmed. In such a case, it is possible to improve accuracy when selecting an achromatic patch from gray patches. The reference patch “REF1” of the custom A1 pattern is a gray patch printed with a light element color as a whole, with the line width of the black line in the horizontal stripe pattern narrower than the reference patch “REF2” of the custom A2 pattern. The brightness is adapted.
[0039]
When the custom A pattern is printed, the user selects a gray patch symbol that appears achromatic for each of the custom A1 pattern and the custom A2 pattern, and inputs the symbol to the computer 21 from the keyboard 23 in step S125.
In the next step S130, the custom B and C patterns, which are the second-stage test patterns, are printed using the symbols of the two gray patches input in step S125. As shown in FIG. 17, the custom B and C patterns are composed of a custom B pattern and a custom C pattern that are printed in parallel with each other. Further, the custom C pattern includes a custom C1 pattern and a custom C2 pattern. It is composed of
[0040]
Here, as shown in FIG. 18, the custom B pattern includes a plurality of black patches “1” to “11” printed in a strip shape with monotone patterns having slightly different densities with respect to the black ink component data, and its background. And a reference patch “REF1” having a horizontal stripe pattern printed with black ink. The numbers written in the black patches “1” to “11” represent the component data of the K ink, and the density becomes lighter toward the upper side of the paper with the central black patch “6” as a reference. The same concentration increases toward the bottom. On the other hand, the custom C1 pattern and the custom C2 pattern are configured as shown in FIG. Referring to the figure, it can be seen that a plurality of strip-shaped patches are printed in this case as well, and in this sense, there is no difference from the custom B pattern described above. However, in the custom C1 pattern and the custom C2 pattern, Are different in that they are composed of gray patches “1” to “11”.
[0041]
That is, in the custom C1 pattern, a gray patch “6” having a luminance equivalent to that of the gray patch is arranged based on the symbol of the gray patch selected by the user in the custom A1 pattern, and the density increases toward the top of the page. Each of the cmY component data is printed in a substantially uniform manner so that the same density becomes darker as it becomes thinner, and a reference patch “REF1” of a horizontal stripe pattern is printed on the background with black ink. It is printed. On the other hand, in the custom C2 pattern, a gray patch “6” having a luminance equivalent to that of the gray patch is arranged based on the symbol of the gray patch selected by the user in the custom A2 pattern. Is printed with the CMY component data changed substantially uniformly so that the same density increases toward the lower side, and further, a reference patch “REF2” of a horizontal stripe pattern is printed with black ink on the background. It is printed. 20 and 21 show the component data of each gray patch of the custom C1 pattern and the custom C2 pattern when the gray patches “B4” and “A1 ′” are selected in the custom A1 pattern and the custom A2 pattern, respectively. Each is shown in tabular form. Referring to these drawings, it can be seen that each component data of cmY or CMY increases or decreases substantially evenly in a range of about ± 20% with respect to the gray patch “6”.
[0042]
When such custom B and C patterns are printed, a black patch symbol whose luminance matches the background for the custom B pattern, and a gray patch symbol whose luminance matches the background for the custom C1 pattern and custom C2 pattern. Each of them is selected by the user, and is input to the computer 21 from the keyboard 23 in step S135.
In the next step S140, a custom D pattern, which is a third-stage test pattern, is printed using the gray patch symbol input in step S135. As shown in FIG. 11, the custom D pattern is composed of a custom D1 pattern and a custom D2 pattern that are printed in parallel with each other. The custom D1 pattern and the custom D2 pattern are the same as the custom A1 pattern and the custom A2 pattern described above in that a plurality of gray patches “A1” to “D18” and “A1 ′” to “D18 ′” are printed, respectively. It is. However, the component data of cmY or CMY in each gray patch is different.
[0043]
That is, in the custom D1 pattern and the custom D2 pattern, the gray patches having the same component data as the gray patch selected by the user in the custom C1 pattern and the custom C2 pattern are arranged in “A1” and “A1 ′”, respectively. To do. The component data is changed according to the same regularity as the custom A1 pattern and the custom A2 pattern, but the degree of change at this time is made smaller. For example, FIG. 22 and FIG. 23 show the component data of the custom D1 pattern and the custom D2 pattern in a tabular format when “6” and “3” gray patches are selected in the custom C1 pattern and the custom C2 pattern, respectively. Yes. Here, comparing FIG. 14 and FIG. 22, or FIG. 15 and FIG. 23, it can be seen that the degree of change in the component data between the gray patches is smaller in the cases shown in FIG. 22 and FIG.
[0044]
When the custom D pattern is printed, the user selects a gray patch symbol that looks achromatic for each of the custom D1 pattern and the custom D2 pattern, and inputs the symbol to the computer 21 from the keyboard 23 in step S145.
In the next step S150, a correction lookup table is determined in accordance with the K ID corresponding to the black patch symbol input in step S135, and is incorporated into the color conversion lookup table used by the printer driver 21f for color conversion. Set. At the same time, a lookup table for correction is determined in accordance with the IDs of the CcMmY colors corresponding to the two gray patch symbols input in step S145, and similarly set in the printer driver 21f.
[0045]
FIG. 24 is a schematic flowchart showing the processing procedure of the printer driver 21f. In the figure, in step S210, rasterized print data is input, and color conversion is performed from RGB gradation data to CcMmYK gradation data. At this time, after referring to the color conversion lookup table, the data may be corrected by referring to the correction lookup table for each component. However, the contents of the color conversion lookup table are corrected in advance. If the contents of the uptable are rewritten, the correction and the color conversion are executed only by referring to the color conversion lookup table.
That is, even when referring to the color conversion lookup table after referring to the color conversion lookup table, or when referring to the rewritten color conversion lookup table, the color of step S210 is displayed. By performing the conversion, the color image data loses the color identity and is converted. However, in spite of losing the color identity in this way, when the color ink is ejected by the print head according to the data, the original color can be reproduced by the deviation of the ink usage amount. become. When color conversion is performed, binarization from 256 gradations to two gradations is performed in step S220, a predetermined control code is added in step S230, a spool file is generated, and transferred to the printer 31 for printing. Let
[0046]
As described above, in this embodiment, when there is a deviation in the color balance, the first to third test patterns are printed in steps S120 to S140, and the software configuration and hardware for executing such processing A patch printing unit is configured by the hardware configuration. Further, by causing the user to select a patch in steps S145 and S150, a variation in the ink discharge amount is detected for each print head unit 31a1, and a correction lookup table is determined, and this processing is executed. The color misregistration elimination printing unit is configured by the software configuration and the hardware configuration.
[0047]
By the way, in this embodiment, the first to third test patterns are printed and the user is allowed to select a patch. The meaning of each test pattern is as follows.
First, the variation of the ink discharge amount of each color of CcMmY is roughly detected by selecting an achromatic gray patch in the custom A pattern as the first test pattern. Then, it seems that the degree of variation is known, but the brightness of the gray patch is not always optimal. Therefore, the custom B and C patterns, which are the second test patterns in which the luminance is changed by changing the component data of each color substantially uniformly, are printed.
[0048]
In the custom B pattern, a black patch having the same luminance as the background reference patch is selected, and the deviation of the ink discharge amount from the reference amount is acquired for K ink. In addition, in the custom C pattern, the gray level matching the luminance with the reference patch of the background is selected to perform the luminance matching. Then, a gray patch in which each component data is slightly changed based on the CcMmY component data after brightness adjustment in the third test pattern is printed, and the user selects the achromatic gray patch again. In addition, a deviation from the reference amount of the ink discharge amount is obtained for each color ink of CcMmY. Then, the color conversion process of the printer driver 21f is corrected based on the obtained deviation of each color of CcMmYK.
[0049]
Here, the guide pattern printed in step S105 described above will be described in detail.
FIG. 25 shows a guide pattern according to the present embodiment. In the figure, the upper part from the middle of the drawing is the same as the custom B and C patterns when the center gray patches “A1” and “A1 ′” are selected in the custom A pattern. On the other hand, from the middle to the lower side of the sheet, the custom B pattern is substantially the same as the custom D pattern when the center gray patch “6” is selected in the custom B and C patterns. Although not shown, it is assumed that a predetermined reference patch is printed on the background of each patch in the guide pattern. Hereinafter, for convenience of explanation, the test pattern in the guide pattern is referred to as a guide test pattern, and is distinguished from the original test pattern.
[0050]
That is, in this guide pattern, the custom B, C pattern and custom D pattern are each reduced and printed on one sheet. In this sense, there is a difference between each test pattern and the guide test pattern. There is no difference in the following points.
First, in the original custom B, C pattern and custom D pattern, the component data of each gray patch varies depending on the gray patch selected in the custom A pattern and custom B, C pattern, respectively. The component data of the gray patch at the center of the B and C patterns and the gray patch at the center of the custom D pattern for guide are fixed values based on the gray patches “A1” and “A1 ′” of the custom A pattern. Further, the black patches “5” to “7” of the custom B pattern for guide, the gray patches “5” to “7” of the custom C1 pattern for guide, and the gray patches “5” to “7” of the custom C2 pattern for guide A rectangular red line is printed around each. Further, a circular red line is printed in the same manner so as to surround each of the center gray patch “A1” of the guide custom D1 pattern and the center gray patch “A1 ′” of the guide custom D2 pattern.
[0051]
In order to determine whether or not there is a deviation in color balance using such a guide pattern, whether or not the color of each patch surrounded by the red line and the reference patch of the background are generally matched is determined. to decide. Here, if all the patches surrounded by the red line and the background reference patch have almost the same hue, it is determined that there is no deviation in the color balance, but there is a patch with a hue deviation. In this case, it is determined that there is a deviation in color balance. Then, the determination result is input to the computer 21 in step S110 described above. Therefore, if it is determined that there is no deviation in color balance, the custom A pattern, custom B, C pattern, and custom D pattern are not printed, and the lookup table is not corrected. Referring to FIG. 25, patches “5” to “7” are surrounded by a red line for the custom B and C patterns for guides, whereas only the central patch for the custom D pattern for guides. You can see that it is surrounded by a red line. Since the luminance is visually insensitive than the color, the guide custom B and C patterns are expanded in range.
[0052]
Of course, even if the user does not use such a guide pattern and prints the custom A pattern, custom B, C pattern, and custom D pattern in order and allows the user to select a patch, there is no deviation in color balance. In essence, the lookup table should not be modified. However, it is necessary for the user to select the correct patch objectively, but because there are individual differences in color sensation for each user, the correct patch is not necessarily selected for all users. Absent. Since there is a possibility that the correct patch may not be selected in this manner, the color balance may be shifted due to the correction of the look-up table even though the color balance is not shifted.
Therefore, it is determined by visually recognizing the guide pattern whether a color balance shift has occurred. As described above, in the custom A pattern, custom B, C pattern, and custom D pattern, only one patch that matches the background reference patch is selected. On the other hand, in the guide pattern, it is only necessary to determine whether or not each patch surrounded by the red line matches the color of the reference patch of the background. It can be said that individual differences in the color sensation of each user are unlikely to appear.
[0053]
By the way, when printing such a guide pattern or the above-described custom A pattern, custom B, C pattern, and custom D pattern, a printing method using a printer driver with color conversion processing cannot be employed. That is, the meaning of printing such a pattern is to acquire the variation in the ink discharge amount of each print head unit 31a1. Therefore, each patch has to be printed by expressing it with the component data of the required color ink, but such a printing mode cannot be achieved in a printing method involving color conversion processing. For example, when a certain RGB gradation data is input, it is not always converted into cmY or CMY component data.
Therefore, when printing the above pattern, the color balance adjustment program is composed of dot matrix pixels and an image in which required cmY, CMY, or K component data is arranged for the pixels corresponding to each patch. Data is generated and the image data is binarized from 256 tones, and then a predetermined control code is added to generate a spool file. The spool file is transferred to the printer 31. Then, since the printer 31 independently drives each print head unit 31a1 in accordance with the component data in each pixel of the image data, the above pattern is printed.
[0054]
The above-described color balance adjustment program, printer driver 21f, and the like are recorded on a program recording medium such as a floppy disk and a CD-ROM together with the installation program and distributed. After the printer 31 is connected to the computer 21, the floppy disk is inserted into the floppy disk. It is set in the disk drive 25 or a CD-ROM is set in the CD-ROM drive 24 and installed. That is, after the setup, the installation program is executed as an application, and the printer driver 21f, the color conversion lookup table, and the like are expanded on the hard disk 22. Of course, the installation is not limited to such a specific medium such as a floppy disk or a CD-ROM, but can also be installed via a public communication line via the modem 26.
[0055]
Next, the operation of the present embodiment configured as described above will be described.
Each time a predetermined period elapses after the printer 31 is introduced, a color balance adjustment program for eliminating the color balance deviation is executed. When this color balance adjustment program is activated, the computer 21 causes the printer 31 to print the guide pattern shown in FIG. 25 in step S105. The user visually recognizes this guide pattern, and determines whether or not the color of each patch surrounded by the red line and the reference patch of the background match each other. Here, it is determined that there is no deviation in color balance when the colors of all patches are substantially matched, but there is a deviation in color balance when there is a patch with a large deviation in hue. Judge that. Then, the determination result is input to the computer 21 in step S110.
[0056]
Here, if it is input that there is no deviation in color balance, the computer 21 ends the color balance adjustment program through step S115. That is, since no color balance deviation has occurred, the process ends without any correction. On the other hand, when it is input that there is a deviation in color balance, the custom A pattern shown in FIGS. 11 to 13 is printed on the printer 31 in step S120 through step S115. In this custom A pattern, the user selects each gray patch that has no influence of the element color, that is, a gray patch that looks achromatic, and inputs the symbol of the gray patch to the computer 21 in step S125. . At this time, in the custom A pattern, since the arrangement of gray patches and the degree of change in the component data are regular, if any of the two arranged is close to achromatic or difficult to understand, it will be on the straight line in the arrangement direction. It is also possible to compare two distant gray patches and select the middle.
[0057]
When the user inputs a gray patch symbol, the computer 21 causes the printer 31 to print the custom B and C patterns shown in FIGS. In the custom A pattern, only the color balance in the vicinity of a specific gradation value can be determined for cmY or CMY, but in the custom B and C patterns, the total luminance of each element color that is in color balance is corrected. can do. The user selects a black patch symbol whose luminance matches the background from the custom B pattern, and selects a gray patch symbol whose luminance matches the background from the custom C pattern. In step S135, the user selects these symbols. Input to the computer 21.
[0058]
When the user inputs black patch and gray patch symbols, the computer 21 causes the printer 31 to print a custom D pattern based on the gray patch symbols in step S140. The custom D pattern is composed of a plurality of gray patches and a reference patch in the background in the same manner as the custom A pattern, but the degree of change in the component data is smaller than that of the custom A pattern. For this reason, it is possible to select a gray patch closer to the achromatic color than the gray patch selected with the custom A pattern. Here, the user selects a gray patch symbol that appears achromatic in the custom D pattern, and inputs it to the computer 21 in step S145.
[0059]
Then, the computer 21 determines an ID for each CcMmYK in step S150 based on the black patch symbol input in step S130 and the gray patch symbol input in step S145, and comprehensively has the most color balance. The selected correction lookup table is selected and set in the printer driver 21f. Therefore, if a correction lookup table is set in the printer driver 21f, the color conversion is performed so as to cancel out the deviation of the output characteristic in the printer 31, and the color is reproduced faithfully to the original one.
[0060]
As described above, when the printing control apparatus 20 causes the printing apparatus 30 to print a plurality of gray patches having different densities of the respective color inks and eliminates the color balance deviation based on the gray patches selected by the user, Before printing the plurality of gray patches, a predetermined guide patch is printed so that the user can determine whether or not there is a deviation in the color balance. Since the color balance is not changed by not printing, it is possible to reduce the possibility that the normal color balance state will be lost if the user selects an incorrect gray patch.
[Brief description of the drawings]
FIG. 1 is a schematic block diagram illustrating a configuration of a printing system to which a printing control method according to an embodiment of the present invention is applied.
FIG. 2 is a block diagram illustrating a specific hardware configuration example of the printing system.
FIG. 3 is a schematic block diagram of a printer as a printing apparatus that determines color misregistration in the printing system.
FIG. 4 is a diagram illustrating a correspondence between ink weights of color inks ejected by the printer and their classification.
FIG. 5 is a diagram illustrating an input / output correspondence relationship in a correction lookup table corresponding to classification.
FIG. 6 is a schematic block diagram illustrating a modified example of a printer.
FIG. 7 is a diagram illustrating a color facsimile machine as another printing apparatus.
FIG. 8 is a diagram illustrating a color copier as another printing apparatus.
FIG. 9 is a diagram illustrating a color printer that can be connected to a network or the like as another printing apparatus.
FIG. 10 is a flowchart illustrating a processing procedure of a color balance adjustment program.
FIG. 11 is a diagram showing the arrangement of patterns in a custom A (D) pattern.
FIG. 12 is a diagram showing a custom A1 pattern as cmY mode component data.
FIG. 13 is a diagram showing a custom A2 pattern as component data in the CMY mode.
FIG. 14 is a diagram illustrating a correspondence relationship between component data of a custom A1 pattern.
FIG. 15 is a diagram illustrating a correspondence relationship between component data of a custom A2 pattern.
FIG. 16 is a diagram showing an ID corresponding to a gray patch selected in a custom A2 pattern.
FIG. 17 is a diagram showing the arrangement of patterns in custom B and C patterns.
FIG. 18 is a diagram showing a custom B pattern.
FIG. 19 is a diagram showing a custom C pattern.
FIG. 20 is a diagram illustrating an example of a correspondence relationship of component data in a custom C1 pattern.
FIG. 21 is a diagram illustrating an example of a correspondence relationship of component data in a custom C2 pattern.
FIG. 22 is a diagram illustrating an example of a correspondence relationship of component data in a custom D1 pattern.
FIG. 23 is a diagram illustrating an example of a correspondence relationship of component data in a custom D2 pattern.
FIG. 24 is a flowchart illustrating a print processing procedure of the printer driver.
FIG. 25 is a diagram showing a guide pattern.
[Explanation of symbols]
10. Image input device
11 ... Scanner
12 ... Digital still camera
13 ... Video camera
20 ... Printing control device
21 ... Computer
21a ... CPU
21b ... ROM
21c ... RAM
21d ... I / O
21e ... Operating system
21f ... Printer driver
21g ... Display driver
21h ... Application
22 ... Hard disk
23 ... Keyboard
24 ... CD-ROM drive
30 ... Printing device
31 ... Printer
32 ... Display
33 ... Color facsimile machine
34. Color copier
35 ... Color printer

Claims (8)

For printing devices with multiple independent print heads for each available color ink, reproduce the original image so that the deviation from the reference value of the usage amount of each color ink is acquired and the deviation is eliminated. A printing control method for printing,
A guide patch printing process for printing a guide patch for allowing a user to determine whether or not the above-described deviation has occurred;
A deviation presence / absence determination step for determining whether or not the deviation occurs based on the guide patch printed in the guide patch printing step;
A patch printing step of printing a plurality of patches in which the density of each color ink is gradually changed when it is determined in the step of determining whether or not there is a shift;
A color misregistration elimination printing step of acquiring the above deviation based on an achromatic color patch selected from a plurality of patches printed in the patch printing step, and reproducing and printing the original image so as to eliminate the deviation. equipped with,
The guide patch includes a plurality of patches for correcting the total luminance included in the plurality of patches and a plurality of patches for selecting a gray patch close to an achromatic color and printed on a single sheet. A printing control method, characterized by being a patch, wherein in the guide patch printing step, a reference patch is printed with black ink on the background of these patches . For printing devices with multiple independent print heads for each available color ink, reproduce the original image so that the deviation from the reference value of the usage amount of each color ink is acquired and the deviation is eliminated. A printing control method for printing,
A guide patch printing process for printing a guide patch for allowing a user to determine whether or not the above-described deviation has occurred;
A deviation presence / absence determination step for determining whether or not the deviation occurs based on the guide patch printed in the guide patch printing step;
A patch printing step of printing a plurality of patches in which the density of each color ink is gradually changed when it is determined in the step of determining whether or not there is a shift;
A color misregistration elimination printing step of acquiring the above deviation based on an achromatic color patch selected from a plurality of patches printed in the patch printing step, and reproducing and printing the original image so as to eliminate the deviation. equipped with,
In the guide patch printing step, a reference patch is printed with black ink on the background of the plurality of patches, and a line surrounding the patch for determining whether or not the hue with the reference patch substantially matches is printed. A printing control method.   3. The printing control method according to claim 1 or 2, wherein the guide patch printing step prints an achromatic guide patch, and whether or not the deviation occurs depending on whether or not the guide patch looks achromatic. A printing control method characterized by causing a determination to be made. The print control method according to any one of claims 1 to 3 , wherein the patch printing step arranges a patch having a predetermined density at the center and causes each color ink to correspond to each patch in a predetermined angle direction from the patch. A print control method, wherein a plurality of combinations of patches in which the density of each color ink is gradually changed is arranged and printed. For printing devices with multiple independent print heads for each available color ink, reproduce the original image so that the deviation from the reference value of the usage amount of each color ink is acquired and the deviation is eliminated. A printing control device for printing,
A guide patch printing means for printing a guide patch for allowing the user to determine whether or not the above-described deviation has occurred;
Presence / absence judging means for judging whether or not the deviation occurs based on the guide patch printed by the guide patch printing means;
Patch printing means for printing a plurality of patches in which the density of each color ink is gradually changed when it is determined by the deviation presence / absence judging means that the deviation has occurred;
Color misregistration elimination printing means for acquiring the deviation based on achromatic patches selected from a plurality of patches printed by the patch printing means, and reproducing and printing the original image so as to eliminate the deviation. equipped with,
The guide patch includes a plurality of patches for correcting the total luminance included in the plurality of patches and a plurality of patches for selecting a gray patch close to an achromatic color and printed on a single sheet. A printing control apparatus, characterized by being a patch, wherein the guide patch printing means prints a reference patch with black ink on the background of these patches . For printing devices with multiple independent print heads for each available color ink, reproduce the original image so that the deviation from the reference value of the usage amount of each color ink is acquired and the deviation is eliminated. A printing control device for printing,
A guide patch printing means for printing a guide patch for allowing the user to determine whether or not the above-described deviation has occurred;
Presence / absence judging means for judging whether or not the deviation occurs based on the guide patch printed by the guide patch printing means;
Patch printing means for printing a plurality of patches in which the density of each color ink is gradually changed when it is determined by the deviation presence / absence judging means that the deviation has occurred;
Color misregistration elimination printing means for acquiring the deviation based on achromatic patches selected from a plurality of patches printed by the patch printing means, and reproducing and printing the original image so as to eliminate the deviation. equipped with,
The guide patch printing means prints a reference patch with black ink on the background of the plurality of patches, and prints a line surrounding the patch for determining whether or not the hue with the reference patch is substantially matched. A printing control device. For printing devices with multiple independent print heads for each available color ink, reproduce the original image so that the deviation from the reference value of the usage amount of each color ink is acquired and the deviation is eliminated. A medium on which a print control program to be printed is recorded,
A guide patch printing function for printing a guide patch for allowing the user to determine whether or not the above-described deviation has occurred;
A shift presence / absence determination input function for allowing a user to input a determination result of whether or not the shift has occurred based on the guide patch printed by the guide patch printing function;
A patch printing function for printing a plurality of patches in which the density of each color ink is gradually changed when a judgment result indicating that the deviation has occurred is input by the deviation presence / absence judgment input function;
The user selects an achromatic patch from a plurality of patches printed by the patch printing function, acquires the deviation based on the selected patch, and reproduces the original image so as to eliminate the deviation. To realize the color misregistration printing function to be printed on a computer ,
The guide patch includes a plurality of patches for correcting the total luminance included in the plurality of patches and a plurality of patches for selecting a gray patch close to an achromatic color and printed on a single sheet. A medium on which a print control program is recorded that is a patch and prints a reference patch with black ink on the background of the patch in the guide patch printing function . For printing devices with multiple independent print heads for each available color ink, reproduce the original image so that the deviation from the reference value of the usage amount of each color ink is acquired and the deviation is eliminated. A medium on which a print control program to be printed is recorded,
A guide patch printing function for printing a guide patch for allowing the user to determine whether or not the above-described deviation has occurred;
A shift presence / absence determination input function for allowing a user to input a determination result of whether or not the shift has occurred based on the guide patch printed by the guide patch printing function;
A patch printing function for printing a plurality of patches in which the density of each color ink is gradually changed when a judgment result indicating that the deviation has occurred is input by the deviation presence / absence judgment input function;
The user selects an achromatic patch from a plurality of patches printed by the patch printing function, acquires the deviation based on the selected patch, and reproduces the original image so as to eliminate the deviation. To realize the color misregistration printing function to be printed on a computer ,
The guide patch printing function prints a reference patch with black ink on the background of the plurality of patches, and prints a line surrounding the patch for judging whether or not the hue with the reference patch is almost the same. A medium on which a printing control program is recorded.

Images